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# Faster than scanf?

I was doing massive parsing of positive integers using `scanf("%d", &someint)`. As I wanted to see if scanf was a bottleneck, I implemented a naive integer parsing function using `fread`, just like:

``````int result;
char c;

while (fread(&c, sizeof c, 1, stdin), c == ' ' || c == '\n')
;

result = c - '0';
while (fread(&c, sizeof c, 1, stdin), c >= '0' || c <= '9') {
result *= 10;
result += c - '0';
}

return result;
``````

But to my astonishment, the performance of this function is (even with inlining) about 50% worse. Shouldn't there be a possibility to improve on scanf for specialized cases? Isn't `fread` supposed to be fast (additional hint: Integers are (edit: mostly) 1 or 2 digits)?

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Don't you mean `c >= '0' && c <= '9'` – Dan Dec 12 '11 at 23:48
`scanf`'s probably optimized by the compiler. `fread` is almost definitely not optimized to use STDIN as an input. – Ryan O'Hara Dec 12 '11 at 23:48
At least you should use `fgetc`... – kennytm Dec 12 '11 at 23:49
fread() is certainly not intended to read one character at a time. Presumably even fgetc() performs better. – wildplasser Dec 12 '11 at 23:51
On a nit-picking point of view, I suggest using `isdigit()` instead of `c>='0' && c<='9'`, since digits may not be contiguous in every character set, e.g. EBCDIC. – Philip Dec 13 '11 at 0:52

The overhead I was encountering was not the parsing itself but the many calls to `fread` (same with `fgetc`, and friends). For each call, the libc has to lock the input stream to make sure two threads aren't stepping on each other's feet. Locking is a very costly operation.

What we're looking for is a function that gives us buffered input (reimplementing buffering is just too much effort) but avoids the huge locking overhead of `fgetc`.

If we can guarantee that there is only a single thread using the input stream, we can use the functions from `unlocked_stdio(3)`, such as `getchar_unlocked(3)`. Here is an example:

``````static int parseint(void)
{
int c, n;

n = getchar_unlocked() - '0';
while (isdigit((c = getchar_unlocked())))
n = 10*n + c-'0';

return n;
}
``````

The above version doesn't check for errors. But it's guaranteed to terminate. If error handling is needed it might be enough to check `feof(stdin)` and `ferror(stdin)` at the end, or let the caller do it.

My original purpose was submitting solutions to programming problems at SPOJ, where the input is only whitespace and digits. So there is still room for improvement, namely the `isdigit` check.

``````static int parseint(void)
{
int c, n;

n = getchar_unlocked() - '0';
while ((c = getchar_unlocked()) >= '0')
n = 10*n + c-'0';

return n;
}
``````

It's very, very hard to beat this parsing routine, both performance-wise and in terms of convenience and maintainability.

-

You'll be able to improve significantly on your example by buffering - read a large number of characters into memory, and then parse them from the in-memory version.

If you're reading from disk you might get a performance increase by your buffer being a multiple of the block size.

Edit: You can let the kernel handle this for you by using mmap to map the file into memory.

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I'd like to doubt that. I'm pretty sure that libc does buffering itself. Unless you're using system calls (read(2)/write(2)), implementing your own buffer is likely to slow things down I think... – Jo So Dec 13 '11 at 0:10
Give it a try - happy to be wrong :) I remember manual buffering dramatically speeding up code that used to be a getc(), BUT that might have been stdin, which isn't block buffered. You could also try giving `setvbuf()` a bigger buffer. – Timothy Jones Dec 13 '11 at 0:15
@JoSo: Just for kicks, I read a 372MB file with calls to fread with 1 byte at a time and it took nearly 30 seconds. Reading 4K at a time took 1.3 seconds. Of course, you have already figured this out. Nonetheless, accepting this answer would probably be good. – Mark Wilkins Dec 13 '11 at 0:22
This wasn't exactly an answer to my question, which was on beating scanf on a more narrow field (`scanf(%d, ...)` is not supposed to do buffering, either!). Anyways accepted because no one else would want to write an answer ;-) – Jo So Dec 13 '11 at 0:28
@JoSo Yes, stdio will buffer, but it is more likely that the bottleneck is simply the 372 million calls to fgetc rather than any side-effects of double buffering. – jørgensen Dec 13 '11 at 2:04

Here's something I use.

`````` #define scan(x) do{while((x=getchar())<'0'); for(x-='0'; '0'<=(_=getchar()); x=(x<<3)+(x<<1)+_-'0');}while(0)
char _;
``````

However, this only works with Integers.

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This works great! Although, I suggest to use getcx() or getchar_unlocked() instead of getchar(). – diegocaro Dec 17 '15 at 14:42

From what you say, I derive the following facts:

• numbers are in the range of 0-99, which accounts for 10+100 different strings (including leading zeros)
• you trust that your input stream adheres to some sort of specification and won't contain any unexpected character sequences

In that case, I'd use a lookup table to convert strings to numbers. Given a string s[2], the index to your lookup table can be computed by `s[1]*10 + s[0]`, swapping the digits and making use of the fact that `'\0'` equals `0` in ASCII.

``````// given our lookup method, this table may need padding entries
int lookup_table[] = { /*...*/ };

// no need to call superfluous functions
#define str2int(x) (lookup_table[(x)[1]*10 + (x)[0]])

On today's machines, it will be hard to come up with a faster technique. My guess is that this method will likely run 2 to 10 times faster than any `scanf()`-based approach.
Sorry, I meant "most" of the numbers are 1 or 2 digits. Anyway, where's the point in using a lookup table? I can't see where you are saving cycles. (You are saving the `c - '0'` part from my solution, but on the other hand you have more redirection) – Jo So Dec 13 '11 at 0:43
Jo So: I'm also saving the `c >= '0' || c <= '9'` and `c == ' ' || c == '\n'` parts with at most three instructions each. But admittedly, a true subset of these operations is needed in what I abbreviated with `read_token_from_stream()`. – Philip Dec 13 '11 at 0:49