ACE
6.3.3
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A dynamic array class. More...
#include <Containers_T.h>
Public Types | |
typedef T | TYPE |
typedef ACE_Array_Iterator< T > | ITERATOR |
Public Types inherited from ACE_Array_Base< T > | |
typedef T | TYPE |
typedef ACE_Array_Iterator< T > | ITERATOR |
typedef T | value_type |
typedef value_type * | iterator |
typedef value_type const * | const_iterator |
typedef value_type & | reference |
typedef value_type const & | const_reference |
typedef value_type * | pointer |
typedef value_type const * | const_pointer |
typedef ptrdiff_t | difference_type |
typedef ACE_Allocator::size_type | size_type |
Public Member Functions | |
ACE_Array (size_t size=0, ACE_Allocator *alloc=0) | |
Dynamically create an uninitialized array. More... | |
ACE_Array (size_t size, const T &default_value, ACE_Allocator *alloc=0) | |
Dynamically initialize the entire array to the {default_value}. More... | |
ACE_Array (const ACE_Array< T > &s) | |
Copy constructor. More... | |
void | operator= (const ACE_Array< T > &s) |
Assignment operator. More... | |
bool | operator== (const ACE_Array< T > &s) const |
Equality comparison operator. More... | |
bool | operator!= (const ACE_Array< T > &s) const |
Inequality comparison operator. More... | |
Public Member Functions inherited from ACE_Array_Base< T > | |
ACE_DECLARE_STL_REVERSE_ITERATORS | ACE_Array_Base (size_type size=0, ACE_Allocator *the_allocator=0) |
Dynamically create an uninitialized array. More... | |
ACE_Array_Base (size_type size, T const &default_value, ACE_Allocator *the_allocator=0) | |
Dynamically initialize the entire array to the default_value. More... | |
ACE_Array_Base (ACE_Array_Base< T > const &s) | |
void | operator= (ACE_Array_Base< T > const &s) |
~ACE_Array_Base (void) | |
Clean up the array (e.g., delete dynamically allocated memory). More... | |
T & | operator[] (size_type slot) |
T const & | operator[] (size_type slot) const |
int | set (T const &new_item, size_type slot) |
int | get (T &item, size_type slot) const |
size_type | size (void) const |
Returns the <cur_size_> of the array. More... | |
int | size (size_type new_size) |
size_type | max_size (void) const |
Returns the <max_size_> of the array. More... | |
int | max_size (size_type new_size) |
void | swap (ACE_Array_Base< T > &array) |
iterator | begin (void) |
iterator | end (void) |
const_iterator | begin (void) const |
const_iterator | end (void) const |
reverse_iterator | rbegin (void) |
reverse_iterator | rend (void) |
const_reverse_iterator | rbegin (void) const |
const_reverse_iterator | rend (void) const |
Additional Inherited Members | |
Protected Member Functions inherited from ACE_Array_Base< T > | |
bool | in_range (size_type slot) const |
Protected Attributes inherited from ACE_Array_Base< T > | |
size_type | max_size_ |
size_type | cur_size_ |
value_type * | array_ |
Pointer to the array's storage buffer. More... | |
ACE_Allocator * | allocator_ |
Allocation strategy of the ACE_Array_Base. More... | |
A dynamic array class.
This class extends ACE_Array_Base, adding comparison operators.
Requirements and Performance Characteristics
typedef ACE_Array_Iterator<T> ACE_Array< T >::ITERATOR |
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inline |
Dynamically create an uninitialized array.
Initialize an empty array of the specified size using the provided allocation strategy.
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inline |
Dynamically initialize the entire array to the {default_value}.
Initialize an array the given size placing the default_value in each index.
Copy constructor.
The copy constructor performs initialization by making an exact copy of the contents of parameter {s}, i.e., *this == s will return true.
Inequality comparison operator.
Compare this array with {s} for inequality such that {*this} != {s} is always the complement of the boolean return value of {*this} == {s}.
Assignment operator.
Assignment operator performs an assignment by making an exact copy of the contents of parameter {s}, i.e., *this == s will return true. Note that if the {max_size_} of {array_} is >= than {s.max_size_} we can copy it without reallocating. However, if {max_size_} is < {s.max_size_} we must delete the {array_}, reallocate a new {array_}, and then copy the contents of {s}.
Equality comparison operator.
Compare this array with {s} for equality. Two arrays are equal if their {size}'s are equal and all the elements from 0 .. {size} are equal.