If you are unwilling to change the structure of your code, then the SELECT CASE approach proposed by bdforbes is an option.
Beyond that you may be able to use polymorphism and replace the datatype component by different types that are all extensions of the same parent type. This is the fundamental reason why type bound procedures (the procedure statements after the contains in the type definition) exist, so you might as well use them as intended!
type, public, abstract :: image
! Common components to all extensions
logical :: initialized = .false.
character(256) :: path = "" ! Path to image
integer :: dimensions(3) = -1 ! Dimensions of image
procedure :: initialize
! Abstract interface pxvalues_image specified what the interface must
! look like. Deferred attribute means that extensions of image
! must specify a specific procedure for the pxvalues binding. All
! specific procedures must have the same interface bar the passed
procedure(pxvalues_image), deferred :: pxvalues
procedure :: getMeta
end type image
subroutine pxvalues_image(obj, ...)
import :: image
class(image), intent(in) :: obj
end subroutine pxvalues_image
! A type for images that have integer2 data.
type, public, extends(image) :: image_integer2
procedure :: pxvalues => pxvalues_integer2
end type image_integer2
! A type for images that have integer4 data.
type, public, extends(image) :: image_integer4
procedure :: pxvalues => pxvalues_integer4
end type image_integer4
The specific procedures ''pxvalues_integer2'', ''pxvalues_integer4'', etc, then take an initial argument that is of the extension type.
Rather than setting the datatype component, the code that creates the initial "image" object should instead then create the object as the appropriate extension of image, perhaps:
class(image), intent(out), allocatable :: object
! We want an image that for integer2's
allocate(image_integer2 :: object)
There are implication of this approach that require more knowledge of your code than can be given in isolated example snippets.