# Count sum of all digits

This challenge is to write a program or script which counts the sum of all digits within the integers from 1 up to and including a given number.

Input, one positive integer. Output, the sum of digits in that number and all smaller numbers.

Examples:

Input: 5
Integer Sequence: 1, 2, 3, 4, 5
Sum of Digits: 1 + 2 + 3 + 4 + 5 = 15

Input: 12
Integer Sequence: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12
Sum of Digits: 1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9 + 1 + 0 + 1 + 1 + 1 + 2 = 51


To be clear, this is to count a sum of the digits - not the integers. For single-digit inputs, this will be the same. However, inputs larger than 10 will have different responses. This would be an incorrect response:

Input: 12
Output: 78


Another example, to show the difference:

Input: 10

Integer Sequence: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10
Sum of Integers (INCORRECT RESPONSE): 1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9 + 10 = 55

Digit Sequence: 1, 2, 3, 4, 5, 6, 7, 8, 9, 1, 0
Sum of Digits (CORRECT RESPONSE): 1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9 + 1 + 0 = 46


A larger test case (CORRECT RESPONSE):

Input: 1000000
Output: 27000001


Rules & Guidelines:

• Submitted code must be a complete program or script - not just a function. If the code requires includes, imports, etc., they must be included in the posted code.
• The number must be input by the user - not hard-coded. Input may be received as a command-line argument, file, stdin, or any other means by which your language can take user input.
• The code must be able to properly handle inputs at least up to (2^64)-1.
• The code should only output the sum.
• Submitted programs & scripts should be user-friendly and not wasteful of computer resources (e.g.: they should not declare insanely-large arrays to hold every character). There is no strict bonus or penalty for this, but please be good programmers.

Scoring:

Primary scoring mechanism is by code length. Lower scores are better. The following bonuses and penalties also apply:

• -25 Bonus if your code can handle all positive numbers, for example: 1234567891234567891234564789087414984894900000000
• -50 Bonus if your code can handle simple expressions, for example 55*96-12. To qualify for this bonus, the code should handle + - / * (addition, subtraction, division, multiplication) operators and enforce order of operations. Division is regular integer division.
• The given example (55*96-12) evaluates to 5268. Your code should return the same for either of those inputs - correct answer is 81393.
• -10 Bonus if your code qualifies for the -50 bonus and can handle the ^ (exponent) operator.
• -100 Bonus if your code qualifies for the -50 bonus and does not use eval or similar to handle expressions.
• +300 Penalty if your code relies upon any web resources.
• And what should 55*96-12 return? Jan 15 '14 at 18:04
• Bonuses may be a bit on the big side, seems to be becoming a competition on the biggest negative score :) Jan 15 '14 at 19:12
• @ST3 if it's virtually impossible to win without the bonuses, then it's almost better to just make them requirements, or be worth less. Jan 15 '14 at 19:17
• @flonk: This is wrong. Why people don't read tasks, I wonder. I decided to put a note in task (as an edit). Seriously, this is not task about summing numbers. Jan 16 '14 at 12:35
• -1 because this challenge uses the outdated (and awful) scoring incentive of "bonuses". May 9 '18 at 21:23

# Mathematica 30-(10+50)= -30

Shortened by 4 chars thanks to ybeltukov.

Range@n returns the numbers from 1 through n.

Integerdigits@n breaks up each of those numbers into its digits.

Total[n,2] sums the digits. The 2 is to allow summing across different levels, i.e. lists of lists.

IntegerDigits@Range@#~Total~2&


## Testing

IntegerDigits@Range@#~Total~2&[12]


51

IntegerDigits@Range@#~Total~2 &[1000000]


27000001

## Expressions

IntegerDigits@Range@#~Total~2 &[55*96 - 12]

55*96 - 12


81393
5268

IntegerDigits@Range@#~Total~2 &[5268]


81393

IntegerDigits@Range@#~Total~2 &[55*96^2 - 12]
55*96^2 - 12


12396621
506868

IntegerDigits@Range@#~Total~2 &[506868]


12396621

• You should add info on the valid arguments to get all brownie points :D Jan 15 '14 at 18:48
• I don't know if I would consider that not using eval Jan 15 '14 at 19:19
• re: Eval in Mathematica. It's a symbolic language in which the front-end always tries to solve Math like that automatically. You'd have to add additional code (Hold[]) to prevent it from doing so. Jan 15 '14 at 20:46
• Tr@Flatten can be reduced to Total[...,2]: IntegerDigits@Range@#~Total~2&. Jan 15 '14 at 23:40
• Don't you handle arbitrarily large int and deserve another -25? Jan 16 '14 at 0:33

## C: 150 138 - (100+50) = -12

a,b,c;main(d){for(scanf("%d ",&a);~scanf("%c%d ",&d,&b);a=d^43?d%5?d%2?a/b:a*b:a-b:a+b);for(;a;)for(b=a--;b;b/=10)c+=b%10;printf("%d",c);}


Very shamefully stealing @Fors answer from here to do the expression evaluation: https://codegolf.stackexchange.com/a/11423/13877

Sample usage:

./a.exe <<< "5 + 7"
51


Note: the expression implementation assumes no operator precedence and consumes values as it receives them; ex, 1+2*3 = 9 rather than the typical 7.

• This doesn't deal with operator precedence, but the question doesn't specify whether standard operator precedence should apply... ping @ST3, this should probably be clarified. Anyway, it should probably be mentioned in the answer. Jan 15 '14 at 23:13
• @FireFly I modified the answer to reflect this fact.
– Josh
Jan 16 '14 at 13:55
• @Josh - please provide answer for 2^64 - 5 Jan 19 '14 at 12:24

## sed, 411 283 - 25 = 258

I can't be bothered to golf it more right now. :-) Not recommended for use with even remotely big integers, but technically it could deal with arbitrarily large integers (you'll likely run out of RAM pretty quickly though, since I (more-or-less have to) encode the number in unary).

s/$/x0123456789/ :l /9$/H
:b
s/(.)(y*x\1)/y\2/
/(.)y*x\1/b b
s/(.)([xy].*)(.)\1/\3\2\3\1/
:c
s/y(.*(.))/\2\1/
/y/b c
/0$/b f /^0*x.*9$/!b l
x
s/x[^\n]*\n//g
:d
s/(.)(.*x.*(.)\1)/z\3\2/
/[^z0]x/b d
s/0|x.*|\n//g
H;x
s/./0/g
s/$/x9876543210/ x :e x b l :f x s/.// /./b e x s/^0+|x.*//g  ### Sample use (Input lines indented for easier reading.)  5 15 12 51 33 183  # Perl 6: 108 - (25 + 50 + 100) + 0 = -67 points Golfed solution (Final line based off of xfix's great solution): $!=get;for '*',&[*],'/',&[/],'+',&[+],'-',&[-] ->$s,&f{$!~~s:g[(\d+)$s(\d+){}]=f |@()} say [+] (1..$!)».comb


Un-golfed solution:

my $expression = get; for '*', &[*], '/', &[/], '+', &[+], '-', &[-] ->$sym, &infix {
$expression ~~ s:g[(\d+)$sym (\d+) {}] = infix($0,$1)
}
say [+] (1..$expression)».comb  The evaluation step works by iterating over each symbol of *, /, +, -, finding when that lies between two integers, and substituting that using the function that symbol represents. In more detail: it takes each symbol (e.g. +) and the infix function that it's supposed to represent (e.g. &[+] which is the shorthand for &infix:<+> and the same function Perl 6 calls when you execute 1 + 2) and does a global substitution (s:g[…] = …, which is like Perl 5 s/…/…/ge), which matches two integers separated by the symbol ((\d+)$sym (\d+)), and substitutes it with the output of the corresponding infix function called with those integers (infix($0,$1)).

Finally, this evaluated expression is feed into say [+] (1..$expression)».comb, which xfix explains very well in his solution. Sorry to be so late to the party ☺ EDIT: Removed support for exponents; it was exactly 10 characters anyway and didn't do associativity correctly. • This is great. I like how you made a very simple parser - I tried, but I didn't manage to make something as short as this. Instead of my$g you may want to use something predeclared (I think that $! could work, but I haven't tested). Mar 12 '14 at 8:05 • @xfix, I'm not sure how that would help the golf. There is one way to really golf it, but it requires the not yet fully functional "infix:[$var]" syntax: my$g=get;for <* / + -> {$g~~s:g[(\d+)$^s(\d+){}]=infix:[$^s] |@()};say [+] (1..$g)».comb This would get the score down to 88 chars or -97 points – Mouq Mar 12 '14 at 22:34 • Ohh, the$! would help get rid of the 'my '! Thanks @xfix
– Mouq
Mar 16 '14 at 17:43
• This doesn't really do order of operations correctly, does it? For example 5*2/2*5 would evaluate to 1, not 25.
– Jo King
Mar 14 '20 at 11:32

## python, 55-(50+25+10) = -30

In-efficient yet shorter and also able to handle expressions.

EDIT: Thanks Wolframh and legoStormtroopr for the tricks :D

s,t=0,input()
while t:s+=sum(map(int,t));t-=1
print s


## python, 149-(25+50+10) = 64

My first version

def d(n):
if n/10==0:return n*(n+1)/2
c,t=0,n
while t/10:c,t=c+1,t/10
p=10**c;m=n%p
return d(m)+t*(m+1)+p*t*(t-1)/2+p*c*t*45/10
print d(input())


input:

1234567891234567891234564789087414984894900000000


output:

265889343871444899381999757086453238874482500000214

• I get an overflow error when I try running your xrange solution on 1234567891234567891234564789087414984894900000000
– Josh
Jan 15 '14 at 18:38
• @Josh got rid of xrange :D
– Wasi
Jan 15 '14 at 18:58
• Some hints: You can replace eval(raw_input()) by input(). The while loop could be while t:s+=sum(map(int,t));t-=1. Jan 15 '14 at 22:44
• You can shorten this by just using input() instead of eval(raw_input()), as input already evals the expression! This means you can get the -10 binus for the power symbol and the -100 bonus for not using eval!!!
– user8777
Jan 15 '14 at 22:44
• @LegoStormtroopr the rules say eval and similar, so I think the -100 wouldn't count Jan 15 '14 at 23:41

# Python - 108 chars minus 85 bonuses, 23 strokes, handles very very very large inputs

Most of these solutions seem to be looping over all ints less than the input and adding up all their digit sums. This works, but I feel it's inelegant, and would question whether they're truly eligible for the 25 point bonus, since I don't think they'd be able to handle the input 1234567891234567891234564789087414984894900000000 within our lifetimes. Indeed, on an input of n digits, these solutions take O(10^n) time. I chose instead to throw some maths at this problem.

#Returns the sum of all digits in all x-digit numbers
def f(x):
return x*(10**(x-1))*45

#Returns the sum of all numbers up to x
def g(x):
return x*(x+1)/2

#Solves the problem quickly
def magic(x):
digits = [int(y) for y in list(str(x))]
digits.reverse()
total = 0

for (sig, val) in enumerate(digits):
total += (10**sig)*g(val-1) + val*f(sig) + val + (val*10**sig)*sum(digits[sig+1:])
return int(total)



The set of all x digit numbers is isomorphic to the set {0,1,2,3,4,5,6,7,8,9}^x. For a fixed (n,sig) there are x different values for sig, 10^x-1 points with the sigth index set to n, and the sum of all digits 0-9 is 45. This is all handled by f.

g is something we're probably all familiar with

magic takes all the digits in the input number, and iterates over them from least to most significant. It's easiest to track this with an example input, say 1,234,567.

To deal with the range 1,234,567-1,234,560, we must add up all digits from 1 to 7, and add on 7 times the sum of the other digits, to deal with all numbers greater than 1,234,560. We now need to deal with the remainder.

To deal with the range 1,234,560-1,234,500, we add on the 6 (val), and drop the upper limit to 1,234,559. In making the remainder of the drop, we'll see every single-digit number 6 times (val*f(sig)). We'll see all the numbers from 0 to 5 exactly 10 times each ((10**sig)*g(val-1)). We'll see all the other digits in this number exactly 60 times ((val*10**sig)*sum(digits[sig+1:])). We have now dealt with all numbers strictly greater than 1,234,500. The same logic will apply inductively across all significances.

Golfing this, with thanks to WolframH, reduces this solution to

d=map(int,str(input()))
print sum(v*(10**s*((v-1)/2+sum(d[:~s]))-~s*9*10**s/2)for s,v in enumerate(d[::-1]))


And the sum of the digit sums of all integers up to 1234567891234567891234564789087414984894900000000 is 265889343871444927857379407666265810009829069029376

The largest number I've managed to throw at the golfed version is 10^300, at which point the floats start overflowing and numeric instability starts to cause problems. With a quick square-and-multiply exponentiation function, this problem would vanish.

And LaTeX support would be really useful...

• Nice. I tried to attack this problem with maths a while ago, but got stuck. I'll have to go over this carefully later and have to think about how it works. Jan 16 '14 at 13:47
• Nice answer! It is similar into the way I counted, that would be if input is 1000000 :)
– ST3
Jan 16 '14 at 19:35
• +1 for using maths. However, I get 2.65889343871e+50, which is a floating point approximation of the real solution. Apparently you printed int(t) instead of t as in the code you gave. That is wrong; the real solution is 265889343871444899381999757086453238874482500000214. Just avoid using floats, i.e. replace **(x-1) by the shorter **x/10. Jan 17 '14 at 21:55
• Golfing this a little bit more. It's clear that the only global needed is d (because it's used twice). Eliminating the others (and using some tricks) one arrives at d=map(int,str(input()))\nprint sum(v*(10**s*((v-1)/2+sum(d[:~s]))-~s*9*10**s/2)for s,v in enumerate(d[::-1])) (108 characters). Runs fine on inputs of any size (like int("1"*1000)). Jan 17 '14 at 22:23
• @ymbritt 10**-1 is 0.1, and from there on everything gets turned into floats. 1/10 is 0 (integer division), and everything can stay ints. Jan 18 '14 at 20:39

## TI-BASIC, 137 - (50 + 10 + 100) = -23

Input A:Disp cumSum(randIntNoRep(1,A))→L₁:"?:For(A,1,dim(L₁:Ans+sub("ABCDEFGHIJKLMNOPQRSTUVWXYZ",L₁(A),1:End:Disp sub(Ans,2,length(Ans)-1


Input handles numbers up to 1E100 and automatically evaluates. Can handle expressions.

Although it is an insanely large array, I'm not wasting computer resources (this is run from a calculator).

• best answer for this question I think. using a calculator language to write a code golf answer for adding numbers together. so cool! Jan 15 '14 at 22:29
• @Malachi As I always say, when code golf = math, it's time to pull out the calculator. Jan 15 '14 at 22:29
• My version that allowed numbers up to 9E99 wasn't good enough apparently, so I don't think you can count that bonus. Also, I'm pretty sure you'll have to count the input as "with eval", per Carraher's Mathematica answer. Jan 15 '14 at 23:02
• Agree with FireFly, bonus of not using eval shouldn't be taken.
– ST3
Jan 16 '14 at 7:17
• How is a calculator not a computer? Jan 16 '14 at 18:25

# Scala 66

println((1 to readLine().toInt).flatMap(x=>(x+"").map(_-'0')).sum)


## C, 77 74

n,v,i;main(){scanf("%d",&n);for(;i||(i=n--);i/=10)v+=i%10;printf("%d",v);}


### C, 150 124 - 25 = 99

Here is an alternative version that should technically be eligible for the 25 bonus for "any" positive integer, but it's impractically slow since the algorithm is linear-time in its input. Regardless, it was fun to write. Manually subtracts a number read in as ASCII characters. This version is 150 characters. (Now with horrible, argument-thrashing, loopful code!)

n,v;main(int n,char**a){char*p;do{for(p=a[1];*p>47;p++)v+=*p-48;for(;*--p==48;)*p=57;
p[0]--;}while(p>=a[1]);printf("%d",v);}


### C, 229 224 - (50 + 100) = 74

Expression-handling variation. Implements operator precedence according to typical rules: / * - +. Limited to 97 tokens = 48 terms.

#define F(X,Y)for(q=n+1;q+1!=p;)*q-X?q+=2:(q[-1]Y##=q[1],memmove(q,q+2,(p-q)*4))
n[99],*p,*q,v,i;main(){for(p=n;~scanf("%d%c",p,p+1);)p+=2;F('/',/);F('*',*);
F('-',-);F('+',+);for(;i||(i=n[0]--);i/=10)v+=i%10;printf("%d",v);}

• All positive integers mean, that it should handle even longer then 99 digits numbers.
– ST3
Jan 15 '14 at 20:34
• @Firefly cool algorithm to work on numbers larger than the builtin numerics!
– Josh
Jan 15 '14 at 20:40

## GolfScript 18 - 50 = -32

~),{+}*' '*~]{+}*


Explanation: Suppose input is "12":

~), # turn input into integer, increment, and then turn into an array of all numbers less than or equal to input.


Stack is [0,1,2,3,...,12].

{+}* # fold string concatenation across the array


Stack is "01234...9101112".

' '* # join a space between all characters


Stack is "0 1 2 ... 1 0 1 1 1 2".

~] # evaluate the stack into an array.  No [ is necessary since the stack is otherwise empty.


Stack is [0,1,2,...,9,1,0,1,1,1,2].

{+}* # fold addition across the new array


Stack is 51, as desired.

The input here could be any valid GolfScript expression, which can include exponents. For example:

echo "5 5 + 2 * 8 -" | ruby golfscript.rb h.gs
-> 51


Since 2(5 + 5) - 8 = 12. I think this should qualify for the bonus, but maybe it was expected to be only if in normal form, not the reverse Polish notation of GolfScript.

• Does it support ^ as well? Jan 16 '14 at 9:55
• It supports exponentiation in GolfScript syntax, which is ? Jan 16 '14 at 14:45
• You do not get bonus 10, because program must support ^, not ? or pow and etc.
– ST3
Jan 16 '14 at 19:31
• @ST3 As you wish! Jan 16 '14 at 19:43

# Husk, 4 bytes

Σṁdḣ


Try it online!

• ḣ makes a range from 1 to input
• ṁd flatmap digits
• Σ sum
• Welcome to Code Golf, and nice answer! Nov 21 '21 at 2:32

## Ruby, 37 - 50 = -13

Double eval, all the way across the sky! As with the other Ruby solutions, I think this should theoretically be able to work with arbitrarily large numbers, but execution time would be... dire.

p eval [*1..eval(gets)].join.chars*?+


Older version (49 - 50 score)

p"#{[*1..eval(gets)]}".chars.map(&:to_i).inject:+


Assuming the 10 character bonus actually requires the character for exponentiation to be a caret, the shortest way I could think to add that is:

.gsub ?^,'**'


Which costs more characters than the bonus would give.

• You can remove a few chars: p"#{[*1..eval(gets)]}".chars.map(&:to_i).inject :+ Jan 15 '14 at 23:47
• @SztupY good call, thanks! I don't use & nearly enough in golf. In fact, you don't need the space between inject and :+ either. Jan 15 '14 at 23:54

# Perl 6 (28 - 75 + 0 = -47 bytes)

say [+] (1..get.eval)».comb


It can handle all positive numbers (however, big ones will take a long while, because currently Perl 6 implementations are slow, but Perl 6 supports big integers natively). It uses eval, in order to implement a simple calculator (five character penalty for fifty characters is worth it). It's slow just because current implementations are slow, but in theory, it should be fast enough (when Perl 6 implementations improve, that is). Also, surprisingly, I win with the Mathematica (for now).

» in this code is actually not needed, but I put it here for performance reasons (otherwise, program would allocate entire string. The reason why it's here is that Perl 6 doesn't have infinite strings, but it does have infinite lists.

Anyway, you may ask how this code even works. Well, I'm going to pass it part by part.

• get.eval

This gets one line (get function), and evaluates it (eval method).

• 1..get.eval

After that, Perl 6 prepares a range object, from 1 to evaluated value. This is a range, so nothing huge is allocated.

• ».comb

.comb method splits string onto characters (unless called with an argument). For example, 'cat'.comb returns 'c', 'a', 't'. » maps the list elements, so .comb is ran on its every item - not only on the list itself (for example, (4, 9)».sqrt gives 2, 3). This also doesn't allocate more than needed, because Perl 6 has infinite lists (like Haskell, for example).

» character actually not needed, as .comb can be used directly on the list, but this involves implicit string coercion (and Perl 6 doesn't have infinite strings, so this would waste memory). For example, 1, 2, 3 list after conversion to the string returns 1 2 3. For Perl 6, a space is a perfectly fine number meaning 0, so the code would work, even with such conversion. However, it would abuse computing resources.

• [+]

This is a reduce operator. Basically, between [], you can put an operator to use, in this case +. The list after reduce operator is reduced, so [+] 1, 2, 3 is 1 + 2 + 3, which is 6. Perl 6 uses separate operators for numbers and strings, so it won't be considered to be concatenation.

• say

Finally, say outputs the result. After all, you want to see the final result, don't you?

• Hmmm... [+] 1,2,3,4,5,6,7,8,9,10 is 1+2+3+4+5+6+7+8+9+10, am I right?
– ST3
Feb 11 '14 at 11:14
• @ST3: Yes. Reduce operator can be used in many interesting ways in Perl 6. For example, > can be chained, so 3 > 2 > 1 is true. The same property applies to reduce operators, so [>] 3, 2, 1 is still true, as it means 3 > 2 > 1 - [>] can be used to determine if numbers are in descending order. Feb 11 '14 at 18:55
• couldn't you use get.Int instead of eval ? Does it need math expressions ?
– Ven
Apr 18 '14 at 8:57
• @user1737909: "-50 Bonus if your code can handle simple expressions". Also, Perl 6 doesn't need casting by design (aside of few rare edge cases, like sort without comparison method argument). Apr 18 '14 at 12:34

## Perl 31 - No bonuses

map{s/./$%+=$&/ge}0..<>;print$%  Sample output: perl -e 'map{s/./$%+=$&/ge}0..<>;print$%'
1000000
27000001


## Perl 5 with -p, 50 - 28 bytes: -22

map$\+=$_,/./g for 1..eval}{


Try it online!

J, 22

([:+/[:"."0[:":>:@:i.)


Explanation

Evaluation proceeds from right to left.

i. n -> 0 1 2...n-1

>: n -> n+1

": numbers -> 'numbers'

"."0 -> (on each scalar item) apply ". -> '123' -> 1 2 3

+/ -> sum

• Downvoter needs to explain their objections to this answer. I've just tried it and, while it doesn't earn any bonuses, it works just fine as far as I can see. Jan 16 '14 at 6:56
• Actually, having looked at the top answer, this one also seems to earn the expressions and power operator bonuses for a score of 22-60 = -38. Jan 16 '14 at 7:00
• This +/,10#.inv>:i. would be shorter. But it still a function and not a complete program as OP asked. Jan 16 '14 at 17:27
• @Gareth Bonuses don't apply to this answer, because you would just write expressions inside code and not as input. Jan 16 '14 at 17:33
• @swish That's what I thought at first, but the Mathematica answer seems to work much like this. Jan 16 '14 at 18:52

## R, 64 - (50 + 10) = 4

sum(utf8ToInt(paste(0:eval(parse(t=scan(,""))),collapse=""))-48)


When this is run, the user is asked for input.

Old version (cannot handle expressions): 46 characters:

sum(utf8ToInt(paste(0:scan(),collapse=""))-48)

• It occurs to me that codegolf is wildly biased towards languages with single-symbol functions. This solution would be considerably shorter if we predefined u<-function(x) utf8ToInt(x) and so on. Jan 16 '14 at 16:13
• @CarlWitthoft This is true. But the predefinition also counts for the number of characters. By the way: It's sufficient to have u <- utf8ToInt without function. This can be helpful for code golf if the function is used multiple times. Jan 16 '14 at 16:28
• so if I create a Rcheatcodegolf package, is it legal to use the predefined functions in that package? :-) Jan 16 '14 at 16:34
• @CarlWitthoft Yes, packages can be used. Of course, the package should not be written for the task. But if it includes short names for functions only, it's ok. Jan 16 '14 at 16:52

Batch - (181 - 50) - 131

Just for a bit of fun.

@set/av=%1
@setLocal enableDelayedExpansion&for /L %%a in (1,1,%v%)do @set a=%%a&powershell "&{'%%a'.length-1}">f&set/pb=<f&for /L %%c in (0,1,!b!)do @set/as+=!a:~%%c,1!
@echo !s!


I'll make it a bit more readable:

@set /a v=%1
setLocal enableDelayedExpansion
for /L %%a in (1,1,%v%) do (
@set a=%%a
powershell "&{'%%a'.length-1}">f
set /p b=<f
for /L %%c in (0,1,!b!) do @set /a s+=!a:~%%c,1!
)
@echo !s!


Old method uses for loop to get output of powershell command, as opposed to writing to and reading from a file:

@set /a v=%1
@setLocal enableDelayedExpansion&for /L %%a in (1,1,%v%)do @set a=%%a&for /F usebackq %%b in (powershell "&{'%%a'.length-1}")do @for /L %%c in (0,1,%%b)do @set /a s+=!a:~%%c,1!
@echo !s!


Set the input to a variable - v - using /a to accept arithmetic expressions.
Unfortunately enabling delayed expansion was necessary.
Use a for loop to count from 1 to the inputted value - v.
In order to handle numbers greater than 9, I had to use powershell to get the length of the string then use another for loop to split that string up, and add it to the sum - s.
You could change the name of powershell.exe to p.exe under C:\WINDOWS\System32\WindowsPowerShell\v1.0\ then call it with just p "&{'%%a'.length-1}, saving 9 bytes. But that's not really in the spirit of it.

H:\>sumof.bat 12
51
H:\>sumOf.bat (55*96-12)
81393


Left that second one running while I took my lunch break.

I can't really test it with numbers that are too much larger than this due to how slow it is. However it should work for fairly large numbers. 2147483647 is the largest number it will take (maximum 32 bit integer) before giving the following error -

H:\>sumOf.bat 2147483648
Invalid number.  Numbers are limited to 32-bits of precision.


This of course disqualifies me from the challenge.

• Nice solution! There are a few ways to golf this down. 1. You can get rid of the temporary variable v and use %1 directly. 2. You can subtract 1 within your PowerShell script rather than the lengthy @set /a b=%%b-1 which saves you a bunch. With those changes, I have it down to 211 from the original 240. :-)
– Mark
Jan 16 '14 at 19:00
• Oops, I see now why you kept your temp variable (for the bonus points). The PowerShell tip still stands, though...
– Mark
Jan 16 '14 at 20:06
• Well spotted, Thanks. Will change that now. Jan 16 '14 at 21:37
• Batch won't work. It's limited to (2^31)-1 (signed 32-bit integer). The challenge requires handling of inputs up to (2^64)-1 (unsigned 64-bit integer, but the output for that value would overflow it). This is where PowerShell has a distinct advantage - its [decimal] type allows for values up to (2^96)-1.
– Iszi
Jan 16 '14 at 22:52
• I will give Batch some good credit for defaulting to integer division, though. That's something PowerShell is missing entirely.
– Iszi
Jan 16 '14 at 22:59

# Dyalog APL, 9 – 160* = -151

+/⍎¨∊⍕¨⍳⎕


Try it online!

⎕ get evaluated input
e.g. "7+5" gives 12

⍳ indices 1 ... n
[1,2,3,4,5,6,7,8,9,10,12]

⍕¨ format each number into string
["1","2","3","4","5","6","7","8","9","10","11","12"]

∊ enlist (flatten)
"123456789101112"

⍎¨ execute each character (yields list of single digit numbers numbers)
[1,2,3,4,5,6,7,8,9,1,0,1,1,1,2]

+/ sum  51

### * Scoring

-50 bonus as it even accepts expressions as input. The expression must be valid APL, which is acceptable according to OP.

-10 bonus because because it also handles the ^ (* in APL).

-100 bonus because expression input is handled without explicit usage of eval (i.e. ⍎ in APL).

• Are you sure the -100 bonus is added here? Because it states "-100 Bonus if your code qualifies for the -50 bonus and does not use eval or similar to handle expressions." Since ⍎¨ seems to execute each character one by one, it's kinda the same as an eval (except it executes the characters one by one instead of all at the same time like eval does). Oct 9 '18 at 11:56
• @KevinCruijssen Yes, as it does not use eval or similar to handle expressions. ⍎¨ is only used to convert digits to integers, not to handle expressions.
Oct 9 '18 at 12:00
• Ah wait, I looked at your explanation incorrectly. But isn't the ⎕ kinda an input+eval builtin then, or is eval always done implicitly when expressions are input? Oct 9 '18 at 12:06
• @KevinCruijssen ⎕ always takes an expression as input, evaluates it, and returns its result. So to input a string, you'd have to put quotes around it. The fact that a related built-in (⍞) returns the input as raw text shouldn't matter (especially since the symbols indicate that ⎕ is the primary input method, and ⍞ is a special variant), as otherwise getting the bonus would require implementing a math evaluator — an entirely different task than the main one. I don't like bonuses, and the -100 one is just silly or had APL in mind, but imho, it does seem an exact fit for the bonus.
Oct 9 '18 at 12:19
• If ⎕ is indeed the normal way of getting input and automatically handles expressions, I indeed see it fit into the bonus as well, so +1 from me. Bonuses are silly these days anyway, but nice way of utilizing them to minimize your score. Oct 9 '18 at 12:22

C# (161)

using C=System.Console;using System.Linq;class X{static void Main(){C.WriteLine(Enumerable.Range(1,int.Parse(C.ReadLine())).SelectMany(i=>i+"").Sum(c=>c-48));}}


Pretty

using C = System.Console;
using System.Linq;

class X
{
static void Main()
{
C.WriteLine(
.SelectMany(i => i + "")
.Sum(c => c - 48)
);
}
}


python3 -c"print(sum(sum(map(int,str(x+1)))for x in range(int(${1//^/**}))))"  • can handle all positive number • can handle expressions with + - / * operation • can handle ^ (power) operator. • can handle expressions, without eval or similar¹ If the result of expression is not integer, it will be truncated first. If the result of the expression is negative, the result is undefined. Use it like: bash golf.sh "12 + (42 / 3 + 3^4)"  1: unless you count invoking Python from Bash as such, but I don't think it is the case. If you think that it actually is, then the adjusted score is -7. • I would say that if you didn't write an expression evaluator, then you're using something equivalent to eval. But I'm not the OP, so good luck! Jan 16 '14 at 21:24 • Agree with @Tobia, no bonus for expression evaluator. – ST3 Feb 3 '14 at 8:43 # Java, 254 class T { public static void main(String[] a) { long target = 10, count = 0; String[] digits = new String[50]; for (long i = 1; i <= target; i++) { digits = String.valueOf(i).split("(?!^)"); for (int j = 0; j < digits.length; j++) if (digits.length > j) count += Integer.parseInt(digits[j]); } System.out.println(count); } }  Handles expressions. Give whatever expression you desire in target. Handles until the length long can handle. If you clean up taking off all spaces into one line, and no statement to print, it counts to 254 chars (considering the long long words based Java programming). PS: This is a complete program, not just logic. Words count given for the program, not just the logic. Java (JDK8), 272 My first challenge I'm in, suggestions are welcome =) import java.util.*;import java.util.stream.*;class C{public static void main(String[]a){System.out.print(Arrays.asList(IntStream.range(1,new Integer(a[0])).mapToObj(s->s+"").collect(Collectors.joining()).split("")).stream().map(Integer::valueOf).reduce(0,Integer::sum));}}  Indented: import java.util.*; import java.util.stream.*; class C { public static void main(String[] a) { System.out.print(Arrays.asList(IntStream.range(1,new Integer(a[0])) .mapToObj(s->s+"") .collect(Collectors.joining()) .split("")) .stream() .map(Integer::valueOf) .reduce(0,Integer::sum)); } }  • +1 as everyone who does golf code challenge in java deserves it, but seems like Stream API does not give you advantage while you are golfing. Ill bet if you rewrite your solution and you will use loops instead streams it will be shorter. Jul 28 '16 at 13:09 # CJam, 9 - 25 = -16 CJam is a few months younger than this challenge, so this is not eligible for the green checkmark. Furthermore, this isn't beating Perl in the first place. ;) I quite liked the approach though, so I wanted to post it anyway. l~),s:~:+  Test it here. The idea is to create a range from 0 to N. This range is then converted to a string, which just concatenates the integers back to back. For N = 12, we'd get "0123456789101112"  Then each character is converted to a integer with :~ (yielding an array of integers), and then summed up with :+. CJam can deal with arbitrarily big integers. # Python 3 + astor, 1017 1007 bytes - (25 + 50 + 100) = Score: 842 834 saved 10 bytes by removing ts and changing p edit: I am unable to test the ridiculously long integer (1234567891234567891234564789087414984894900000000) [hangs my computer] but from my knowledge, Python 3 supports arbritrarily long integers. This implementation uses abuses AST. I wouldn't consider abusing AST as "eval or similar". from ast import* from astor import* nt,bo,m,d,a,s,n,p,ty=NodeTransformer,BinOp,Mult,Div,Add,Sub,Num,map,type class M(nt): def visit_BinOp(t,z): if ty(z.left)==bo and ty(z.right)==bo:return bo(t.visit_BinOp(z.left),z.op,t.visit_BinOp(z.right)) if ty(z.left)==bo:return bo(t.visit_BinOp(z.left),z.op,z.right) if ty(z.right)==bo:return bo(z.left,z.op,t.visit_BinOp(z.right)) if ty(z.op)==m:return n(z.left.n*z.right.n) if ty(z.op)==d:return n(z.left.n/z.right.n);return z class A(nt): def visit_BinOp(t,z): if ty(z.left)==bo and ty(z.right)==bo:return bo(t.visit_BinOp(z.left),z.op,t.visit_BinOp(z.right)) if ty(z.left)==bo:return bo(t.visit_BinOp(z.left),z.op,z.right) if ty(z.right)==bo:return bo(z.left,z.op,t.visit_BinOp(z.right)) if ty(z.op)==a:return n(z.left.n+z.right.n) if ty(z.op)==s:return n(z.left.n-z.right.n);return z class S(nt): def visit_Num(t,z):return n(sum(p(int,list("".join(p(str,range(1,z.n+1))))))) print(to_source(S().visit(A().visit(M().visit(parse(input()))))))  Too lazy to write ungolfed, so I'll give you an explanation of the classes: M(NodeTransformer|nt) - converts multiplication and division into their results. A(NodeTransformer|nt) - converts addition and subtraction into their results. S(NodeTransformer|nt) - converts numbers into their sum of digits via the Pythonic (naïve) way.  The last line just executes these classes in the appropriate order on the input, to preserve order of operations, and prevent unwanted behavior. Example usage ($ or > means user input) and by the way, the actual program takes input only once:

$python3 summer.py > 5 15 > 10 46 > 12 51 > 1000000 27000001 > 55*96-12 81393  • This is amazing, but yet horrifying. Not sure if it's allowed (to knowingly use a long solution), but 10/10 from me. Jun 23 '16 at 22:35 • @EᴀsᴛᴇʀʟʏIʀᴋ Why isn't it allowed to knowingly use a long solution? I see no problem. At least I'll beat solutions with 842+ score ;) – user36215 Jun 23 '16 at 23:15 • They are supposed to be competetive answers, meaning show effort. Also, DELETE THAT COMMENT. SE LIMIT FOR AGE IS 13!!! You should probably wait until you are legally allowed to be on. Due to COPPA (google it), you need to be 13 to use the internet like this. Jun 24 '16 at 2:18 • @EᴀsᴛᴇʀʟʏIʀᴋ Now I'm curious, who was that user? – cat Jun 30 '16 at 23:29 • @cat An arabic name I couldn't pronounce? Probably nuked account. Jul 2 '16 at 12:28 # Jelly, 5 - 160 = -155 bytes ƓRDFS  Try it online! Ɠet evaluated input, turn it into a Range, get the Digits of each, Flatten into a single list, then Sum Claims the same bonuses as the APL answer. Exponents must be with ** instead of ^ • I think adding Ɠ to the beginning is just a free -160. Apr 6 '21 at 16:45 • @Razetime How would it count for the -100 and the -10? Unless I'm missing something, it would be leaning on Jelly evaling the input, which also wouldn't handle ^ (Python uses ** instead) Apr 6 '21 at 16:49 • @Razetime -150 possibly, depending on the question's definition of "eval". Given that there's a "non-eval input" atom as well, I think that only claims the -50 Apr 6 '21 at 16:50 • The APL answer seems to do the same thing and claim -160. Apr 6 '21 at 16:51 • If there's precedence of an answer doing it, I think that's ok (especially on such a poorly worded challenge) (cc @UnrelatedString) Apr 6 '21 at 16:52 # Vyxal, 3 - 160 = -157 bytes ɾṅ∑  Try it Online! Gaming. Use ** for pow. This works because all input is auto evaluated C# (108) int c(int n){return string.Join("",Enumerable.Range(1,n).Select(i=>i+"")).ToArray().Select(c=>c-'0').Sum();}  Pretty int c(int n) { return string.Join("", Enumerable.Range(1, n).Select(i => i + "")).ToArray().Select(c => c - '0').Sum(); }  • It is not a valid answer as it is function and char count is kind a big – ST3 Jan 15 '14 at 20:50 • You don't need the ints; in C, everything defaults to int... Oh, it's C#. Mar 9 '16 at 19:28 # Ruby -> 83-50 = 33 p (1..eval(gets.chomp)).each.inject{|c,e|c+e.to_s.chars.map{|x|x.to_i}.inject(:+)}  "To test" version: module Math class CountSum def sum(number) (1..number).each.inject do |c, e| c + e.to_s.chars.map{ |x| x.to_i }.inject(:+) end end end end  ### Tests results $ rspec sum_spec.rb  --format doc --color

Math::CountSum
#sum
single digit number
when 5, should return 15
double digit number
when 12, should return 51
arbitrary number
when 1000000 should return 27000001

Finished in 5.34 seconds
3 examples, 0 failures


C# (80)

Its my another attempt.

double c(int n){double s=0;while(n>0)foreach(var c in n--+"")s+=c-48;return s;}


Pretty

double c(int n)
{
double s = 0;
while (n > 0)
foreach(var c in n--+"")
s += c - 48;
return s;
}

• Is the whitespace between n-- and + needed? I don't think it is in other C-style languages. Jan 15 '14 at 18:54
• Does this work with the given range? The result for 2^64-1 doesn't fit in 64 bits. Jan 15 '14 at 19:38
• It is not a valid answer as it is function and char count is kind a big.
– ST3
Jan 15 '14 at 20:49
• @marinus Can you give us the result for 2^64-1 so that we can know what range we need to work with? I dare not test it in my language (PowerShell) since the processing time would be enormous.
– Iszi
Jan 17 '14 at 14:36
• @Iszi: I'm not going to actually run it, but you can do some math: 1) the average value of a digit is 4.5; 2) the average sum of 20 digits is 90 (2^64 has 20 digits); so the expected value will be around 90 * 2^64 ≈ 1.66*10^21. So you'd need at least 71 bits, at most 72. Jan 21 '14 at 1:07

# Ruby 69-50 = 19 (or -4)

This can definitely be golfed together but here is the first fifth try

p (1..eval(gets)).inject{|i,s|i+=s.to_s.chars.map(&:to_i).inject :+}


It also works for all numbers but is very slow for them as it runs slower than O(n), so I wouldn't add the -25. If slowness is fine, then it would be -4 though

# Ruby 133-50-25 = 58

This is the faster version, that runs in less-than O(n) time (and uses actual math!), so it can provide results for large integers fast, thereby I added the -25:

n=eval(gets);p (d=->n,l{k=10**l;c,r=n.to_s[0].to_i,n%k;n<10?n*(n+1)/2:c*45*l*k/10+k*(c*(c-1)/2)+(r+1)*c+d[r,l-1]})[n,n.to_s.length-1]

• We write exactly the same code (you golfed a little more)! Jan 15 '14 at 22:03
• @Beterraba yup, and almost the same time, but you were a bit faster, so I have to figure out something different :) Jan 15 '14 at 22:04