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raw_storage_iterator Class

 

The latest version of this topic can be found at raw_storage_iterator Class.

An adaptor class that is provided to enable algorithms to store their results into uninitialized memory.

Syntax

template <class OutputIterator, class Type>  
class raw_storage_iterator

Parameters

OutputIterator
Specifies the output iterator for the object being stored.

Type
The type of object for which storage is being allocated.

Remarks

The class describes an output iterator that constructs objects of type Type in the sequence it generates. An object of class raw_storage_iterator< ForwardIterator, Type> accesses storage through a forward iterator object, of class ForwardIterator, that you specify when you construct the object. For an object first of class ForwardIterator, the expression &*first must designate unconstructed storage for the next object (of type Type) in the generated sequence.

This adaptor class is used when it is necessary to separate memory allocation and object construction. The raw_storage_iterator can be used to copy objects into uninitialized storage, such as memory allocated using the malloc function.

Members

Constructors

raw_storage_iterator Constructs a raw storage iterator with a specified underlying output iterator.

Typedefs

element_type Provides a type that describes an element to be stored a raw storage iterator.
iter_type Provides a type that describes an iterator that underlies a raw storage iterator.

Operators

operator* A dereferencing operator used to implement the output iterator expression * ii = x.
operator= An assignment operator used to implement the raw storage iterator expression * i = x for storing in memory.
operator++ Preincrement and postincrement operators for raw storage iterators.

Requirements

Header: <memory>

Namespace: std

raw_storage_iterator::element_type

Provides a type that describes an element to be stored a raw storage iterator.

typedef Type element_type;

Remarks

The type is a synonym for the raw_storage_iterator class template parameter Type.

raw_storage_iterator::iter_type

Provides a type that describes an iterator that underlies a raw storage iterator.

typedef ForwardIterator iter_type;

Remarks

The type is a synonym for the template parameter ForwardIterator.

raw_storage_iterator::operator*

A dereferencing operator used to implement the raw storage iterator expression * ii = x.

raw_storage_iterator<ForwardIterator, Type>& operator*();

Return Value

A reference to the raw storage iterator

Remarks

The requirements for a ForwardIterator are that the raw storage iterator must satisfy require only the expression * ii = t be valid and that it says nothing about the operator or the operator= on their own. The member operators in this implementation returns *this, so that operator=( constType&) can perform the actual store in an expression, such as * ptr = val.

Example

// raw_storage_iterator_op_deref.cpp  
// compile with: /EHsc  
#include <iostream>  
#include <iterator>  
#include <memory>  
#include <list>  
using namespace std;  
  
class Int   
{  
public:  
   Int(int i)   
   {  
      cout << "Constructing " << i << endl;   
      x = i;  
      bIsConstructed = true;  
   };  
  
   Int &operator=(int i)   
   {  
      if (!bIsConstructed)  
         cout << "Not constructed.\n";  
      cout << "Copying " << i << endl;    
      x = i;   
      return *this;  
   };  
  
   int x;  
  
private:  
   bool bIsConstructed;  
};  
  
int main( void)   
{  
   Int *pInt = ( Int* ) malloc( sizeof( Int ) );  
   memset( pInt, 0, sizeof( Int ) ); // Set bIsConstructed to false;  
 *pInt = 5;  
   raw_storage_iterator< Int*, Int > it( pInt );  
 *it = 5;  
}  
\* Output:   
Not constructed.  
Copying 5  
Constructing 5  
*\  

raw_storage_iterator::operator=

Assignment operator used to implement the raw storage iterator expression * i = x for storing in memory.

raw_storage_iterator<ForwardIterator, Type>& operator=(
    const Type& val);

Parameters

val
The value of the object of type Type to be inserted into memory.

Return Value

The operator inserts val into memory, and then returns a reference to the raw storage iterator.

Remarks

The requirements for a ForwardIterator state that the raw storage iterator must satisfy require only the expression * ii = t be valid, and that it says nothing about the operator or the operator= on their own. These member operators return *this.

The assignment operator constructs the next object in the output sequence using the stored iterator value first, by evaluating the placement new expression new ( ( void *)&* first) Type( val).

Example

// raw_storage_iterator_op_assign.cpp  
// compile with: /EHsc  
#include <iostream>  
#include <iterator>  
#include <memory>  
#include <list>  
using namespace std;  
  
class Int   
{  
public:  
   Int( int i )   
   {  
      cout << "Constructing " << i << endl;   
      x = i;  
      bIsConstructed = true;  
   };  
   Int &operator=( int i )   
   {  
      if ( !bIsConstructed )  
         cout << "Not constructed.\n";  
      cout << "Copying " << i << endl; x = i;  
      return *this;  
   };  
   int x;  
private:  
   bool bIsConstructed;  
};  
  
int main( void )  
{  
   Int *pInt = ( Int* )malloc( sizeof( Int ) );  
   memset( pInt, 0, sizeof( Int ) ); // Set bIsConstructed to false;  
  
 *pInt = 5;  
  
   raw_storage_iterator<Int*, Int> it( pInt );  
 *it = 5;  
}  
\* Output:   
Not constructed.  
Copying 5  
Constructing 5  
*\  

raw_storage_iterator::operator++

Preincrement and postincrement operators for raw storage iterators.

raw_storage_iterator<ForwardIterator, Type>& operator++();

raw_storage_iterator<ForwardIterator, Type> operator++(int);

Return Value

An raw storage iterator or a reference to an raw storage iterator.

Remarks

The first operator eventually attempts to extract and store an object of type CharType from the associated input stream. The second operator makes a copy of the object, increments the object, and then returns the copy.

The first preincrement operator increments the stored output iterator object, and then returns *this.

The second postincrement operator makes a copy of *this, increments the stored output iterator object, and then returns the copy.

The constructor stores first as the output iterator object.

Example

// raw_storage_iterator_op_incr.cpp  
// compile with: /EHsc  
#include <iostream>  
#include <iterator>  
#include <memory>  
#include <list>  
using namespace std;  
  
int main( void )  
{  
   int *pInt = new int[5];  
   std::raw_storage_iterator<int*,int> it( pInt );  
   for ( int i = 0; i < 5; i++, it++ ) {  
 *it = 2 * i;  
};  
  
   for ( int i = 0; i < 5; i++ ) cout << "array " << i << " = " << pInt[i] << endl;;  
  
   delete[] pInt;  
}  
\* Output:   
array 0 = 0  
array 1 = 2  
array 2 = 4  
array 3 = 6  
array 4 = 8  
*\  

raw_storage_iterator::raw_storage_iterator

Constructs a raw storage iterator with a specified underlying output iterator.

explicit raw_storage_iterator(ForwardIterator first);

Parameters

first
The forward iterator that is to underlie the raw_storage_iterator object being constructed.

Example

// raw_storage_iterator_ctor.cpp  
// compile with: /EHsc /W3  
#include <iostream>  
#include <iterator>  
#include <memory>  
#include <list>  
using namespace std;  
  
class Int  
{  
public:  
   Int(int i)  
   {  
      cout << "Constructing " << i << endl;  
      x = i;  
      bIsConstructed = true;  
   };  
   Int &operator=( int i )  
   {  
      if (!bIsConstructed)  
         cout << "Error! I'm not constructed!\n";  
      cout << "Copying " << i << endl;  x = i; return *this;  
   };  
   int x;  
   bool bIsConstructed;  
};  
  
int main( void )  
{  
   std::list<int> l;  
   l.push_back( 1 );  
   l.push_back( 2 );  
   l.push_back( 3 );  
   l.push_back( 4 );  
  
   Int *pInt = (Int*)malloc(sizeof(Int)*l.size( ));  
   memset (pInt, 0, sizeof(Int)*l.size( ));  
   // Hack: make sure bIsConstructed is false  
  
   std::copy( l.begin( ), l.end( ), pInt );  // C4996  
   for (unsigned int i = 0; i < l.size( ); i++)  
      cout << "array " << i << " = " << pInt[i].x << endl;;  
  
   memset (pInt, 0, sizeof(Int)*l.size( ));  
   // hack: make sure bIsConstructed is false  
  
   std::copy( l.begin( ), l.end( ),  
      std::raw_storage_iterator<Int*,Int>(pInt));  // C4996  
   for (unsigned int i = 0; i < l.size( ); i++ )  
      cout << "array " << i << " = " << pInt[i].x << endl;  
  
   free(pInt);  
}  
\* Output:   
Error! I'm not constructed!  
Copying 1  
Error! I'm not constructed!  
Copying 2  
Error! I'm not constructed!  
Copying 3  
Error! I'm not constructed!  
Copying 4  
array 0 = 1  
array 1 = 2  
array 2 = 3  
array 3 = 4  
Constructing 1  
Constructing 2  
Constructing 3  
Constructing 4  
array 0 = 1  
array 1 = 2  
array 2 = 3  
array 3 = 4  
*\  

See Also

Thread Safety in the C++ Standard Library