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// speed_test.cpp --------------------------------------------------------------------//
// Copyright Beman Dawes 2013
// Distributed under the Boost Software License, Version 1.0.
// http://www.boost.org/LICENSE_1_0.txt
//--------------------------------------------------------------------------------------//
//#define BOOST_ENDIAN_NO_INTRINSICS
#include <boost/endian/detail/disable_warnings.hpp>
#include "speed_test_functions.hpp"
#include <boost/endian/conversion.hpp>
#include <boost/endian/arithmetic.hpp>
#include <boost/cstdint.hpp>
#include <boost/timer/timer.hpp>
#include <iostream>
#include <cstdlib>
#include <boost/detail/lightweight_main.hpp>
using namespace boost;
using namespace boost::endian;
using std::cout;
using std::endl;
namespace
{
typedef boost::timer::nanosecond_type nanosecond_t;
std::string command_args;
uint64_t n; // number of test cases to run
int places = 2; // decimal places for times
bool verbose (false);
void process_command_line(int argc, char * argv[])
{
for (int a = 0; a < argc; ++a)
{
command_args += argv[a];
if (a != argc-1)
command_args += ' ';
}
// cout << command_args << '\n';;
if (argc >=2)
#ifndef _MSC_VER
n = atoll(argv[1]);
#else
n = _atoi64(argv[1]);
#endif
for (; argc > 2; ++argv, --argc)
{
if ( *(argv[2]+1) == 'p' )
places = atoi( argv[2]+2 );
else if ( *(argv[2]+1) == 'v' )
verbose = true;
else
{
cout << "Error - unknown option: " << argv[2] << "\n\n";
argc = -1;
break;
}
}
if (argc < 2)
{
cout << "Usage: speed_test n [Options]\n"
" The argument n specifies the number of test cases to run\n"
" Options:\n"
" -v Verbose messages\n"
" -p# Decimal places for times; default -p" << places << "\n";
return std::exit(1);
}
}
//--------------------------------------------------------------------------------------//
template <class T, class EndianT, class Function>
void time(Function f)
{
T x(0);
EndianT y(0);
boost::timer::cpu_timer t;
for (uint64_t i = 0; i < n; ++i)
{
f(x, y);
}
t.stop();
cout << "<td align=\"right\">" << t.format(places, "%t") << " s</td>";
}
void test_big_int16()
{
cout << "<tr><td>16-bit aligned big endian</td>";
time<int16_t, big_int16_t>(user::return_x_big_int16);
time<int16_t, big_int16_t>(user::return_x_value_big_int16);
time<int16_t, big_int16_t>(user::return_x_inplace_big_int16);
time<int16_t, big_int16_t>(user::return_y_big_int16);
cout << "</tr>\n";
}
void test_little_int16()
{
cout << "<tr><td>16-bit aligned little endian</td>";
time<int16_t, little_int16_t>(user::return_x_little_int16);
time<int16_t, little_int16_t>(user::return_x_value_little_int16);
time<int16_t, little_int16_t>(user::return_x_inplace_little_int16);
time<int16_t, little_int16_t>(user::return_y_little_int16);
cout << "</tr>\n";
}
void test_big_int32()
{
cout << "<tr><td>32-bit aligned big endian</td>";
time<int32_t, big_int32_t>(user::return_x_big_int32);
time<int32_t, big_int32_t>(user::return_x_value_big_int32);
time<int32_t, big_int32_t>(user::return_x_inplace_big_int32);
time<int32_t, big_int32_t>(user::return_y_big_int32);
cout << "</tr>\n";
}
void test_little_int32()
{
cout << "<tr><td>32-bit aligned little endian</td>";
time<int32_t, little_int32_t>(user::return_x_little_int32);
time<int32_t, little_int32_t>(user::return_x_value_little_int32);
time<int32_t, little_int32_t>(user::return_x_inplace_little_int32);
time<int32_t, little_int32_t>(user::return_y_little_int32);
cout << "</tr>\n";
}
void test_big_int64()
{
cout << "<tr><td>64-bit aligned big endian</td>";
time<int64_t, big_int64_t>(user::return_x_big_int64);
time<int64_t, big_int64_t>(user::return_x_value_big_int64);
time<int64_t, big_int64_t>(user::return_x_inplace_big_int64);
time<int64_t, big_int64_t>(user::return_y_big_int64);
cout << "</tr>\n";
}
void test_little_int64()
{
cout << "<tr><td>64-bit aligned little endian</td>";
time<int64_t, little_int64_t>(user::return_x_little_int64);
time<int64_t, little_int64_t>(user::return_x_value_little_int64);
time<int64_t, little_int64_t>(user::return_x_inplace_little_int64);
time<int64_t, little_int64_t>(user::return_y_little_int64);
cout << "</tr>\n";
}
} // unnamed namespace
//--------------------------------------------------------------------------------------//
int cpp_main(int argc, char* argv[])
{
process_command_line(argc, argv);
cout
<< "<html>\n<head>\n<title>Endian Speed Test</title>\n</head>\n<body>\n"
<< "<table border=\"1\" cellpadding=\"5\" cellspacing=\"0\""
<< "style=\"border-collapse: collapse\" bordercolor=\"#111111\">\n"
<< "<tr><td colspan=\"6\" align=\"center\"><b>"
<< BOOST_COMPILER << "</b></td></tr>\n"
<< "<tr><td colspan=\"6\" align=\"center\"><b>"
<< " Iterations: " << n
<< ", Intrinsics: " BOOST_ENDIAN_INTRINSIC_MSG
<< "</b></td></tr>\n"
<< "<tr><td><b>Test Case</b></td>\n"
"<td align=\"center\"><b>int<br>arg</b></td>\n"
"<td align=\"center\"><b>int<br>value(arg)</b></td>\n"
"<td align=\"center\"><b>int<br>in place(arg)</b></td>\n"
"<td align=\"center\"><b>Endian<br>arg</b></td>\n"
"</tr>\n"
;
test_big_int16();
test_little_int16();
test_big_int32();
test_little_int32();
test_big_int64();
test_little_int64();
cout << "\n</table>\n</body>\n</html>\n";
return 0;
}
#include <boost/endian/detail/disable_warnings_pop.hpp>
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