The error arises because there is a constraint (in F2008 the syntax rule is C618) in the language that only one part in a structure component (or similar multi-part reference) may have non-zero rank. Your reference
bararray%vector to the structure component has two parts with non-zero rank - the component
vector and the variable
(In the "change the call" approach the references to the component vector have a subscript that gives that part an overall rank of zero, hence bararray%vector(1) is accepted.)
There is a significant latent problem with the "change the call" approach.
The dummy argument in the subroutine is
INTENT(INOUT). That requires the actual argument to be definable (a variable that can actually be "varied").
In your "change the call" approach the actual argument associated with that dummy argument is an expression - an array constructor. Expressions are not definable - the result of evaluating them is a value and not something that can be "defined" - i.e. you can't sanely say
2 + 2 = 6.
Presumably in the real code the doSomething subroutine is an external procedure, so your compiler has not diagnosed this. If doSomething had an explicit interface (because it was in a module, perhaps) then I would expect the compiler to report an error.
Others have suggested the approach of re-marshalling your data prior to the call (copy data into an array variable of the appropriate size, call the procedure, copy the data out). Rewriting the interface of the subroutine to take objects of type bar (with the definition of the type moved to a module) is obviously another possibility. Derived types are not only a convenient way of storing data, they are often a convenient way of working with data.
I would be very wary of approaches that attempted to trick the processor into accepting what you "know" to be the layout of the hypothetical array
bararray%vector in memory. The layout of types and arrays can change from processor to processor, plus as processor error checking improves that sort of trick may result in later diagnostics. Vendor supplied libraries can get away with that sort of trick, but not us mere programming mortals.