I could not find this anywhere, and even if it could be trivial I wanna be sure I have well understood. I have 4 questions (strictly related):
1)If I define a derived type in fortran like this
TYPE :: node INTEGER :: int REAL :: REALfirst REAL :: REALsecond END TYPE TYPE(node) :: var allocate(var)
After the above allocation it occupies 4 byte for the integer and other 8 for the 2 single precision reals, for a total of 12 bytes. Are they located continuously in memory? And how does the computer store the information about the type of variables?I guess it needs some extra memory for saving that.
2)if in the example above instead of
TYPE(node) :: var
i would have written:
TYPE(node),POINTER :: var
I guess that if I compiled a 32 bit executable the ALLOCATE statement would allocate the same amount of memory as in the example above. Is it correct?
3)Now lets suppose i declare the type
TYPE :: node INTEGER :: int TYPE(node), POINTER :: BEFORE TYPE(node), POINTER :: AFTER END TYPE TYPE(node) :: var allocate(var)
here (if 32-bit compiled) it would allocate 4 byte for the integer and other 8 for the 2 pointers, for a total of 12 bytes. is that correct?Again how does the computer store the information about the type of variables?
4)In the example (3) if I now write ALLOCATE(var%BEFORE), other 12 bytes are allocated for a variable with derived type node, and the 4 byte of integer type that were allocated for the pointer var%BEFORE (see example 3) are now freed, correct?