I have a string consisting only of digits 0-9. The string can be between 1 and 1,000,000 characters in length. I need to find the smallest number that isn't present in the string, in linear time. Here are some examples:

```
1023456789 //Smallest number not in string is 11
1023479 //Smallest number not in string is 5
112131405678910 //Smallest number not in string is 15
```

With size of 1,000,000, I figured that the smallest number not present in the string has to be at most 6 digits.

My approach was to generate all numbers 0 through 999,999 and insert them all in a vector (in order). Then make a map that marks what strings have already been seen. Then I iterate through the string, and for each position I get all substring starting from it, size 1 to 6, and I mark all those substrings as true in the map. At the end, I just check all keys one by one, and when I find the first one that has a false value in the map, I print it.

Here are some code snippets:

```
string tmp="0";
string numbers[999999];
void increase(int pos)
{
if(pos==-1)tmp.insert(0,"1");
else if(tmp.at(pos)!='9')tmp.at(pos)++;
else
{
tmp.at(pos)='0';
increase(pos-1);
}
}
//And later inside main
for(int j=0;j<999999;j++)
{
numbers[j]=tmp;
increase(tmp.size()-1);
}
```

```
for(int j=0;j<input.size();j++)
{
for(int k=0;k<6;k++)
{
string temp="";
if(j+k<input.size())
{
temp+=input.at(j+k);
appeared[temp]=true;
}
}
}
```

```
int counter=0;
while(appeared[numbers[counter]])counter++;
cout<<numbers[counter]<<endl;
```

A note about the first part of the algorithm. I generate the vector once, then I use it for 100 strings. I need to parse all 100 strings in less than 4 seconds.

This algorithm is too slow for me as it is currently. Could I optimize some of the code, or should I consider a different approach?

`"123456123"`

contains four 6-digit numbers in just nine digits. It's probably possible to come up with an arrangement that comes very close to that compression ratio. I suspect your maximum is closer to 500,000. – Jim Mischel Jul 2 at 20:56