It isn't necessary for out of bounds array accesses to fail with a segmentation fault. You've effectively initialized stream to an undefined value, and you set it to something that is probably valid before you dereference. In most compilers, the variables will be laid out in memory so that
array1d (equivalent to
*(array1d+1)) is the same as
*source, which will be the same as
sequence. Also, the type of array1d is effectively
**stream='\0'; should generate a compile failure because you can't dereference a char. If you did
*stream='\0';, you should still get an error because stream is a const pointer.
stream = &(*source); is the same as
stream = source;.
end is a global variable somewhere or a macro or something, this will absolutely not compile in any compiler I know of.
This code is unbelievably bad and messy and I think if the compile errors were corrected it would not do what you think it would do, and I think you should spend some time thinking about these things:
- The name of an array is basically the same as a pointer to the array's first element
- Pointer arithmetic, which is what you are doing when you use arithmetic operators on a pointer or array name, accounts for type. If
sizeof(uint64_t) is 8 (as it should be), adding one to a
uint64_t* will result in 8 being added to the address.
- The dereference operator
* and the address-of operator
& are inverses.
*(&something) is the same idea as
- Neither the compiler nor the runtime will typically check your array bounds. It will simply give you whatever happens to be where the pointer arithmetic lands, as long as your program is allowed to use the address.
- You cannot copy arrays using the assignment operator
= in C++ (because they are really pointers). The exception to this is initialization with a brace-enclosed initializer list