我有以下几组文件:
每个文件的描述如下 type-ID-pageNumber-R.xml 即 jugement_017_3
第 1 组:
- Conclusions-009-1-R.xml
- Conclusions-010-1-R.xml
- Conclusions-011-1-R.xml
第 2 组:
- Assignation-043-1-R.xml
- Assignation-043-2-R.xml
- Assignation-045-1-R.xml
第 3 组:
- Jugement-017-1-R.xml
- Jugement-017-2-R.xml
- Jugement-017-3-R.xml
- Jugement-018-1-R.xml
- Jugement-018-2-R.xml
我想将 set 1、set 2 和 set 3 组合成 set 4,方法如下规则:
- 随机组合顺序(每次我们要组合文件时,set 4中的顺序都会改变)
- 相同类型的文件如果具有相同的ID 可以一个接一个地放置
第 4 组:
- Conclusions-009-1-R.xml
- Jugement-018-1-R.xml
- Jugement-018-2-R.xml
- Assignation-043-1-R.xml
- Assignation-043-2-R.xml
- Conclusions-010-1-R.xml
- Assignation-045-1-R.xml
- Conclusions-011-1-R.xml
- Jugement-017-1-R.xml
- Jugement-017-2-R.xml
- Jugement-017-3-R.xml
最佳答案
这是我的 0.05 美元实现,以详细说明我的评论:
将所有章节存储在一个集合中,以唯一(章节,章节编号)为键:
using Section = std::string; using Page = int; using Chapter = int; using Pages = icl::interval_set<Page>::type; struct Module { Section section; Chapter chapter; bool operator<(Module const& o) const; }; using Table = std::map<Module, Pages>;如您所见,我选择了一个间隔集来存储页面范围。这使得无论输入顺序如何都更容易进行合并。
那么让我们开始吧。我以“随机”顺序填写表格:
struct Fill { Section s; Chapter c; Page p; }; for (auto& fill : std::vector<Fill> { { "Jugement", 18 , 2 }, { "Conclusions", 11 , 1 }, { "Assignation", 43 , 1 }, { "Assignation", 43 , 2 }, { "Conclusions", 10 , 1 }, { "Jugement", 17 , 3 }, { "Assignation", 45 , 1 }, { "Jugement", 17 , 1 }, { "Conclusions", 9 , 1 }, { "Jugement", 17 , 2 }, { "Jugement", 18 , 1 }, }) { table[{fill.s, fill.c}] += fill.p; // add page to (existing) range }就是这样!
现在我们可以像这样简单地按节/章打印模块:
std::cout << "------------- table: \n"; for (auto& r:table) std::cout << r << "\n";打印:
------------- table: Assignation 43 {[1,2]} Assignation 45 {[1,1]} Conclusions 9 {[1,1]} Conclusions 10 {[1,1]} Conclusions 11 {[1,1]} Jugement 17 {[1,3]} Jugement 18 {[1,2]}现在我们已经创建了所需的顺序,让我们添加一些不可预测性(这与混沌有微妙的不同)。
using rv = rw<Table::value_type>; std::vector<rv> vw(begin(table), end(table)); // blind shuffle srand(time(0)); std::random_shuffle(vw.begin(), vw.end());砰。我们有一个对模块表条目的引用的混洗 View 。 但是!随机不是目标。
所以我们从匹配的部分中找到相邻的对,并尝试通过旋转它们来移除它们。当然,可能没有任何东西可以交换(来自另一个部分),在这种情况下,我们将重复项留在尾随位置:
// try to avoid subsequent modules from equal sections (dup) auto dup = [](rv a, rv b) { return a.get().first.section == b.get().first.section; }; auto it = vw.begin(); auto const e = vw.end(); while(it != e) { // bit redundant, could be while(true) it = std::adjacent_find(it, e, dup); if (it == e) break; auto m = std::find_if(it+1, e, [&] (rv r) { return r.get().first.section != it->get().first.section; }); if (m == e) { it = m; } else { std::rotate(it+1, m, e); it = std::adjacent_find(it, e, dup); } }当然,打印结果选择:
std::cout << "------------- selection: \n"; for (auto& r : vw) std::cout << r.get() << "\n";
打印一些诊断/跟踪信息的版本可以在这里看到:
完整 list
#include <boost/bind.hpp>
#include <boost/icl/interval_set.hpp>
#include <boost/tuple/tuple_comparison.hpp>
#include <iomanip>
#include <iostream>
#include <map>
namespace icl = boost::icl;
template<typename T> using rw = boost::reference_wrapper<T>;
using Section = std::string;
using Page = int;
using Chapter = int;
using Pages = icl::interval_set<Page>::type;
struct Module {
Section section;
Chapter chapter;
bool operator<(Module const& o) const { return boost::tie(section,chapter) < boost::tie(o.section,o.chapter); }
};
using Table = std::map<Module, Pages>;
static inline std::ostream& operator<<(std::ostream& os, Table::value_type const& p) {
return os << p.first.section << "\t" << p.first.chapter << "\t" << p.second;
}
int main()
{
std::cout << std::unitbuf;
Table table;
{
struct Fill { Section s; Chapter c; Page p; };
for (auto& tup : std::vector<Fill> {
{ "Jugement", 18 , 2 },
{ "Conclusions", 11 , 1 },
{ "Assignation", 43 , 1 },
{ "Assignation", 43 , 2 },
{ "Conclusions", 10 , 1 },
{ "Jugement", 17 , 3 },
{ "Assignation", 45 , 1 },
{ "Jugement", 17 , 1 },
{ "Conclusions", 9 , 1 },
{ "Jugement", 17 , 2 },
{ "Jugement", 18 , 1 },
})
{
table[{tup.s, tup.c}] += tup.p; // add page to (existing) range
}
}
std::cout << "------------- table: \n";
for (auto& r:table)
std::cout << r << "\n";
{
using rv = rw<Table::value_type>;
std::vector<rv> vw(begin(table), end(table));
// blind shuffle
srand(time(0));
std::random_shuffle(vw.begin(), vw.end());
// try to avoid subsequent modules from equal sections (dup)
auto dup = [](rv a, rv b) { return a.get().first.section == b.get().first.section; };
auto it = vw.begin();
auto const e = vw.end();
while(it != e) // bit redundant, could be while(true)
{
std::cout << "------------- STATE: \n";
for (auto& rv:vw)
std::cout << rv.get() << (it->get_pointer() == rv.get_pointer()? "*\n":"\n");
it = std::adjacent_find(it, e, dup);
if (it == e)
break;
std::cout << "------------- dupes: \n";
std::cout << "\t" << (it+0)->get() << "\n";
std::cout << "\t" << (it+1)->get() << "\n";
auto m = std::find_if(it+1, e, [&] (rv r) { return r.get().first.section != it->get().first.section; });
if (m == e)
{
it = m;
} else
{
std::cout << "------------- rotating to: \n";
std::cout << "\t" << m->get() << "\n";
std::rotate(it+1, m, e);
it = std::adjacent_find(it, e, dup);
}
}
std::cout << "------------- selection: \n";
for (auto& r : vw)
std::cout << r.get() << "\n";
}
}
关于c++ - 将n组文件组合在一起(随机且不重复),我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/27801992/