Objects created "on the stack" in local scope have what is called automatic storage duration. The Standard says:
C++03 3.7.2 Automatic storage duration
1/ Local objects explicitly declared auto or register or not
explicitly declared static or extern have automatic storage duration.
The storage for these objects lasts until the block in which they are
2/ [Note: these objects are initialized and destroyed as described in
On the destruction of these objects:
6.7 Declaration statement
2/ Variables with automatic storage duration (3.7.2) are initialized
each time their declaration-statement is executed. Variables with
automatic storage duration declared in the block are destroyed on exit
from the block (6.6).
Hence, according to the Standard, when object with local scope fall out of scope, the destructor is called and the storage is released.
Weather or not that storage is on a stack the Standard doesn't say. It just says the storage is released, wherever it might be.
Some architectures don't have stacks in the same sense a PC has. C++ is meant to work on any kind of programmable device. That's why it never mentions anything about stacks, heaps, etc.
On a typical PC-type platform running Windows and user-mode code, these automatic variables are stored on a stack. These stacks are fixed-size, and are created when the thread starts. As they become instantiated, they take up more of the space on the stack, and the stack pointer moves. If you allocate enough of these variables, you will overflow the stack and your program will die an ugly death.
Try running this on a Windows PC and see what happens for an example:
for( int* it = &boom; it != &boom[sizeof(boom)/sizeof(boom)]; ++it )
*it = 42;