--edit -- Solved the question : a comment on the last sidenote would be helpfull. Also comments on phoenix::bind overload handling would be helpfull (in my answer).
I'm working on a system with strict typing requirements, I want to ensure that I am parsing integers that meet the constraints of int32_t and int64_t, I wan't the parsers to synthesise and constrain the parsed strings to the mentioned types.
How do I go about this ? The document mentions that
long_long is only available on platforms with 64-bit support, but I need to parse int64_t's on 32-bit platforms as well.
An excerpt from my parser is as follows:
... eps(_b == VALUE_INT4) >> qi::long_ [phoenix::bind(&AddEntry, _r1,_a, _1, _pass)] ) // | ( eps(_b == VALUE_INT8) >> qi::long_long) ...
AddEntry has a
int32_t overload and a
int64_t overload, is a phoenix::static_cast_ on
_1in order ? And if this is the case how do I parse 64-bit integers on a modern 32-bit platform ? I assume
BOOST_HAS_LONG_LONG is only not-defined on archaic hardware like the 8008 ;) .
I wish they had stuck with the standards set out in c99 and
<boost/cstdint.hpp>, most of us want to program against clean abstractions. There are probably good reasons for the numeric parsers being defined the way they are. however, grand-scheme use could be better defined in the documentation.
On a side note: Does the conditional epsilon style above rival a case statement in performance ?