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The performance of Boost.Convert depends entirely on the performance of the converter deployed. A few converters have been tested for string conversions to basic types and to a user-defined type.
In turn, the performance of every particular converter depends on the platform,
the compiler used and the particular implementation of the underlying conversion
component (std::stream
, printf
,
Boost.Spirit, etc.). Consequently, the results below
are only an approximate indication of relative performance
of the mentioned converters on the tested platforms.
When compiled with gcc-5.4.0 on 64-bit Ubuntu 16.04, tests produced the following results:
str-to-int: spirit/strtol/lcast/scanf/stream= 0.27/ 0.35/ 0.92/ 2.11/ 2.09 seconds. str-to-lng: spirit/strtol/lcast/scanf/stream= 0.69/ 0.31/ 1.28/ 2.07/ 2.50 seconds. str-to-dbl: spirit/strtol/lcast/scanf/stream= 0.73/ 1.06/ 7.95/ 2.87/ 5.10 seconds. int-to-str: spirit/strtol/lcast/prntf/stream= 1.96/ 1.39/ 2.52/ 3.49/ 2.58 seconds. lng-to-str: spirit/strtol/lcast/prntf/stream= 2.45/ 1.51/ 2.32/ 3.30/ 2.63 seconds. dbl-to-str: spirit/strtol/lcast/prntf/stream= 6.62/ 4.46/ 28.69/ 20.60/ 14.16 seconds.
Based on the results, all things considered, I tend to conclude that there is no clear winner:
int
, double
) conversions. So, it might be a
good candidate for the tasks predominantly doing that kind of conversions
(with Spirit.Qi conversion-related limitations in
mind); Spirit.Karma's to-string
performance did not seem as impressive;
std::iostream
-based converter was comparatively
slow. Still, given its maturity, availability and formatting support,
it might be an option to consider if conversion performance is not your
primary concern;
strtol
-inspired converter
was reasonably fast and with formatting support might be an attractive
all-rounder. It should be noted that it is nowhere as mature as boost::cnv::lexical_cast
or boost::cnv::stream
.
So, bugs are to be expected.
For user-defined types cnv::lexical_cast
,
cnv::cstream
and cnv::strtol
were tested with the following results:
str-to-user-type: lcast/stream/strtol=0.36/0.18/0.07 seconds. user-type-to-str: lcast/stream/strtol=0.58/0.09/0.06 seconds.
To provide string-to-user-type and user-type-to-string
conversions the first two deploy the same standard std::iostream
library. However, boost::cnv::cstream
considerably outperforms boost::lexical_cast
in these tests. The results reflect different underlying designs. Namely,
the standard Boost.Convert deployment pattern is to
create a converter or converters once and then re-use them. boost::lexical_cast
, on the other hand, creates
and then destroys a std::stream
instance every time the function
is called and the boost::lexical_cast
performance table
indicates that the "std::stringstream with construction"
operation is considerably more expensive compared to "std::stringstream
without construction".
boost::cnv::strtol
support for user types has been implemented similarly but without the std::stream
-related
overhead. That resulted in the best out-of-three performance results.
Based on the performance data, I tend to conclude that, given type-safety and benefits provided by the Boost.Convert framework, it (with appropriate converters) should probably be the first choice for conversion-related tasks.