This kind of polymorphism is called generic programming but the theoretical concept behind it is called parametric polymorphism.
The two examples you provided indeed show parametric polymorphism but OCaml is supported by a strong inferring type checker instead that the one provided by C++ (which is a solution more pragmatic and with more caveats) so the real difference is that in C++ the code is duplicated for every type you use it in your code while in OCaml it is resolved by type checker by verifying that a substitution of implicit type variables through unification does exist.
Everything can be polymorphic in OCaml just because nothing is usually annotated with types so in practice if something can be used as an argument to any function then it is implicitly allowed.
You can for example have type variables to define polymorphic methods:
let swap ((x : 'a), (y : 'b)) : 'b * 'a = (y, x)
so that this will work whatever type
Another powerful polymorphic feature of OCaml are functors (which are not the common C++ functors) but are modules parametrized by other modules. The concept sounds scarier that it is but they indeed represent an higher order of polymorphic behavior for OCaml code.