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<a name="Compound-Literals"></a>
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<a name="Compound-Literals-1"></a>
<h3 class="section">6.26 Compound Literals</h3>
<a name="index-constructor-expressions"></a>
<a name="index-initializations-in-expressions"></a>
<a name="index-structures_002c-constructor-expression"></a>
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<a name="index-compound-literals"></a>

<p>A compound literal looks like a cast of a brace-enclosed aggregate
initializer list.  Its value is an object of the type specified in
the cast, containing the elements specified in the initializer.
Unlike the result of a cast, a compound literal is an lvalue.  ISO
C99 and later support compound literals.  As an extension, GCC
supports compound literals also in C90 mode and in C++, although
as explained below, the C++ semantics are somewhat different.
</p>
<p>Usually, the specified type of a compound literal is a structure.  Assume
that <code>struct foo</code> and <code>structure</code> are declared as shown:
</p>
<div class="smallexample">
<pre class="smallexample">struct foo {int a; char b[2];} structure;
</pre></div>

<p>Here is an example of constructing a <code>struct foo</code> with a compound literal:
</p>
<div class="smallexample">
<pre class="smallexample">structure = ((struct foo) {x + y, 'a', 0});
</pre></div>

<p>This is equivalent to writing the following:
</p>
<div class="smallexample">
<pre class="smallexample">{
  struct foo temp = {x + y, 'a', 0};
  structure = temp;
}
</pre></div>

<p>You can also construct an array, though this is dangerous in C++, as
explained below.  If all the elements of the compound literal are
(made up of) simple constant expressions suitable for use in
initializers of objects of static storage duration, then the compound
literal can be coerced to a pointer to its first element and used in
such an initializer, as shown here:
</p>
<div class="smallexample">
<pre class="smallexample">char **foo = (char *[]) { &quot;x&quot;, &quot;y&quot;, &quot;z&quot; };
</pre></div>

<p>Compound literals for scalar types and union types are also allowed.  In
the following example the variable <code>i</code> is initialized to the value
<code>2</code>, the result of incrementing the unnamed object created by
the compound literal.
</p>
<div class="smallexample">
<pre class="smallexample">int i = ++(int) { 1 };
</pre></div>

<p>As a GNU extension, GCC allows initialization of objects with static storage
duration by compound literals (which is not possible in ISO C99 because
the initializer is not a constant).
It is handled as if the object were initialized only with the brace-enclosed
list if the types of the compound literal and the object match.
The elements of the compound literal must be constant.
If the object being initialized has array type of unknown size, the size is
determined by the size of the compound literal.
</p>
<div class="smallexample">
<pre class="smallexample">static struct foo x = (struct foo) {1, 'a', 'b'};
static int y[] = (int []) {1, 2, 3};
static int z[] = (int [3]) {1};
</pre></div>

<p>The above lines are equivalent to the following:
</p><div class="smallexample">
<pre class="smallexample">static struct foo x = {1, 'a', 'b'};
static int y[] = {1, 2, 3};
static int z[] = {1, 0, 0};
</pre></div>

<p>In C, a compound literal designates an unnamed object with static or
automatic storage duration.  In C++, a compound literal designates a
temporary object that only lives until the end of its full-expression.
As a result, well-defined C code that takes the address of a subobject
of a compound literal can be undefined in C++, so G++ rejects
the conversion of a temporary array to a pointer.  For instance, if
the array compound literal example above appeared inside a function,
any subsequent use of <code>foo</code> in C++ would have undefined behavior
because the lifetime of the array ends after the declaration of <code>foo</code>.
</p>
<p>As an optimization, G++ sometimes gives array compound literals longer
lifetimes: when the array either appears outside a function or has
a <code>const</code>-qualified type.  If <code>foo</code> and its initializer had
elements of type <code>char *const</code> rather than <code>char *</code>, or if
<code>foo</code> were a global variable, the array would have static storage
duration.  But it is probably safest just to avoid the use of array
compound literals in C++ code.
</p>
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