构造容器对象。
hash_multiset();
explicit hash_multiset(key_compare^ pred);
hash_multiset(key_compare^ pred, hasher^ hashfn);
hash_multiset(hash_multiset<Key>% right);
hash_multiset(hash_multiset<Key>^ right);
template<typename InIter>
hash_multiset(InIter first, InIter last);
template<typename InIter>
hash_multiset(InIter first, InIter last,
key_compare^ pred);
template<typename InIter>
hash_multiset(InIter first, InIter last,
key_compare^ pred, hasher^ hashfn);
hash_multiset(System::Collections::Generic::IEnumerable<GValue>^ right);
hash_multiset(System::Collections::Generic::IEnumerable<GValue>^ right,
key_compare^ pred);
hash_multiset(System::Collections::Generic::IEnumerable<GValue>^ right,
key_compare^ pred, hasher^ hashfn);
参数
首先
范围开头插入的。hashfn
映射的键哈希函数到存储桶。last
范围的末尾插入的。pred
控件序列的排序的性质。right
对象或范围插入。
备注
构造函数:
hash_multiset();
初始化控件序列没有元素,其默认值为排序的谓词 key_compare()和使用默认哈希函数。使用它指定空的初始控件序列,其默认值为排序的特性和哈希函数。
构造函数:
explicit hash_multiset(key_compare^ pred);
初始化控件序列没有元素,与排序的谓词 pred和使用默认哈希函数。使用它指定空的初始控件序列,与指定的排序的特性和默认哈希函数。
构造函数:
hash_multiset(key_compare^ pred, hasher^ hashfn);
初始化控件序列没有元素,与排序的谓词 pred和使用哈希函数 hashfn。使用它指定空的初始控件序列,与指定的排序的特性和哈希函数。
构造函数:
hash_multiset(hash_multiset<Key>% right);
初始化控件序列与该序列 [right.hash_multiset::begin (STL/CLR)(),right.hash_multiset::end (STL/CLR)()),其默认值为排序的特性和使用默认哈希函数。将它指定为的复制序列控件是使用默认的排序的特性和哈希函数的 hash_multiset 对象 right,的初始控件序列。
构造函数:
hash_multiset(hash_multiset<Key>^ right);
初始化控件序列与该序列 [right->hash_multiset::begin (STL/CLR)(),right->hash_multiset::end (STL/CLR)()),其默认值为排序的特性和使用默认哈希函数。将它指定为的复制序列控件是使用默认的排序的特性和哈希函数的 hash_multiset 对象 right,的初始控件序列。
构造函数:
template<typename InIter>
hash_multiset(InIter first, InIter last);
初始化控件序列与该序列 [first,last),其默认值为排序的特性和使用默认哈希函数。使用它使控件序列复制另一个序列,其默认值为排序的特性和哈希函数。
构造函数:
template<typename InIter>
hash_multiset(InIter first, InIter last,
key_compare^ pred);
初始化控件序列与该序列 [first,last),与排序的谓词 pred和使用默认哈希函数。使用它使控件序列复制另一个序列,与指定的排序的特性和默认哈希函数。
构造函数:
template<typename InIter>
hash_multiset(InIter first, InIter last,
key_compare^ pred, hasher^ hashfn);
初始化控件序列与该序列 [first,last),与排序的谓词 pred和使用哈希函数 hashfn。使用它使控件序列复制另一个序列,与指定的排序的特性和哈希函数。
构造函数:
hash_multiset(System::Collections::Generic::IEnumerable<Key>^ right);
初始化控件序列与枚举数指定的顺序 right,其默认值为排序的特性和使用默认哈希函数。使用它使控件序列枚举数描述的副本另一个序列,具有默认排序的特性和哈希函数的。
构造函数:
hash_multiset(System::Collections::Generic::IEnumerable<Key>^ right,
key_compare^ pred);
初始化控件序列与枚举数指定的顺序 right,与排序的谓词 pred和使用默认哈希函数。使用它使控件序列枚举数描述的副本另一个序列,具有指定的排序的特性和默认哈希函数的。
构造函数:
hash_multiset(System::Collections::Generic::IEnumerable<Key>^ right,
key_compare^ pred, hasher^ hashfn);
初始化控件序列与枚举数指定的顺序 right,与排序的谓词 pred和使用哈希函数 hashfn。使用它使控件序列枚举数描述的副本另一个序列,具有指定的排序的特性和哈希函数的。
示例
// cliext_hash_multiset_construct.cpp
// compile with: /clr
#include <cliext/hash_set>
int myfun(wchar_t key)
{ // hash a key
return (key ^ 0xdeadbeef);
}
typedef cliext::hash_multiset<wchar_t> Myhash_multiset;
int main()
{
// construct an empty container
Myhash_multiset c1;
System::Console::WriteLine("size() = {0}", c1.size());
c1.insert(L'a');
c1.insert(L'b');
c1.insert(L'c');
for each (wchar_t elem in c1)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct with an ordering rule
Myhash_multiset c2 = cliext::greater_equal<wchar_t>();
System::Console::WriteLine("size() = {0}", c2.size());
c2.insert(c1.begin(), c1.end());
for each (wchar_t elem in c2)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct with an ordering rule and hash function
Myhash_multiset c2h(cliext::greater_equal<wchar_t>(),
gcnew Myhash_multiset::hasher(&myfun));
System::Console::WriteLine("size() = {0}", c2h.size());
c2h.insert(c1.begin(), c1.end());
for each (wchar_t elem in c2h)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
System::Console::WriteLine();
// construct with an iterator range
Myhash_multiset c3(c1.begin(), c1.end());
for each (wchar_t elem in c3)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct with an iterator range and an ordering rule
Myhash_multiset c4(c1.begin(), c1.end(),
cliext::greater_equal<wchar_t>());
for each (wchar_t elem in c4)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct with an iterator range and an ordering rule and hash function
Myhash_multiset c4h(c1.begin(), c1.end(),
cliext::greater_equal<wchar_t>(),
gcnew Myhash_multiset::hasher(&myfun));
for each (wchar_t elem in c4h)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
System::Console::WriteLine();
// construct with an enumeration
Myhash_multiset c5( // NOTE: cast is not needed
(System::Collections::Generic::IEnumerable<wchar_t>^)%c3);
for each (wchar_t elem in c5)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct with an enumeration and an ordering rule
Myhash_multiset c6( // NOTE: cast is not needed
(System::Collections::Generic::IEnumerable<wchar_t>^)%c3,
cliext::greater_equal<wchar_t>());
for each (wchar_t elem in c6)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct with an enumeration and an ordering rule and hash function
Myhash_multiset c6h( // NOTE: cast is not needed
(System::Collections::Generic::IEnumerable<wchar_t>^)%c3,
cliext::greater_equal<wchar_t>(),
gcnew Myhash_multiset::hasher(&myfun));
for each (wchar_t elem in c6h)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
System::Console::WriteLine();
// construct from a generic container
Myhash_multiset c7(c4);
for each (wchar_t elem in c7)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
// construct by copying another container
Myhash_multiset c8(%c3);
for each (wchar_t elem in c8)
System::Console::Write(" {0}", elem);
System::Console::WriteLine();
return (0);
}
要求
标题: <cliext/hash_set>
命名空间: cliext