Some things are still implemented as Java interfaces in Clojure; of those, I'd say some are likely to stay that way forever to ease cooperating with Clojure code from other JVM languages.
Fortunately, when defining a type using
deftype, you can have the new type implement any Java interfaces you require (which Brian mentioned in a comment above), as well as any methods of
java.lang.Object. An example to match your description might look like this:
(deftype Foo [a b]
(seq [self] (if (seq a) self nil))
(cons [self o] (Foo. a (conj b o)))
(empty [self] (Foo.  ))
(if (instance? Foo o)
(and (= a (.a o))
(= b (.b o)))
(first [self] (first a))
(next [self] (next a))
(more [self] (rest a))
(toString [self] (str "Foo of a: " a ", b: " b)))
A sample of what you can do with it at the REPL:
user> (.toString (conj (conj (Foo.  ) 1) 2))
"Foo of a: , b: [1 2]"
user> (.toString (conj (conj (Foo. [:a :b] ) 1) 2))
"Foo of a: [:a :b], b: [0 1 2]"
user> (first (conj (conj (Foo. [:a :b] ) 1) 2))
user> (Foo. [1 2 3] [:a :b :c])
(1 2 3)
Note that the REPL prints it as a seq; I believe that's because of the inline implementation of
clojure.lang.ISeq. You could skip it and replace the
seq method with one returning
(seq a) for a printed representation using the custom
str always uses
If you need custom behaviour of
pr family functions (including
println etc.), you'll have to look into implementing a custom
print-method for your type.
print-method is a multimethod defined in
clojure.core; have a look at core_print.clj in Clojure's sources for example implementations.