创建 std::set 只复制一个元素,如何解决这个问题?
Creating std::set copies only one element, how to fix this?
v_map存储了正确数量的信息,但是当我尝试使用std::set时,它只复制了一个元素,我假设第一个。这是我第一次使用std::set,也许我在这里错过了一些东西......感谢您的帮助!
typedef std::map<std::string,std::pair<int,int>> points_map;
void list_average(points_map &v_map)
{
Comparator compFunctor = [](std::pair<std::string,std::pair<int,int>> elem1,std::pair<std::string,std::pair<int,int>> elem2)
{
std::pair<int,int> it = elem1.second;
std::pair<int,int> jt = elem2.second;
return it.first < jt.first;
};
std::set<std::pair<std::string,std::pair<int,int>>,Comparator> v_set(v_map.begin(),v_map.end(),compFunctor);
for (std::pair<std::string,std::pair<int,int>> it : v_set)
{
std::pair<int,int> jt = it.second;
std::cout << it.first << " " << (jt.second - jt.first) / jt.first<< std::endl;
}
}
注意以下是完整程序,对于代码的丑陋和代码长度,我提前道歉,我也重写了代码上部的名称,在完整代码中,这个特定的函数称为list_atlag
#include <iostream>
#include <string>
#include <map>
#include <set>
#include <vector>
#include <codecvt>
#include <iterator>
#include <numeric>
#include <functional>
#include <boost/filesystem.hpp>
#include <boost/foreach.hpp>
#include <boost/program_options.hpp>
#include <boost/tokenizer.hpp>
class Adatok
{
public:
Adatok(std::string name, std::string path, std::string date, int points) : _name(name), _path(path), _date(date), _points(points) {}
Adatok(const Adatok &other) = default;
Adatok &operator=(const Adatok &other) = default;
std::string get_name() { return _name; }
std::string get_path() { return _path; }
std::string get_date() { return _date; }
int get_points() { return _points; }
private:
std::string _name;
std::string _path;
std::string _date;
int _points;
};
class Ranglista
{
public:
Ranglista(std::string name, int points) : _name(name), _points(points) {}
Ranglista(const Ranglista &other) = default;
Ranglista &operator=(const Ranglista &other) = default;
std::string get_name() { return _name; }
int get_points() { return _points; }
bool operator<(const Ranglista &other)
{
return _points > other._points;
}
private:
std::string _name;
int _points;
};
class Vedes
{
public:
Vedes(std::string name, int point) : _name(name), _point(point) { _count++; }
Vedes(const Vedes &other) = default;
Vedes &operator=(const Vedes &other) = default;
std::string get_name() { return _name; }
int get_point() { return _point; }
int get_count() { return _count; }
void set_stuff(int &points)
{
_point += points;
_count++;
}
bool operator<(const Vedes &other)
{
return _count > other._count;
}
private:
std::string _name;
int _point;
int _count = 0;
};
typedef std::map<std::string, int> path_value; //minden path + az erteke
typedef std::vector<Adatok> name_path_date; //bejegyzesek
typedef std::vector<Ranglista> ranglista; //ranglista
typedef std::map<std::string,std::pair<int,int>> vedes_vec; //vedesek
typedef std::function<bool(std::pair<std::string,std::pair<int,int>>,std::pair<std::string,std::pair<int,int>>)> Comparator;
void create_pv(path_value &, boost::filesystem::path); //feltolti a path+ertek map-ot
void create_npd(name_path_date &, path_value &, std::string input); //feltolti a bejegyzesek vektorat + mindenki pontszama map
void create_np(name_path_date &, path_value &); // name + path map
void list_np(path_value &name_point); // nam + path kiiratas
void list_bejegyzesek(name_path_date &bejegyzesek); // bejegyzesek vektora kiiratas
bool check_bejegyzesek(name_path_date &bejegyzesek, std::string name, std::string path); //van-e mar ilyen bejegyzes
void create_rl(ranglista &rl_vec, path_value &name_point); //ranglista feltoltes
void list_rl(ranglista &rl_vec); //ranglista kiiratas
void vedes_atlag(name_path_date &bejegyzesek, vedes_vec &v_vec); //vedes atlag map
void list_atlag(vedes_vec &v_vec); //vedes atlag kiiratas
bool check_vedes(vedes_vec &v_vec, std::string name);
void vedes_elem(vedes_vec &v_vec, std::string name, int &&points); //
//void accumulate_pv(path_value&);
int main(int argc, char **argv)
{
std::vector<std::string> roots = {"City/Debrecen/Oktatás/Informatika/Programozás/DEIK/Prog1/", "City/Debrecen/Oktatás/Informatika/Programozás/DEIK/"};
std::string input_file_name = "db-2018-05-06.csv";
/* OPTIONS */
boost::program_options::options_description desc("ALLOWED OPTIONS");
desc.add_options()("help", "help msg")("root,r", boost::program_options::value<std::vector<std::string>>())("csv", boost::program_options::value<std::string>(), "comma separated values")("rank", "rang lista")("vedes", "labor vedesek");
boost::program_options::positional_options_description pdesc;
pdesc.add("root", -1);
boost::program_options::variables_map vm;
boost::program_options::store(boost::program_options::command_line_parser(argc, argv).options(desc).positional(pdesc).run(), vm);
boost::program_options::notify(vm);
int sum = 0;
path_value pv_map;
if (vm.count("help") || argc == 1)
{
std::cout << desc << std::endl;
return 1;
}
if (vm.count("root"))
{
roots = vm["root"].as<std::vector<std::string>>();
for (auto &i : roots)
{
boost::filesystem::path path(i);
create_pv(pv_map, path);
}
for (path_value::iterator it{pv_map.begin()}; it != pv_map.end(); it++)
sum += it->second;
//std::cout << sum << std::endl;create_npd
std::cout << std::accumulate(pv_map.begin(), pv_map.end(), 0, [](int value, const std::map<std::string, int>::value_type &p) { return value + p.second; });
std::cout << std::endl;
}
if (vm.count("csv"))
{
//input_file_name = vm["csv"].as<std::string>();
std::ifstream input_file{vm["csv"].as<std::string>()};
name_path_date bejegyzesek;
std::string temp;
path_value name_point;
while (getline(input_file, temp))
create_npd(bejegyzesek, pv_map, temp);
create_np(bejegyzesek, name_point);
//list_bejegyzesek(bejegyzesek);
//list_np(name_point);
if (vm.count("rank"))
{
ranglista rl_vec;
create_rl(rl_vec, name_point);
list_rl(rl_vec);
}
if (vm.count("vedes"))
{
vedes_vec v_vec;
vedes_atlag(bejegyzesek, v_vec);
list_atlag(v_vec);
}
return 0;
}
return 0;
}
void create_pv(path_value &pv_map, boost::filesystem::path path)
{
boost::filesystem::directory_iterator it{path}, eod;
BOOST_FOREACH (boost::filesystem::path const &p, std::make_pair(it, eod))
{
if (boost::filesystem::is_regular_file(p))
{
boost::filesystem::ifstream regular_file{p};
std::string temp;
int sum = 0; //aktualis .props erteke
while (getline(regular_file, temp))
{
temp.erase(0, temp.find_last_of('/'));
temp.erase(0, temp.find_first_of(' '));
sum += std::atoi((temp.substr(temp.find_first_of("0123456789"), temp.find_last_of("0123456789"))).c_str());
}
std::string result = p.string();
std::string result_path = result.substr(0, result.find_last_of('/'));
//std::cout << result_path << std::endl;
//pv_map.insert(std::make_pair(result, sum));
pv_map[result_path] = sum;
}
else
create_pv(pv_map, p);
}
}
//void accumulate_pv(path_value& pv_map)
//{
// std::cout<<std::accumulate(pv_map.begin(),pv_map.end(),0,[](int value,const path_value::int& p){return value+p.second;});
//}
void create_npd(name_path_date &bejegyzesek, path_value &pv_map, std::string input)
{
boost::tokenizer<boost::escaped_list_separator<char>> tokenizer{input};
boost::tokenizer<boost::escaped_list_separator<char>>::iterator it{tokenizer.begin()};
std::string name = *it;
std::string path = *(++it);
std::string date = *(++it);
path = path.substr(2);
if (!check_bejegyzesek(bejegyzesek, name, path))
bejegyzesek.push_back(Adatok(name, path, date, pv_map["/home/erik/Documents/Programs/"+path]));
}
bool check_bejegyzesek(name_path_date &bejegyzesek, std::string name, std::string path)
{
bool ok = false;
for (name_path_date::iterator it{bejegyzesek.begin()}; it != bejegyzesek.end(); it++)
{
if ((it->get_name() == name) && (it->get_path() == path))
ok = true;
}
return ok;
}
bool check_vedes(vedes_vec &v_vec, std::string name)
{
vedes_vec::iterator it = v_vec.find(name);
if (it != v_vec.end()) return true;
else return false;
}
void vedes_elem(vedes_vec &v_vec, std::string name, int &&points)
{
/*for (auto &it : v_vec)
if (it.get_name() == name)
it.set_stuff(points);
*/
vedes_vec::iterator i = v_vec.find(name);
std::pair<int,int> it = i->second;
//auto& jt = it->second;
it.first++;
it.second += points;
}
void create_np(name_path_date &bejegyzesek, path_value &name_point)
{
for (name_path_date::iterator it{bejegyzesek.begin()}; it != bejegyzesek.end(); it++)
if (name_point.count(it->get_name()) == 0)
name_point.insert(std::make_pair(it->get_name(), it->get_points()));
else
name_point[it->get_name()] += it->get_points();
}
void list_np(path_value &name_point)
{
for (path_value::iterator it{name_point.begin()}; it != name_point.end(); it++)
{
if (it->second)
std::cout << it->first << " " << it->second << std::endl;
}
}
void list_bejegyzesek(name_path_date &bejegyzesek)
{
for (name_path_date::iterator it{bejegyzesek.begin()}; it != bejegyzesek.end(); it++)
if (it->get_name() == "Varga Erik")
std::cout << it->get_name() << " " << it->get_path() << " " << it->get_points() << std::endl;
}
void create_rl(ranglista &rl_vec, path_value &name_point)
{
for (auto &it : name_point)
{
if (it.second > 0)
rl_vec.push_back(Ranglista(it.first, it.second));
}
std::sort(rl_vec.begin(), rl_vec.end());
}
void list_rl(ranglista &rl_vec)
{
for (auto &it : rl_vec)
std::cout << it.get_name() << " " << it.get_points() << std::endl;
}
void vedes_atlag(name_path_date &bejegyzesek, vedes_vec &v_vec)
{
std::string key = "City/Debrecen/Oktatás/Informatika/Programozás/DEIK/Prog1/Labor/Védés/";
for (auto &it : bejegyzesek)
{
if ((it.get_path().find("City/Debrecen/Oktatás/Informatika/Programozás/DEIK/Prog1/Labor/Védés/") != std::string::npos) && (it.get_points()) && (!check_vedes(v_vec, it.get_name())))
v_vec.insert(std::make_pair(it.get_name(),std::make_pair(1,it.get_points())));
else if ((check_vedes(v_vec, it.get_name())) && (it.get_path().find("City/Debrecen/Oktatás/Informatika/Programozás/DEIK/Prog1/Labor/Védés/") != std::string::npos) && (it.get_points()))
vedes_elem(v_vec, it.get_name(), it.get_points());
}
}
void list_atlag(vedes_vec &v_vec)
{
//std::sort(v_vec.begin(), v_vec.end());
Comparator compFunctor = [](std::pair<std::string,std::pair<int,int>> elem1,std::pair<std::string,std::pair<int,int>> elem2)
{
std::pair<int,int> it = elem1.second;
std::pair<int,int> jt = elem2.second;
return it.first < jt.first;
};
std::set<std::pair<std::string,std::pair<int,int>>,Comparator> v_set(v_vec.begin(),v_vec.end(),compFunctor);
//int sum = 0;
//int csum = 0;
for (std::pair<std::string,std::pair<int,int>> it : v_set)
{
std::pair<int,int> jt = it.second;
std::cout << it.first << " " << (jt.second - jt.first) / jt.first<< std::endl;
//sum += it.get_point();
//csum += it.get_count();
//sum = std::accumulate(v_vec.begin(), v_vec.end(), 0, [](int i, Vedes &o) { return i + o.get_point(); });
//csum = std::accumulate(v_vec.begin(), v_vec.end(), 0, [](int i, Vedes &o) { return i + o.get_count(); });
}
//std::cout << (sum - csum) / csum << std::endl;
}
如此,如此,如此处所述
template<
class Key,
class Compare = std::less<Key>,
class Allocator = std::allocator<Key>
> class set;
std::set 是一个关联容器,其中包含一组排序的 Key 类型的唯一对象。
我清理了您的代码,并制作了一个最小、完整且可验证的示例,
#include <iostream>
#include <map>
#include <set>
using point_pair = std::pair<int,int>;
using points_map = std::map<std::string, point_pair>;
using points_set_pair = std::pair<std::string, point_pair>;
auto compFunctor = [](const points_set_pair &elem1, const points_set_pair &elem2)
{
return elem1.second.first < elem2.second.first;
};
using points_set = std::set<points_set_pair, decltype(compFunctor)>;
void list_average(const points_map &v_map)
{
points_set v_set(v_map.begin(),v_map.end(),compFunctor);
for (auto &elem : v_set)
{
const point_pair &jt = elem.second;
std::cout << elem.first << " " << (jt.second - jt.first) / jt.first<< "n";
}
}
现在考虑第一个版本的主
int main()
{
points_map v_map = { {"foo", { 1, 2}}, {"bar", { 3, 4}}};
list_average(v_map);
}
输出:
foo 1
bar 0
现在考虑 main 的第二个版本:
int main()
{
points_map v_map = { {"foo", { 1, 2}}, {"bar", { 1, 4}}};
list_average(v_map);
}
输出:
bar 3
看到问题了吗?由于.second.first元素都是 1,因此后者替换了第一个元素。它不是唯一的。这就是std::set的缺点。
那么,然后呢?
不要使用std::set,而是使用std::vector和std::sort。例:
#include <iostream>
#include <map>
#include <vector>
#include <algorithm>
using point_pair = std::pair<int,int>;
using points_map = std::map<std::string, point_pair>;
using string_point_pair = std::pair<std::string, point_pair>;
auto compFunctor = [](string_point_pair const &elem1, string_point_pair const &elem2)
{
return
elem1.second.first != elem2.second.first?
elem1.second.first < elem2.second.first:
elem1.second.second < elem2.second.second;
};
void list_average(points_map const &v_map)
{
std::vector<string_point_pair> v_vec(v_map.begin(),v_map.end());
std::sort(v_vec.begin(), v_vec.end(), compFunctor);
for (auto &elem : v_vec)
{
const point_pair &jt = elem.second;
std::cout << elem.first << " " << (jt.second - jt.first) / jt.first<< "n";
}
}
int main()
{
points_map v_map = { {"foo", { 1, 2}}, {"bar", { 1, 4}}, {"baz", { 2, 4}}};
list_average(v_map);
}
输出:
foo 1
bar 3
baz 1
现场演示
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