Why do we need special algorithms to write to uninitialized (but allocated) memory? Won't the normal modifying algorithms do? Or does uninitialized memory mean something different from what the name itself conveys?

  • You're looking at the right documentation, but if you go a little deeper you can see sample implementations for the functions. These are often very enlightening. For example, std::copy vs std::uninitialized_copy – user4581301 Jun 15 at 20:06

Take std::copy and std::uninitialized_copy for a range of std::strings.

Regular copy will assume there already exists a string there. The copy assignment operator of string will try to use any existing space in the string if possible for the copy.

However, if there wasn't already a string there, as in the case of an uninitialized memory, the copy assignment operator will access garbage memory and behavior is undefined.

Uninitialized copy on the other hand will create the string there instead of assigning to it, so it can be used in a memory that does not already have a string in it.

Essentially, the regular versions will have a *it = value; in them, and uninitialized versions will have something like a new (&(*it)) T(value);.

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    It isn't really about reusing memory or any kind of optimization. The algorithms do fundamentally different things. One copy assigns to the output iterator and the other placement news the copied object. – François Andrieux Jun 15 at 19:56
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    Right, I just thought a concrete example makes it easier to understand for non-experts. – Fatih BAKIR Jun 15 at 19:57
  • That's brushing over quite a few crucial tricky details, but at least the general idea is right. See en.cppreference.com/w/cpp/memory/uninitialized_copy for an implementation. – Deduplicator Jun 15 at 20:12

It is essentially about the object lifecycle.

After memory is allocated, it must be initialized by running the class' constructor. When the object is finished with, the class' destructor must be run.

The standard algorithms assume they are always accessing initialized memory and so objects can be created, copied, swapped and moved and deleted etc... based on that assumption.

When dealing with uninitialized memory however, the algorithms have to make sure they do not run a destructor on memory that was never initialized with the constructor. They have to avoid moving and swapping with non-existent objects by initializing the memory first when needed etc...

They have to deal with the extra step in the object lifecycle (initialization) that is unnecessary with already initialized memory.

  • "[...] it must be initialized by running the class' constructor." - note that an object's lifetime can begin even if no constructor of the class has been invoked, as per [dcl.init.general]/19. The key for start of lifetime is that the object's initialization shall be complete (and whatever that means w.r.t. two-phased initialization is another topic) rather than one of its constructors running to completion. – dfrib Jun 15 at 20:13

It's the difference between construction and assignment:

struct foo { /* whatever */ };
foo f;

unsigned char buf[sizeof foo];
foo *foo_ptr = (foo*) buf;
*foo_ptr = f; // undefined behavior; *foo_ptr does not point at a valid object
new (foo_ptr) foo; // okay; initializes raw memory
*foo_ptr = f; // okay; assignment to an existing object
  • I think it's not UB if foo is trivially copyable? – Maciej Piechotka Jun 16 at 6:21
  • @MaciejPiechotka -- maybe; that "whatever" might be a bit too weak. But the point still stands. – Pete Becker Jun 16 at 12:30

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