"Well, experimenting with VS2005, I can't get an honest leak out of scalar delete on memory that was made by vector new. I guess the compiler behavior is "undefined" here, is about the best defense I can muster."
I disagree that it's a compiler behavior or even a compiler issue. The 'new' keyword gets compiled and linked, as you pointed out, to run-time libraries. Those run-time libraries handle the memory management calls to the OS in a OS independent consistent syntax and those run-time libraries are responsible for making malloc and new work consistently between OSes such as Linux, Windows, Solaris, AIX, etc.... This is the reason I mentioned the portability argument; an attempt to prove to you that the run-time does not actually manage memory either.
The OS manages memory.
The run-time libs interface to the OS.. On Windows, this is the virtual memory manager DLLs. This is why stdlib.h is implemented within the GLIB-C libraries and not the Linux kernel source; if GLIB-C is used on other OSes, it's implementation of malloc changes to make the correct OS calls. In VS, Borland, etc.. you will never find any libraries that ship with their compilers that actually manage memory either. You will, however, find OS specific definitions for malloc.
Since we have the source to Linux, you can go look at how malloc is implemented there. You will see that malloc is actually implemented in the GCC compiler which, in turn, basically makes two Linux system calls into the kernel to allocate memory. Never, malloc itself, actually managing memory!
And don't take it from me. Read the source code to Linux OS or you can see what K&R say about it... Here is a PDF link to the K&R on C.
See near end of Page 149:
"Calls to malloc and free may occur in any order; malloc calls
upon the operating system to obtain more memory as necessary. These routines illustrate some of the considerations involved in writing machine-dependent code in a relatively machineindependent way, and also show a real-life application of structures, unions and typedef."
"You've got to admit though, it's a really lousy practice to do what the original poster said."
Oh, I don't disagree there. My point was that the original poster's code was not conducive of a memory leak. That's all I was saying. I didn't chime in on the best practice side of things. Since the code is calling delete, the memory is getting free up.
I agree, in your defense, if the original poster's code never exited or never made it to the delete call, that the code could have a memory leak but since he states that later on he sees the delete getting called. "Later on however the memory is freed using a delete call:"
Moreover, my reason for responding as I did was due to the OP's comment "variable length structures (TAPI), where the structure size will depend on variable length strings"
That comment sounded like he was questioning the dynamic nature of the allocations against the cast being made and was consequentially wondering if that would cause a memory leak. I was reading between the lines if you will ;).