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dtoa Benchmark

Copyright(c) 2014 Milo Yip (miloyip@gmail.com)

Introduction

This benchmark evaluates the performance of conversion from double precision IEEE-754 floating point (double) to ASCII string. The function prototype is:

void dtoa(double value, char* buffer);

The character string result must be convertible to the original value exactly via some correct implementation of strtod(), i.e. roundtrip convertible.

Note that dtoa() is not a standard function in C and C++.

Procedure

Firstly the program verifies the correctness of implementations.

Then, one case for benchmark is carried out:

  1. RandomDigit: Generates 1000 random double values, filtered out +/-inf and nan. Then convert them to limited precision (1 to 17 decimal digits in significand). Finally convert these numbers into ASCII.

Each digit group is run for 100 times. The minimum time duration is measured for 10 trials.

Build and Run

  1. Obtain premake4.
  2. Copy premake4 executable to dtoa-benchmark/build folder (or system path).
  3. Run premake.bat or premake.sh in dtoa-benchmark/build
  4. On Windows, build the solution at dtoa-benchmark/build/vs2008/ or /vs2010/.
  5. On other platforms, run GNU make config=release32 (or release64) at dtoa-benchmark/build/gmake/
  6. On success, run the dtoa executable is generated at dtoa-benchmark/
  7. The results in CSV format will be written to dtoa-benchmark/result.
  8. Run GNU make in dtoa-benchmark/result to generate results in HTML.

Results

The following are sequential results measured on a PC (Core i7 920 @2.67Ghz), where u32toa() is compiled by Visual C++ 2013 and run on Windows 64-bit. The speedup is based on sprintf().

Function  Time (ns)  Speedup 
ostringstream 2,778.748 0.45x
ostrstream 2,628.365 0.48x
gay 1,646.310 0.76x
sprintf 1,256.376 1.00x
fpconv 273.822 4.59x
grisu2 220.251 5.70x
doubleconv 201.645 6.23x
milo 138.021 9.10x
null 2.146 585.58x

corei7920@2.67_win64_vc2013_randomdigit_time

corei7920@2.67_win64_vc2013_randomdigit_timedigit

Note that the null implementation does nothing. It measures the overheads of looping and function call.

Some results of various configurations are located at dtoa-benchmark/result. They can be accessed online, with interactivity provided by Google Charts:

Implementations

Function  Description
ostringstream std::ostringstream in C++ standard library with setprecision(17).
ostrstream std::ostrstream in C++ standard library with setprecision(17).
sprintf sprintf() in C standard library with "%.17g" format.
stb_sprintf fast sprintf replacement with "%.17g" format.
gay David M. Gay's dtoa() C implementation.
grisu2 Florian Loitsch's Grisu2 C implementation [1].
doubleconv C++ implementation extracted from Google's V8 JavaScript Engine with EcmaScriptConverter().ToShortest() (based on Grisu3, fall back to slower bignum algorithm when Grisu3 failed to produce shortest implementation).
fpconv night-shift's Grisu2 C implementation.
milo miloyip's Grisu2 C++ header-only implementation.
null Do nothing.

Notes:

  1. tostring() is not tested as it does not fulfill the roundtrip requirement.

  2. Grisu2 is chosen because it can generate better human-readable number and >99.9% of results are in shortest. Grisu3 needs another dtoa() implementation for not meeting the shortest requirement.

FAQ

  1. How to add an implementation?

    You may clone an existing implementation file. And then modify it. Re-run premake to add it to project or makefile. Note that it will automatically register to the benchmark by macro REGISTER_TEST(name).

    Making pull request of new implementations is welcome.

  2. Why not converting double to std::string?

    It may introduce heap allocation, which is a big overhead. User can easily wrap these low-level functions to return std::string, if needed.

  3. Why fast dtoa() functions is needed?

    They are a very common operations in writing data in text format. The standard way of sprintf(), std::stringstream, often provides poor performance. The author of this benchmark would optimize the sprintf implementation in RapidJSON, thus he creates this project.

References

[1] Loitsch, Florian. "Printing floating-point numbers quickly and accurately with integers." ACM Sigplan Notices 45.6 (2010): 233-243.

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