delete expression
Destroys object(s) previously allocated by the new expression and releases obtained memory area.
Syntax
:: (optional) delete expression | (1) | |
:: (optional) delete [] expression | (2) |
Explanation
For the first (non-array) form, expression must be a pointer to an object type or a class type contextually implicitly convertible to such pointer, and its value must be either null or pointer to a non-array object created by a new-expression, or a pointer to a base subobject of a non-array object created by a new-expression. If expression is anything else, including if it is a pointer obtained by the array form of new-expression, the behavior is undefined.
For the second (array) form, expression must be a null pointer value or a pointer value previously obtained by an array form of new-expression. If expression is anything else, including if it's a pointer obtained by the non-array form of new-expression, the behavior is undefined.
The result of the expression always has type void
.
If the object being deleted has incomplete class type at the point of deletion, and the complete class has a non-trivial destructor or a deallocation function, the behavior is undefined.
If expression is not a null pointer and the deallocation function is not a destroying delete (since C++20), the delete
expression invokes the destructor (if any) for the object that's being destroyed, or for every element of the array being destroyed (proceeding from the last element to the first element of the array).
After that, whether or not an exception was thrown by any destructor, the delete expression invokes the deallocation function: either operator delete
(for the first version of the expression) or operator delete[]
(for the second version of the expression), unless the matching new-expression was combined with another new-expression (since C++14).
The deallocation function's name is looked up in the scope of the dynamic type of the object pointed to by expression, which means class-specific deallocation functions, if present, are found before the global ones. If ::
is present in the delete
expression, only the global namespace is examined by this lookup.
If lookup finds more than one deallocation function, the function to be called is selected as follows (see deallocation function for a more detailed description of these functions and their effects):
| (since C++20) |
| (since C++17) |
- If the deallocation functions that were found are class-specific, size-unaware class-specific deallocation function (without a parameter of type
std::size_t
) is preferred over size-aware class-specific deallocation function (with a parameter of typestd::size_t
)
| (since C++14) |
The pointer to the block of storage to be reclaimed is passed to the deallocation function that was selected by the process above as the first argument. The size of the block is passed as the optional std::size_t
argument. The alignment requirement is passed as the optional std::align_val_t
argument. (since C++17).
If expression evaluates to a null pointer value, no destructors are called, and the deallocation function may or may not be called (it's implementation-defined), but the default deallocation functions are guaranteed to do nothing when handed a null pointer. | (until C++14) |
If expression evaluates to a null pointer value, no destructors are called, and the deallocation function is not called. | (since C++14) |
If expression evaluates to a pointer to a base class subobject of the object that was allocated with new, the destructor of the base class must be virtual, otherwise the behavior is undefined.
Notes
A pointer to void
cannot be deleted because it is not a pointer to a complete object type.
Because a pair of brackets following the keyword // delete []{return new int; }(); // parse error delete ([]{return new int; })(); // OK | (since C++11) |
Keywords
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