cpu_times insert_time( boost::container::vector<typename C::value_type> &unique_range
, boost::container::vector<typename C::value_type> &range
, const char *RangeType)
{
cpu_timer ur_timer,r_timer;
ur_timer.stop();r_timer.stop();
cpu_timer total_time;
total_time.resume();
for(std::size_t i = 0; i != NIter; ++i){
{
total_time.resume();
ur_timer.resume();
C c;
c.insert(unique_range.begin(), unique_range.end());
ur_timer.stop();
total_time.stop();
}
{
total_time.resume();
r_timer.resume();
C c;
c.insert(range.begin(), range.end());
r_timer.stop();
total_time.stop();
}
}
std::cout << " Insert " << RangeType << " unique_range " << boost::timer::format(ur_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Insert " << RangeType << " range " << boost::timer::format(r_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Total time = " << boost::timer::format(total_time.elapsed(), boost::timer::default_places, "%ws\n") << std::endl;
return total_time.elapsed();
}
cpu_times copy_destroy_time(boost::container::vector<typename C::value_type> &unique_range)
{
cpu_timer copy_timer, assign_timer, destroy_timer;
cpu_timer total_time;
for(std::size_t i = 0; i != NIter; ++i){
{
C c(unique_range.begin(), unique_range.end());
total_time.resume();
copy_timer.resume();
C caux(c);
copy_timer.stop();
assign_timer.resume();
c = caux;
assign_timer.stop();
destroy_timer.resume();
}
destroy_timer.stop();
total_time.stop();
}
total_time.stop();
std::cout << " Copy sorted range " << boost::timer::format(copy_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Assign sorted range " << boost::timer::format(assign_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Destroy " << boost::timer::format(destroy_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Total time = " << boost::timer::format(total_time.elapsed(), boost::timer::default_places, "%ws\n") << std::endl;
return total_time.elapsed();
}
void
Pool::runAllActions(const boost::container::vector<Callback> &actions) {
boost::container::vector<Callback>::const_iterator it, end = actions.end();
for (it = actions.begin(); it != end; it++) {
(*it)();
}
}
void fill_range_strings()
{
boost::container::string model_s;
model_s.append(sizeof(boost::container::string), '*');
//sorted_unique_range_int
sorted_unique_range_string.resize(NElements);
std::stringstream sstr;
for(std::size_t i = 0, max = sorted_unique_range_string.size(); i != max; ++i){
sstr.str(std::string());
sstr << std::setfill('0') << std::setw(10) << i;
sorted_unique_range_string[i] = model_s;
const std::string &s = sstr.str();
sorted_unique_range_string[i].append(s.begin(), s.end());
}
//sorted_range_string
sorted_range_string = sorted_unique_range_string;
sorted_range_string.insert(sorted_range_string.end(), sorted_unique_range_string.begin(), sorted_unique_range_string.end());
std::sort(sorted_range_string.begin(), sorted_range_string.end());
//random_range_string
std::srand(0);
random_range_string.assign(sorted_range_string.begin(), sorted_range_string.end());
std::random_shuffle(random_range_string.begin(), random_range_string.end());
//random_unique_range_string
std::srand(0);
random_unique_range_string.assign(sorted_unique_range_string.begin(), sorted_unique_range_string.end());
std::random_shuffle(random_unique_range_string.begin(), random_unique_range_string.end());
}
void extensions_time(boost::container::vector<typename C::value_type> &sorted_unique_range)
{
cpu_timer sur_timer,sur_opt_timer;
sur_timer.stop();sur_opt_timer.stop();
for(std::size_t i = 0; i != NIter; ++i){
{
sur_timer.resume();
C c(sorted_unique_range.begin(), sorted_unique_range.end());
sur_timer.stop();
}
{
sur_opt_timer.resume();
C c(boost::container::ordered_unique_range, sorted_unique_range.begin(), sorted_unique_range.end());
sur_opt_timer.stop();
}
}
std::cout << " Construct sorted_unique_range " << boost::timer::format(sur_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Construct sorted_unique_range (extension) " << boost::timer::format(sur_opt_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << "Extension/Standard: ";
compare_times(sur_opt_timer.elapsed(), sur_timer.elapsed());
}
void fill_range_ints()
{
//sorted_unique_range_int
sorted_unique_range_int.resize(NElements);
for(std::size_t i = 0, max = sorted_unique_range_int.size(); i != max; ++i){
sorted_unique_range_int[i] = static_cast<int>(i);
}
//sorted_range_int
sorted_range_int = sorted_unique_range_int;
sorted_range_int.insert(sorted_range_int.end(), sorted_unique_range_int.begin(), sorted_unique_range_int.end());
std::sort(sorted_range_int.begin(), sorted_range_int.end());
//random_range_int
std::srand(0);
random_range_int.assign(sorted_range_int.begin(), sorted_range_int.end());
std::random_shuffle(random_range_int.begin(), random_range_int.end());
//random_unique_range_int
std::srand(0);
random_unique_range_int.assign(sorted_unique_range_int.begin(), sorted_unique_range_int.end());
std::random_shuffle(random_unique_range_int.begin(), random_unique_range_int.end());
}
cpu_times search_time(boost::container::vector<typename C::value_type> &unique_range, const char *RangeType)
{
cpu_timer find_timer, lower_timer, upper_timer, equal_range_timer, count_timer;
C c(unique_range.begin(), unique_range.end());
cpu_timer total_time;
total_time.resume();
boost::container::vector<typename C::iterator> v_it(NElements);
boost::container::vector< std::pair<typename C::iterator, typename C::iterator> > v_itp(NElements);
for(std::size_t i = 0; i != NIter; ++i){
//Find
{
find_timer.resume();
for(std::size_t rep = 0; rep != 2; ++rep)
for(std::size_t i = 0, max = unique_range.size(); i != max; ++i){
v_it[i] = c.find(unique_range[i]);
}
find_timer.stop();
if(!check_not_end(v_it, c.end())){
std::cout << "ERROR! find all elements not found" << std::endl;
}
}
//Lower
{
lower_timer.resume();
for(std::size_t rep = 0; rep != 2; ++rep)
for(std::size_t i = 0, max = unique_range.size(); i != max; ++i){
v_it[i] = c.lower_bound(unique_range[i]);
}
lower_timer.stop();
if(!check_not_end(v_it, c.end())){
std::cout << "ERROR! lower_bound all elements not found" << std::endl;
}
}
//Upper
{
upper_timer.resume();
for(std::size_t rep = 0; rep != 2; ++rep)
for(std::size_t i = 0, max = unique_range.size(); i != max; ++i){
v_it[i] = c.upper_bound(unique_range[i]);
}
upper_timer.stop();
if(!check_not_end(v_it, c.end(), 1u)){
std::cout << "ERROR! upper_bound all elements not found" << std::endl;
}
}
//Equal
{
equal_range_timer.resume();
for(std::size_t rep = 0; rep != 2; ++rep)
for(std::size_t i = 0, max = unique_range.size(); i != max; ++i){
v_itp[i] = c.equal_range(unique_range[i]);
}
equal_range_timer.stop();
if(!check_all_not_empty(v_itp)){
std::cout << "ERROR! equal_range all elements not found" << std::endl;
}
}
//Count
{
std::size_t count = 0;
count_timer.resume();
for(std::size_t rep = 0; rep != 2; ++rep)
for(std::size_t i = 0, max = unique_range.size(); i != max; ++i){
count += c.count(unique_range[i]);
}
count_timer.stop();
if(count/2 != c.size()){
std::cout << "ERROR! count all elements not found" << std::endl;
}
}
}
total_time.stop();
std::cout << " Find " << RangeType << " " << boost::timer::format(find_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Lower Bound " << RangeType << " " << boost::timer::format(lower_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Upper Bound " << RangeType << " " << boost::timer::format(upper_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Equal Range " << RangeType << " " << boost::timer::format(equal_range_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Count " << RangeType << " " << boost::timer::format(count_timer.elapsed(), boost::timer::default_places, "%ws\n");
std::cout << " Total time = " << boost::timer::format(total_time.elapsed(), boost::timer::default_places, "%ws\n") << std::endl;
return total_time.elapsed();
}
