Hi John, I was almost done implementing benchmark with fixed_int and voronoi library when next problem appeared. Let's consider following code snippet: #include <iostream> #include "boost/multiprecision/fixed_int.hpp" using namespace boost::multiprecision; template <typename T> void foo(const T& that) { std::cout << "Using default foo." << std::endl; } template <> void foo<mp_int512_t>(const mp_int512_t& that) { std::cout << "Using fixed_int specialization." << std::endl; } int main() { mp_int512_t a = 1; mp_int512_t b = 2; foo(a); // outputs 'Using fixed_int specialization.' foo(a * b); // outputs 'Using default foo.' return 0; } I understand the reason of such behaviour (results of the expressions are stored as some intermediate objects), but in my implementation I need to specify template function specialization that converts fixed_int to double. Any suggestions on how to fix this? Regards, Andrii On Tue, Jan 24, 2012 at 10:31 PM, Christopher Kormanyos <e_float@yahoo.com>wrote:
... So I'd be really interested to put the type through it's paces with some real world code that really thrashes an extended precision integer type. Any suggestions? Anything in Boost?
Thanks in advance, John.
Ooooops. Disregard my last post. You want integer tests and I suggested a float.
Best regards, Chris.
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