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Currently, my code is simply this:

void ReadFile(double Cst[][1000], char* FileName, int height)

FILE* ifp;
double value;
int nRead = 0;
int mRead = 0;

//open the file, check if successful
ifp = fopen( FileName, "r" );
if (ifp==NULL){

for (nRead = 0; nRead < height; nRead++){
    for (mRead = 0; mRead < 1000; mRead++){
        fscanf(ifp, "%le",&value);


What can I change to make it the fastest possible?

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Why label the code C++ if there is no C++ in it. It is plain C. Do you want C or C++ solution? And why are you so concerned about parsing performance when reading from file is bottleneck here? – Serge Dundich Apr 15 '11 at 16:31
Not a duplicate but worth a read:… – user180326 Apr 15 '11 at 17:23
Disk speed is irrelevant not only because there are data sources besides the disk, and fast RAIDs and solid-state drives, but also because disk caching tends often works magic. – Potatoswatter Apr 15 '11 at 20:27
@Andre: True, this question doesn't have a compilable benchmark. But when you find out stringstream is a factor of 50 slower than a custom int->string conversion, and a profiler shows most of the time is spent on thread synchronization (for a stream that isn't shared between threads), it's safe to apply that lesson to other operations based on the same stringstream, and conclude it's going to be slower at parsing as well. It doesn't matter how fast the rest of stringstream is, the buffer lock is too slow to keep pace with a disk. – Ben Voigt Apr 15 '11 at 23:25
@Ben Voigt: I get a factor of about 10 difference between operator>> and scanf(" %ld"). But that does not mean it is significant. If I read one number I don't feel any difference. If I read a million; (2.5sec Vs 22 sec) now I begin to worry depending on how long the rest of the code runs. If the reset of the code takes 22 minutes I am not going to care; if the rest of the code takes 22 seconds I would care. – Loki Astari Apr 16 '11 at 6:10

8 Answers 8

up vote 4 down vote accepted

atof is probably much faster, it doesn't have to process the format string.

If you don't need to support all 1001 recognized input formats (with and without exponents, etc) then a custom function may be faster yet. If atof is still too slow for you, say so and I can clean up the code I use (it's not really suitable for public posting at the moment).

I just remembered the problem with atof -- it doesn't tell you where the number ended, so reading several numbers in sequence is difficult. strtod is better in that regard.

share|improve this answer
So i would do char c[255]; char * pEnd at the beginning and: fscanf(ifp,"%s",&c); value = strtod(c,&pEnd); in the loop instead of fscanf(ifp,"%le",value)? – Simon Apr 15 '11 at 16:13
@Simon: No, you'd use fread (or memory mapped files) to grab a whole bunch of numbers into memory as text, and then strtod until you converted the whole buffer, then fread again. – Ben Voigt Apr 15 '11 at 19:06

Boost.Spirit.QI comes with a benchmark that compares the performance of std::atof, std::strtod, and boost::spirit::qi::double_. Here are the results on my system, using VC++ 2010 SP1 x64 and Boost 1.46.1:

atof_test: 4.1579 seconds
strtod_test: 4.2339 seconds
spirit_qi_double_test: 1.2822 seconds

This puts Spirit.QI at 230% faster than the next fastest verifiable* option and 224% faster than the next fastest unverifiable option – pretty fast, I'd say!

* Unlike std::atof, Boost.Spirit will let you know whether the input was valid or not.

Update: I've rerun the benchmark, additionally using Boost.Spirit.X3's boost::spirit::x3::double_; here are the results on my present system, using VC++ 2015 RTM x64 and Boost 1.59.0:

atof_test: 2.2145 seconds
strtod_test: 2.2195 seconds
spirit_qi_double_test: 0.5359 seconds
spirit_x3_double_test: 0.4362 seconds

This puts Spirit.QI at 314% faster than the next fastest verifiable* option and 313% faster than the next fastest unverifiable option, and Spirit.X3 at 409% faster than the next fastest verifiable* option and 408% faster than the next fastest unverifiable option – things have improved significantly for Spirit, and on top of that, the X3-based code compiles in about ⅕ of the time as the QI-based code, so wins all around on that front as well!

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Of course, like all boost spirit, the benchmark does not take into account the compile time :) My advice is to store this in a specific source file, to limit the times it's recompiled :) – Matthieu M. Apr 15 '11 at 17:24
Boost spirit's double_ parser crashes from array out of bounds for any large values like "1e400" etc :\ – Inverse Nov 26 '13 at 0:48

For an example, here is a very fast number parser from one of my projects. It only handles a very small subset of the actual features of the Standard Library numeric parsing.

uint64_t mystrtol( char *&pen, uint64_t val = 0 ) {
    for ( char c; ( c = *pen ^ '0' ) <= 9; ++ pen ) val = val * 10 + c;
    return val;

value_t mystrtof( char *&pen ) {
    static value_t const exp_table[]
     = { 1e5, 1e4, 1e3, 1e2, 10, 1, 0.1, 1e-2, 1e-3, 1e-4, 1e-5, 1e-6, 1e-7, 1e-8, 1e-9, 1e-10, 1e-11, 1e-12, 1e-13, 1e-14, 1e-15, 1e-16, 1e-17 },
     * exp_lookup = & exp_table[ 5 ];

    while ( iswspace( * ++ pen ) ) ;
    //if ( *pen == '-' ) ++ pen; // don't think we ever care about negative numbers
    uint64_t val = mystrtol( pen );
    int neg_exp = 0;
    if ( *pen == '.' ) { // mainly happens when val = 0
        char const *fracs = ++ pen;
        val = mystrtol( pen, val );
        neg_exp = pen - fracs;
    if ( ( *pen | ('E'^'e') ) == 'e' ) {
        neg_exp += *++pen == '-'? mystrtol( ++ pen ) : - mystrtol( ++ pen );
    return val * exp_lookup[ neg_exp ];
share|improve this answer
Nice, thanks for sharing – sehe Apr 29 '11 at 12:19

C/C++ parsing numbers from text is very slow. Streams are horribly slow but even C number parsing is slow because it's quite difficult to get it correct down to the last precision bit.

In a production application where reading speed was important and where data was known to have at most three decimal digits and no scientific notation I got a vast improvement by hand-coding a floating parsing function handling only sign, integer part and any number of decimals (by "vast" I mean 10x faster compared to strtod).

If you don't need exponent and the precision of this function is enough this is the code of a parser similar to the one I wrote back then. On my PC it's now 6.8 times faster than strtod and 22.6 times faster than sstream.

double parseFloat(const std::string& input)
    const char *p = input.c_str();
    if (!*p || *p == '?')
        return NAN_D;
    int s = 1;
    while (*p == ' ') p++;

    if (*p == '-') {
        s = -1; p++;

    double acc = 0;
    while (*p >= '0' && *p <= '9')
        acc = acc * 10 + *p++ - '0';

    if (*p == '.') {
        double k = 0.1;
        while (*p >= '0' && *p <= '9') {
            acc += (*p++ - '0') * k;
            k *= 0.1;
    if (*p) die("Invalid numeric format");
    return s * acc;
share|improve this answer

For C++, working with streams is both much easier and nearly always much slower than using the C interfaces. However, I suspect that the speed of various C interfaces will depend on their implementation. atof may be faster than strtod on one platform, and slower on another.

Personally, I would look at fast ways to read the file, not necessarily fast ways to parse the doubles. And your fastest ways to read files are almost always platform specific APIs (memory mapped files, scatter/gather I/O, etc.). So it's very hard to give you an answer that will be the fastest way possible, because that's very platform specific and will change in the future.

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"much slower" might even be an understatement. When I parse bulk numeric data from text files, it's memory mapped I/O and custom text->double conversion, but strtod would only be a minor hit. – Ben Voigt Apr 15 '11 at 19:09

It seems to me you've written a lot of brittle code in the hope that it'll be super efficient. Before attempting all this code, have you even attempted the simple C++ idiomatic solution and determined that it's not fast enough?

std::ifstream input("/path/to/file");
if ( !input.is_open() ) {
    // handle error.
std::vector<double> numbers;
    std::istream_iterator(), std::back_inserter(numbers));

// Access item at position (i,j).
double x = numbers[1000*j+i];

Keep in mind that the developers behind your standard library vendor's implementation give their best at making this simple code as fast as possible. It's very likely you'll be able to reach your performance requirements with this trivial piece of code.

On top of that, you get a bunch of freebies:

  1. cleans up automatically (manages memory and file handle);
  2. automatically resizes for larger inputs;
  3. checks for errors when parsing.
share|improve this answer
That's nowhere near as fast you'd think. istringstream is miserably slow. – Ben Voigt Apr 15 '11 at 19:07
There's a price to pay for safety and correctness. There's no point in making the code "as fast as possible" if it doesn't work properly. Start with a correct solution, then make it fast. – André Caron Apr 15 '11 at 20:20
It's not the strong typing that is slowing it down, it's extra code for handling all kinds of different formats, locales, etc. – Ben Voigt Apr 15 '11 at 20:24
A lot of people need optimization. Just because you don't, doesn't mean istringstream is the answer. – Cookie Jul 7 '11 at 8:18

A fast way is to allocate a text buffer or string, read as much as you can into the string, then parse the string.

Your first bottleneck is file I/O. Second (in order) is converting text into numbers. You should profile your program as to whether sscanf or std::istringstream is faster. Modifications to the I/O portion will yield the biggest performance changes.

To make the process even faster, using multiple threads and double buffering. One thread reads data into one or more buffers, while another thread parses data out of those buffers.

Additional improvements can be made by changing the data to fixed size fields and records.

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stringstream is slow. I don't know of anything else as ridiculously inefficient. – Ben Voigt Apr 15 '11 at 19:10

My version that handles exponents too:

template<class It>
double mystrtod(It &s, It const end)
    static double const pow10[] = { 1E-323, 1E-322, 1E-321, 1E-320, 1E-319, 1E-318, 1E-317, 1E-316, 1E-315, 1E-314, 1E-313, 1E-312, 1E-311, 1E-310, 1E-309, 1E-308, 1E-307, 1E-306, 1E-305, 1E-304, 1E-303, 1E-302, 1E-301, 1E-300, 1E-299, 1E-298, 1E-297, 1E-296, 1E-295, 1E-294, 1E-293, 1E-292, 1E-291, 1E-290, 1E-289, 1E-288, 1E-287, 1E-286, 1E-285, 1E-284, 1E-283, 1E-282, 1E-281, 1E-280, 1E-279, 1E-278, 1E-277, 1E-276, 1E-275, 1E-274, 1E-273, 1E-272, 1E-271, 1E-270, 1E-269, 1E-268, 1E-267, 1E-266, 1E-265, 1E-264, 1E-263, 1E-262, 1E-261, 1E-260, 1E-259, 1E-258, 1E-257, 1E-256, 1E-255, 1E-254, 1E-253, 1E-252, 1E-251, 1E-250, 1E-249, 1E-248, 1E-247, 1E-246, 1E-245, 1E-244, 1E-243, 1E-242, 1E-241, 1E-240, 1E-239, 1E-238, 1E-237, 1E-236, 1E-235, 1E-234, 1E-233, 1E-232, 1E-231, 1E-230, 1E-229, 1E-228, 1E-227, 1E-226, 1E-225, 1E-224, 1E-223, 1E-222, 1E-221, 1E-220, 1E-219, 1E-218, 1E-217, 1E-216, 1E-215, 1E-214, 1E-213, 1E-212, 1E-211, 1E-210, 1E-209, 1E-208, 1E-207, 1E-206, 1E-205, 1E-204, 1E-203, 1E-202, 1E-201, 1E-200, 1E-199, 1E-198, 1E-197, 1E-196, 1E-195, 1E-194, 1E-193, 1E-192, 1E-191, 1E-190, 1E-189, 1E-188, 1E-187, 1E-186, 1E-185, 1E-184, 1E-183, 1E-182, 1E-181, 1E-180, 1E-179, 1E-178, 1E-177, 1E-176, 1E-175, 1E-174, 1E-173, 1E-172, 1E-171, 1E-170, 1E-169, 1E-168, 1E-167, 1E-166, 1E-165, 1E-164, 1E-163, 1E-162, 1E-161, 1E-160, 1E-159, 1E-158, 1E-157, 1E-156, 1E-155, 1E-154, 1E-153, 1E-152, 1E-151, 1E-150, 1E-149, 1E-148, 1E-147, 1E-146, 1E-145, 1E-144, 1E-143, 1E-142, 1E-141, 1E-140, 1E-139, 1E-138, 1E-137, 1E-136, 1E-135, 1E-134, 1E-133, 1E-132, 1E-131, 1E-130, 1E-129, 1E-128, 1E-127, 1E-126, 1E-125, 1E-124, 1E-123, 1E-122, 1E-121, 1E-120, 1E-119, 1E-118, 1E-117, 1E-116, 1E-115, 1E-114, 1E-113, 1E-112, 1E-111, 1E-110, 1E-109, 1E-108, 1E-107, 1E-106, 1E-105, 1E-104, 1E-103, 1E-102, 1E-101, 1E-100, 1E-099, 1E-098, 1E-097, 1E-096, 1E-095, 1E-094, 1E-093, 1E-092, 1E-091, 1E-090, 1E-089, 1E-088, 1E-087, 1E-086, 1E-085, 1E-084, 1E-083, 1E-082, 1E-081, 1E-080, 1E-079, 1E-078, 1E-077, 1E-076, 1E-075, 1E-074, 1E-073, 1E-072, 1E-071, 1E-070, 1E-069, 1E-068, 1E-067, 1E-066, 1E-065, 1E-064, 1E-063, 1E-062, 1E-061, 1E-060, 1E-059, 1E-058, 1E-057, 1E-056, 1E-055, 1E-054, 1E-053, 1E-052, 1E-051, 1E-050, 1E-049, 1E-048, 1E-047, 1E-046, 1E-045, 1E-044, 1E-043, 1E-042, 1E-041, 1E-040, 1E-039, 1E-038, 1E-037, 1E-036, 1E-035, 1E-034, 1E-033, 1E-032, 1E-031, 1E-030, 1E-029, 1E-028, 1E-027, 1E-026, 1E-025, 1E-024, 1E-023, 1E-022, 1E-021, 1E-020, 1E-019, 1E-018, 1E-017, 1E-016, 1E-015, 1E-014, 1E-013, 1E-012, 1E-011, 1E-010, 1E-009, 1E-008, 1E-007, 1E-006, 1E-005, 1E-004, 1E-003, 1E-002, 1E-001, 1E+000, 1E+001, 1E+002, 1E+003, 1E+004, 1E+005, 1E+006, 1E+007, 1E+008, 1E+009, 1E+010, 1E+011, 1E+012, 1E+013, 1E+014, 1E+015, 1E+016, 1E+017, 1E+018, 1E+019, 1E+020, 1E+021, 1E+022, 1E+023, 1E+024, 1E+025, 1E+026, 1E+027, 1E+028, 1E+029, 1E+030, 1E+031, 1E+032, 1E+033, 1E+034, 1E+035, 1E+036, 1E+037, 1E+038, 1E+039, 1E+040, 1E+041, 1E+042, 1E+043, 1E+044, 1E+045, 1E+046, 1E+047, 1E+048, 1E+049, 1E+050, 1E+051, 1E+052, 1E+053, 1E+054, 1E+055, 1E+056, 1E+057, 1E+058, 1E+059, 1E+060, 1E+061, 1E+062, 1E+063, 1E+064, 1E+065, 1E+066, 1E+067, 1E+068, 1E+069, 1E+070, 1E+071, 1E+072, 1E+073, 1E+074, 1E+075, 1E+076, 1E+077, 1E+078, 1E+079, 1E+080, 1E+081, 1E+082, 1E+083, 1E+084, 1E+085, 1E+086, 1E+087, 1E+088, 1E+089, 1E+090, 1E+091, 1E+092, 1E+093, 1E+094, 1E+095, 1E+096, 1E+097, 1E+098, 1E+099, 1E+100, 1E+101, 1E+102, 1E+103, 1E+104, 1E+105, 1E+106, 1E+107, 1E+108, 1E+109, 1E+110, 1E+111, 1E+112, 1E+113, 1E+114, 1E+115, 1E+116, 1E+117, 1E+118, 1E+119, 1E+120, 1E+121, 1E+122, 1E+123, 1E+124, 1E+125, 1E+126, 1E+127, 1E+128, 1E+129, 1E+130, 1E+131, 1E+132, 1E+133, 1E+134, 1E+135, 1E+136, 1E+137, 1E+138, 1E+139, 1E+140, 1E+141, 1E+142, 1E+143, 1E+144, 1E+145, 1E+146, 1E+147, 1E+148, 1E+149, 1E+150, 1E+151, 1E+152, 1E+153, 1E+154, 1E+155, 1E+156, 1E+157, 1E+158, 1E+159, 1E+160, 1E+161, 1E+162, 1E+163, 1E+164, 1E+165, 1E+166, 1E+167, 1E+168, 1E+169, 1E+170, 1E+171, 1E+172, 1E+173, 1E+174, 1E+175, 1E+176, 1E+177, 1E+178, 1E+179, 1E+180, 1E+181, 1E+182, 1E+183, 1E+184, 1E+185, 1E+186, 1E+187, 1E+188, 1E+189, 1E+190, 1E+191, 1E+192, 1E+193, 1E+194, 1E+195, 1E+196, 1E+197, 1E+198, 1E+199, 1E+200, 1E+201, 1E+202, 1E+203, 1E+204, 1E+205, 1E+206, 1E+207, 1E+208, 1E+209, 1E+210, 1E+211, 1E+212, 1E+213, 1E+214, 1E+215, 1E+216, 1E+217, 1E+218, 1E+219, 1E+220, 1E+221, 1E+222, 1E+223, 1E+224, 1E+225, 1E+226, 1E+227, 1E+228, 1E+229, 1E+230, 1E+231, 1E+232, 1E+233, 1E+234, 1E+235, 1E+236, 1E+237, 1E+238, 1E+239, 1E+240, 1E+241, 1E+242, 1E+243, 1E+244, 1E+245, 1E+246, 1E+247, 1E+248, 1E+249, 1E+250, 1E+251, 1E+252, 1E+253, 1E+254, 1E+255, 1E+256, 1E+257, 1E+258, 1E+259, 1E+260, 1E+261, 1E+262, 1E+263, 1E+264, 1E+265, 1E+266, 1E+267, 1E+268, 1E+269, 1E+270, 1E+271, 1E+272, 1E+273, 1E+274, 1E+275, 1E+276, 1E+277, 1E+278, 1E+279, 1E+280, 1E+281, 1E+282, 1E+283, 1E+284, 1E+285, 1E+286, 1E+287, 1E+288, 1E+289, 1E+290, 1E+291, 1E+292, 1E+293, 1E+294, 1E+295, 1E+296, 1E+297, 1E+298, 1E+299, 1E+300, 1E+301, 1E+302, 1E+303, 1E+304, 1E+305, 1E+306, 1E+307, 1E+308 };
    long long b = 0, e1 = 0, e2 = 0;
    bool is_exp = false;
        bool negate = s != end && *s == '-';
        if (s != end && (*s == '-' || *s == '+')) { ++s; }
        bool decimal = false;
        long long &r = is_exp ? e2 : b;
        while (s != end && (*s == '.' || '0' <= *s && *s <= '9'))
            if (*s != '.')
                e1 -= decimal;
                char const digit = *s - '0';
                if (static_cast<unsigned long long>(r) < static_cast<unsigned long long>(r) * 10 + static_cast<unsigned char>(digit))
                    r *= 10;
                    r += digit;
            else { decimal = true; }
        r = negate ? -r : +r;
    } while ((is_exp = !is_exp, is_exp) && s != end && ((*s | ('e' ^ 'E')) == 'e') && (++s, is_exp));
    double const result = b * pow10[323 + (e1 + e2)];
    return result;
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