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		<h1><A href="../../index.htm"><img src="../../boost.png" alt="boost.png (6897 bytes)" align="middle" width="277" height="86"
					border="0"></A>scoped_array class template</h1>
		<p>The <b>scoped_array</b> class template stores a pointer to a dynamically 
			allocated array. (Dynamically allocated arrays are allocated with the C++ <b>new[]</b>
			expression.) The array pointed to is guaranteed to be deleted, either on 
			destruction of the <b>scoped_array</b>, or via an explicit <b>reset</b>.</p>
		<p>The <b>scoped_array</b> template is a simple solution for simple needs. It 
			supplies a basic "resource acquisition is initialization" facility, without 
			shared-ownership or transfer-of-ownership semantics. Both its name and 
			enforcement of semantics (by being <a href="../utility/utility.htm#Class_noncopyable">
				noncopyable</a>) signal its intent to retain ownership solely within the 
			current scope. Because it is <a href="../utility/utility.htm#Class_noncopyable">noncopyable</a>, 
			it is safer than <b>shared_array</b> for pointers which should not be copied.</p>
		<p>Because <b>scoped_array</b> is so simple, in its usual implementation every 
			operation is as fast as a built-in array pointer and it has no more space 
			overhead that a built-in array pointer.</p>
		<p>It cannot be used in C++ standard library containers. See <a href="shared_array.htm">
				<b>shared_array</b></a> if <b>scoped_array</b> does not meet your needs.</p>
		<p>It cannot correctly hold a pointer to a single object. See <a href="scoped_ptr.htm"><b>scoped_ptr</b></a>
			for that usage.</p>
		<p>A <b>std::vector</b> is an alternative to a <b>scoped_array</b> that is a bit 
			heavier duty but far more flexible. A <b>boost::array</b> is an alternative 
			that does not use dynamic allocation.</p>
		<p>The class template is parameterized on <b>T</b>, the type of the object pointed 
			to. <b>T</b> must meet the smart pointer <a href="smart_ptr.htm#common_requirements">
				common requirements</a>.</p>
		<h2>Synopsis</h2>
		<pre>namespace boost {

  template&lt;class T&gt; class scoped_array : <a href="../utility/utility.htm#Class_noncopyable">noncopyable</a> {

    public:
      typedef T <a href="#element_type">element_type</a>;

      explicit <a href="#ctor">scoped_array</a>(T * p = 0); // never throws
      <a href="#destructor">~scoped_array</a>(); // never throws

      void <a href="#reset">reset</a>(T * p = 0); // never throws

      T &amp; <a href="#operator[]">operator[]</a>(std::ptrdiff_t i) const; // never throws
      T * <a href="#get">get</a>() const; // never throws
     
      operator <A href="#conversions" ><i>unspecified-bool-type</i></A>() const; // never throws

      void <a href="#swap">swap</a>(scoped_array &amp; b); // never throws
  };

  template&lt;class T&gt; void <a href="#free-swap">swap</a>(scoped_array&lt;T&gt; &amp; a, scoped_array&lt;T&gt; &amp; b); // never throws

}</pre>
		<h2>Members</h2>
		<h3>
			<a name="element_type">element_type</a></h3>
		<pre>typedef T element_type;</pre>
		<p>Provides the type of the stored pointer.</p>
		<h3><a name="ctor">constructors</a></h3>
		<pre>explicit scoped_array(T * p = 0); // never throws</pre>
		<p>Constructs a <b>scoped_array</b>, storing a copy of <b>p</b>, which must have 
			been allocated via a C++ <b>new</b>[] expression or be 0. <b>T</b> is not 
			required be a complete type. See the smart pointer <a href="smart_ptr.htm#common_requirements">
				common requirements</a>.</p>
		<h3><a name="destructor">destructor</a></h3>
		<pre>~scoped_array(); // never throws</pre>
		<p>Deletes the array pointed to by the stored pointer. Note that <b>delete[]</b> on 
			a pointer with a value of 0 is harmless. The guarantee that this does not throw 
			exceptions depends on the requirement that the deleted array's objects' 
			destructors do not throw exceptions. See the smart pointer <a href="smart_ptr.htm#common_requirements">
				common requirements</a>.</p>
		<h3><a name="reset">reset</a></h3>
		<pre>void reset(T * p = 0); // never throws</pre>
		<p>
			Deletes the array pointed to by the stored pointer and then stores a copy of p, 
			which must have been allocated via a C++ <b>new[]</b> expression or be 0. The 
			guarantee that this does not throw exceptions depends on the requirement that 
			the deleted array's objects' destructors do not throw exceptions. See the smart 
			pointer <a href="smart_ptr.htm#common_requirements">common requirements</a>.</p>
		<h3><a name="operator[]">subscripting</a></h3>
		<pre>T &amp; operator[](std::ptrdiff_t i) const; // never throws</pre>
		<p>Returns a reference to element <b>i</b> of the array pointed to by the stored 
			pointer. Behavior is undefined and almost certainly undesirable if the stored 
			pointer is 0, or if <b>i</b> is less than 0 or is greater than or equal to the 
			number of elements in the array.</p>
		<h3><a name="get">get</a></h3>
		<pre>T * get() const; // never throws</pre>
		<p>Returns the stored pointer. <b>T</b> need not be a complete type. See the smart 
			pointer <a href="smart_ptr.htm#common_requirements">common requirements</a>.</p>
		<h3><a name="conversions">conversions</a></h3>
		<pre>operator <i>unspecified-bool-type</i> () const; // never throws</pre>
		<p>Returns an unspecified value that, when used in boolean contexts, is equivalent 
			to <code>get() != 0</code>.</p>
		<h3><a name="swap">swap</a></h3>
		<pre>void swap(scoped_array &amp; b); // never throws</pre>
		<p>Exchanges the contents of the two smart pointers. <b>T</b> need not be a 
			complete type. See the smart pointer <a href="smart_ptr.htm#common_requirements">common 
				requirements</a>.</p>
		<h2><a name="functions">Free Functions</a></h2>
		<h3><a name="free-swap">swap</a></h3>
		<pre>template&lt;class T&gt; void swap(scoped_array&lt;T&gt; &amp; a, scoped_array&lt;T&gt; &amp; b); // never throws</pre>
		<p>Equivalent to <b>a.swap(b)</b>. Matches the interface of <b>std::swap</b>. 
			Provided as an aid to generic programming.</p>
		<hr>
		<p>Revised <!--webbot bot="Timestamp" S-Type="EDITED" S-Format="%d %B %Y" startspan--> 
			09 January 2003<!--webbot bot="Timestamp" endspan i-checksum="32310"--></p>
		<p><small>Copyright 1999 Greg Colvin and Beman Dawes. Copyright 2002 Darin Adler. 
			Copyright 2002-2005 Peter Dimov. Distributed under the Boost Software License, Version 
			1.0. See accompanying file <A href="../../LICENSE_1_0.txt">LICENSE_1_0.txt</A> or 
			copy at <A href="http://www.boost.org/LICENSE_1_0.txt">http://www.boost.org/LICENSE_1_0.txt</A>.</small></p>
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