Maintains a hash-based collection of class T
pointer elements, in which there cannot be more than one occurrence of equivalent element instances and the key insertion order is preserved.
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#include <rw/tools/tpordhset.h>
Public Types | |
typedef container_type::allocator_type | allocator_type |
typedef container_type::const_iterator | const_iterator |
typedef container_type::const_pointer | const_pointer |
typedef container_type::const_reference | const_reference |
typedef rw_orderedhashset< T *, hasher, key_equal, A > | container_type |
typedef container_type::difference_type | difference_type |
typedef rw_deref_hash< H, T > | hasher |
typedef container_type::iterator | iterator |
typedef rw_deref_compare< EQ, T > | key_equal |
typedef container_type::key_type | key_type |
typedef container_type::pointer | pointer |
typedef container_type::reference | reference |
typedef container_type::size_type | size_type |
typedef container_type::value_type | value_type |
Public Member Functions | |
RWTPtrOrderedHashSet (size_type sz=64, const H &h=H(), const EQ &eq=EQ()) | |
RWTPtrOrderedHashSet (const RWTPtrOrderedHashSet< T, H, EQ, A > &rws) | |
RWTPtrOrderedHashSet (RWTPtrOrderedHashSet< T, H, EQ, A > &&rws) | |
RWTPtrOrderedHashSet (container_type &&rws) | |
RWTPtrOrderedHashSet (const container_type &s) | |
template<typename InputIterator > | |
RWTPtrOrderedHashSet (InputIterator first, InputIterator last, size_type sz=64, const H &h=H(), const EQ &eq=EQ()) | |
RWTPtrOrderedHashSet (const H &h, size_type sz=64) | |
void | apply (void(*fn)(const T &, void *), void *d) const |
void | apply (void(*fn)(const T *, void *), void *d) const |
iterator | begin () |
const_iterator | begin () const |
size_type | capacity () const |
const_iterator | cbegin () const |
const_iterator | cend () const |
void | clear () |
void | clearAndDestroy () |
bool | contains (bool(*fn)(const T *, void *), void *d) const |
bool | contains (const T *a) const |
RWTPtrOrderedHashSet< T, H, EQ, A > & | difference (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) |
iterator | end () |
const_iterator | end () const |
size_type | entries () const |
iterator | erase (iterator pos) |
iterator | erase (iterator first, iterator last) |
float | fillRatio () const |
const T * | find (bool(*fn)(const T *, void *), void *d) const |
value_type | find (const T *key) |
const T * | find (const T *a) const |
bool | insert (value_type a) |
iterator | insert (iterator hint, value_type val) |
template<typename InputIterator > | |
void | insert (InputIterator first, InputIterator last) |
RWTPtrOrderedHashSet< T, H, EQ, A > & | intersection (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) |
bool | isEmpty () const |
bool | isEquivalent (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) const |
bool | isProperSubsetOf (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) const |
bool | isSubsetOf (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) const |
size_type | occurrencesOf (bool(*fn)(const T *, void *), void *d) const |
size_type | occurrencesOf (const T *a) const |
RWTPtrOrderedHashSet< T, H, EQ, A > & | operator= (const RWTPtrOrderedHashSet< T, H, EQ, A > &rhs) |
RWTPtrOrderedHashSet< T, H, EQ, A > & | operator= (const container_type &rhs) |
RWTPtrOrderedHashSet< T, H, EQ, A > & | operator= (RWTPtrOrderedHashSet< T, H, EQ, A > &&rhs) |
RWTPtrOrderedHashSet< T, H, EQ, A > & | operator= (container_type &&rhs) |
value_type | remove (bool(*fn)(const T *, void *), void *d) |
value_type | remove (const T *a) |
size_type | removeAll (bool(*fn)(const T *, void *), void *d) |
size_type | removeAll (const T *a) |
void | resize (size_type sz) |
container_type & | std () |
const container_type & | std () const |
void | swap (RWTPtrOrderedHashSet< T, H, EQ, A > &other) |
RWTPtrOrderedHashSet< T, H, EQ, A > & | symmetricDifference (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) |
RWTPtrOrderedHashSet< T, H, EQ, A > & | Union (const RWTPtrOrderedHashSet< T, H, EQ, A > &s) |
Related Functions | |
(Note that these are not member functions.) | |
template<class T , class H , class EQ , class A > | |
bool | operator!= (const RWTPtrOrderedHashSet< T, H, EQ, A > &lhs, const RWTPtrOrderedHashSet< T, H, EQ, A > &rhs) |
template<class T , class H , class EQ , class A > | |
bool | operator!= (const RWTPtrOrderedHashSet< T, H, EQ, A > &lhs, const typename RWTPtrOrderedHashSet< T, H, EQ, A >::container_type &rhs) |
template<class T , class H , class EQ , class A > | |
bool | operator!= (const typename RWTPtrOrderedHashSet< T, H, EQ, A >::container_type &lhs, const RWTPtrOrderedHashSet< T, H, EQ, A > &rhs) |
template<class T , class H , class EQ , class A > | |
RWvostream & | operator<< (RWvostream &strm, const RWTPtrOrderedHashSet< T, H, EQ, A > &coll) |
template<class T , class H , class EQ , class A > | |
RWFile & | operator<< (RWFile &strm, const RWTPtrOrderedHashSet< T, H, EQ, A > &coll) |
template<class T , class H , class EQ , class A > | |
bool | operator== (const RWTPtrOrderedHashSet< T, H, EQ, A > &lhs, const RWTPtrOrderedHashSet< T, H, EQ, A > &rhs) |
template<class T , class H , class EQ , class A > | |
bool | operator== (const RWTPtrOrderedHashSet< T, H, EQ, A > &lhs, const typename RWTPtrOrderedHashSet< T, H, EQ, A >::container_type &rhs) |
template<class T , class H , class EQ , class A > | |
bool | operator== (const typename RWTPtrOrderedHashSet< T, H, EQ, A >::container_type &lhs, const RWTPtrOrderedHashSet< T, H, EQ, A > &rhs) |
template<class T , class H , class EQ , class A > | |
RWvistream & | operator>> (RWvistream &strm, RWTPtrOrderedHashSet< T, H, EQ, A > &coll) |
template<class T , class H , class EQ , class A > | |
RWFile & | operator>> (RWFile &strm, RWTPtrOrderedHashSet< T, H, EQ, A > &coll) |
template<class T , class H , class EQ , class A > | |
RWvistream & | operator>> (RWvistream &strm, RWTPtrOrderedHashSet< T, H, EQ, A > *&p) |
template<class T , class H , class EQ , class A > | |
RWFile & | operator>> (RWFile &strm, RWTPtrOrderedHashSet< T, H, EQ, A > *&p) |
RWTPtrOrderedHashSet maintains a collection of class T
pointer elements stored according to a hash object of type H
. RWTPtrOrderedHashSet preserves the key insertion order.
Class A
is an allocator of objects of class T
. For more information about using custom allocators, please see the Essential Tools Module User's Guide.
H
must provide a const
function that takes a single argument convertible to type T
and returns a value of type size_t
.
Element equality is determined by an equality function of type EQ
, which takes two arguments convertible to type T
and returns a value of type bool
.
RWTPtrOrderedHashSet will not accept an item that is equivalent to an item already in the collection. (RWTPtrOrderedHashMultiSet may contain multiple items that are equivalent to each other.) Equality is based on the equality object and not on the equality operator.
The value
type must have operator==() defined. This requirement is imposed by the C++ Standard Library.
Class RWTPtrOrderedHashMultiSet offers the same interface to a pointer-based collection that accepts multiple items that compare equal to each other.
Class rw_orderedhashset<T*,hasher,key_equal,A> is the C++ Standard Library collection that serves as the underlying implementation for RWTPtrOrderedHashSet.
typedef container_type::allocator_type RWTPtrOrderedHashSet< T, H, EQ, A >::allocator_type |
A type representing the allocator type for the container.
typedef container_type::const_iterator RWTPtrOrderedHashSet< T, H, EQ, A >::const_iterator |
A type that provides a const
forward iterator over the elements in the container.
typedef container_type::const_pointer RWTPtrOrderedHashSet< T, H, EQ, A >::const_pointer |
A type that provides a const
pointer to an element in the container.
typedef container_type::const_reference RWTPtrOrderedHashSet< T, H, EQ, A >::const_reference |
A type that provides a const
reference to an element in the container.
typedef rw_orderedhashset< T*, hasher, key_equal, A> RWTPtrOrderedHashSet< T, H, EQ, A >::container_type |
A type representing the underlying implementation container.
typedef container_type::difference_type RWTPtrOrderedHashSet< T, H, EQ, A >::difference_type |
A signed integral type used to indicate the distance between two valid iterators on the same container.
typedef rw_deref_hash<H, T> RWTPtrOrderedHashSet< T, H, EQ, A >::hasher |
A type representing a hash function that dereferences the arguments before comparing.
typedef container_type::iterator RWTPtrOrderedHashSet< T, H, EQ, A >::iterator |
A type that provides a forward iterator over the elements in the container.
typedef rw_deref_compare<EQ, T> RWTPtrOrderedHashSet< T, H, EQ, A >::key_equal |
A type representing an equality function that dereferences the arguments before comparing.
typedef container_type::key_type RWTPtrOrderedHashSet< T, H, EQ, A >::key_type |
A type representing the key of the container.
typedef container_type::pointer RWTPtrOrderedHashSet< T, H, EQ, A >::pointer |
A type that provides a pointer to an element in the container.
typedef container_type::reference RWTPtrOrderedHashSet< T, H, EQ, A >::reference |
A type that provides a reference to an element in the container.
typedef container_type::size_type RWTPtrOrderedHashSet< T, H, EQ, A >::size_type |
An unsigned integral type used for counting the number of elements in the container.
typedef container_type::value_type RWTPtrOrderedHashSet< T, H, EQ, A >::value_type |
A type representing the container's data type.
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Constructs an empty set. The underlying hash table representation has sz buckets, uses h for its hashing function, and uses eq to determine equality between elements.
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Copy constructor.
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Move constructor. The constructed list takes ownership of the data owned by rws.
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Move constructor. The constructed list takes ownership of the data owned by rws.
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Constructs a pointer-based set by copying all elements from s.
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Constructs a set by copying elements from the range [first, last). The underlying hash table representation has sz buckets, uses h for its hashing function, and uses eq to determine equality between elements.
InputIterator
is an input iterator type that points to elements that are convertible to value_type objects.
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Creates an empty set which uses the hash object h and has an initial hash table capacity of sz.
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Invokes the function pointer fn on each item in the collection. Client data may be passed through parameter d.
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Invokes the function pointer fn on each item in the collection. Client data may be passed through parameter d.
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Returns an iterator referring to the first element in the container.
If the container is empty, returns end().
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Returns an iterator referring to the first element in the container.
If the container is empty, returns end().
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Returns the number of buckets (slots) available in the underlying hash representation. See resize().
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Returns an iterator referring to the first element in the container.
If the container is empty, returns end().
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Returns an iterator referring to the element after the last element in the container.
Dereferencing the iterator returned by this function results in undefined behavior.
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Clears the collection by removing all items from self.
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Removes all items from the collection and uses operator delete
to destroy the objects pointed to by those items. Do not use this method if multiple pointers to the same object are stored. (If the equality operator is reflexive, the container cannot hold such multiple pointers.)
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Returns true
if there exists an element t
in self such that the expression ((*fn)(t,d))
is true
, otherwise returns false
. Client data may be passed through parameter d.
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Returns true
if there exists an element t
in self such that the expression (*t == *a)
is true
, otherwise returns false
.
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Sets self to the set-theoretic difference given by (self - s). Elements from each set are dereferenced before being compared.
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Returns an iterator referring to the element after the last element in the container.
Dereferencing the iterator returned by this function results in undefined behavior.
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Returns an iterator referring to the element after the last element in the container.
Dereferencing the iterator returned by this function results in undefined behavior.
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Returns the number of elements in self.
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Removes the item pointed to by pos from the collection. Returns an iterator that points to the next item in the collection, or end() if the last item in the collection was removed.
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Removes the items in the range [first, last) from the collection. Returns an iterator that points to the next item in the collection, or end() if the last item in the collection was removed.
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Returns the ratio entries() / capacity().
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If there exists an element t
in self such that the expression ((*fn)(t,d))
is true
, returns t
. Otherwise, returns rwnil. Client data may be passed through parameter d.
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If there exists an element t
in self such that *a
compares equal to *a
, returns t
. Otherwise, returns rwnil.
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If there exists an element t
in self such that *a
compares equal to *a
, returns t
. Otherwise, returns rwnil.
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Adds the item a to the collection. Returns true
if the insertion is successful, otherwise returns false
. Insertion will fail if the collection already holds an element with an equivalent key.
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Attempts to insert val into self. If an existing item with an equivalent key is already in the collection, val is not inserted, and an iterator to the existing item is returned. Otherwise inserts val and returns an iterator to the new item.
The hint parameter indicates where in the collection the new value should be inserted. This value is only a hint, and will be ignored if the value is inserted at a different location according to the container's hash object.
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Inserts the elements in the range [first, last) into self. If the element is already present in the collection, it will be ignored.
InputIterator
is an input iterator type that points to elements that are convertible to value_type objects.
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Destructively performs a set theoretic intersection of self and s, replacing the contents of self with the result.
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Returns true
if there are no items in the collection, otherwise false
.
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Returns true
if self and s are identical, otherwise returns false
.
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Returns true
if self is a proper subset of s, otherwise false
.
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Returns true
if self is a subset of s or if self is set equivalent to s, otherwise false
.
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Returns the number of elements t
in self such that the expression ((*fn)(t,d))
is true
. Client data may be passed through parameter d.
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Returns the number of elements t
that compare equal to *a
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Clears all elements of self and replaces them by copying all elements of rhs.
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Clears all elements of self and replaces them by copying all elements of rhs.
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Move assignment. Self takes ownership of the data owned by rhs.
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Move assignment. Self takes ownership of the data owned by rhs.
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Removes and returns the first element t
in self such that the expression ((*fn)(t,d))
is true
. Returns rwnil if there is no such element. Client data may be passed through parameter d.
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Removes and returns the first element t
in self that compares equal to *a
. Returns rwnil if there is no such element.
RWTPtrOrderedHashSet< T, H, EQ, A >::size_type RWTPtrOrderedHashSet< T, H, EQ, A >::removeAll | ( | bool(*)(const T *, void *) | fn, |
void * | d | ||
) |
Removes all elements t
in self such that the expression ((*fn)(t,d))
is true
. Returns the number of items removed. Client data may be passed through parameter d.
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Removes all elements t
in self that compare equal to *a
. Returns the number of items removed.
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Changes the capacity of self by creating a new set with a capacity of sz. This function copies every element of self into the new container and finally swaps the internal representation of the new container with the internal representation of self.
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Returns a reference to the underlying C++ Standard Library collection that serves as the implementation for self.
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Returns a reference to the underlying C++ Standard Library collection that serves as the implementation for self.
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Swaps the data held by self with the data held by other, including the T
and EQ
objects. This method does not copy or destroy any of the items swapped; rather, it swaps the underlying hash tables.
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Destructively performs a set theoretic symmetric difference operation on self and s. Self is replaced by the result. A symmetric difference can be defined as \( (A \cup B) / (A \cap B) \).
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Destructively performs a set theoretic union operation on self and s. Self is replaced by the result.
Union
avoids conflict with the C++ reserved word.
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Equivalent to !(lhs == rhs)
.
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Equivalent to !(lhs == rhs)
.
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Equivalent to !(lhs == rhs)
.
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Saves the collection coll to the output stream strm, or a reference to it if it has already been saved.
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Saves the collection coll to the RWFile strm, or a reference to it if it has already been saved.
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Returns true
if lhs and rhs are equal, otherwise false
. Two collections are equal if both have the same number of entries, and each is a subset of the other. Elements are dereferenced before being compared.
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Returns true
if lhs and rhs are equal, otherwise false
. Two collections are equal if both have the same number of entries, and each is a subset of the other. Elements are dereferenced before being compared.
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Returns true
if lhs and rhs are equal, otherwise false
. Two collections are equal if both have the same number of entries, and each is a subset of the other. Elements are dereferenced before being compared.
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Restores the contents of the collection coll from the input stream strm.
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Restores the contents of the collection coll from the RWFile strm.
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Looks at the next object on the input stream strm and either creates a new collection off the heap and sets p to point to it, or sets p to point to a previously read instance. If a collection is created off the heap, then the application is responsible for deleting it.
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Looks at the next object on the RWFile strm and either creates a new collection off the heap and sets p to point to it, or sets p to point to a previously read instance. If a collection is created off the heap, then the application is responsible for deleting it.
Copyright © 2021 Rogue Wave Software, Inc., a Perforce company. All Rights Reserved. |