java-adt
Create immutable algebraic data structures for Java.
http://github.com/andreasabel/java-adt
Version on this page: | 0.2018.11.4 |
LTS Haskell 22.37: | 1.0.20231204 |
Stackage Nightly 2024-10-09: | 1.0.20231204 |
Latest on Hackage: | 1.0.20231204 |
java-adt-0.2018.11.4@sha256:43f20d4de2140728b46c3b07b3bdfa71acb0668940f0d53dfc57cc47308420b8,1548
Module documentation for 0.2018.11.4
There are no documented modules for this package.
java-adt
A tool to create immutable algebraic data structures and visitors for Java (such as abstract syntax trees). The input syntax is similar to Haskell data types, and they will be compiled to Java class hierarchies.
Installation
With a running Haskell installation such as the Haskell platform, simply type into your shell
cabal install alex happy java-adt
and make sure your .cabal/bin/
(or similar) is part of your system PATH.
Example 1: Immutable linked lists with default visitor
Input: List.hs
data List A = Nil | Cons { head :: A, tail :: List A }
Invokation java-adt List.hs
prints to standard output:
abstract class List<A> {
}
class Nil<A> extends List<A> {
public Nil () {
}
}
class Cons<A> extends List<A> {
public A head;
public List<A> tail;
public Cons (A head, List<A> tail) {
this.head = head;
this.tail = tail;
}
}
Invokation: java-adt -o List.java List.hs
leaves output in List.java
.
Invokation: java-adt -d List.hs
outputs same but with default visitor on standard output:
abstract class List<A> {
public abstract <R> R accept (ListVisitor<R,A> v);
}
class Nil<A> extends List<A> {
public Nil () {
}
public <R> R accept (ListVisitor<R,A> v) {
return v.visit (this);
}
}
class Cons<A> extends List<A> {
public A head;
public List<A> tail;
public Cons (A head, List<A> tail) {
this.head = head;
this.tail = tail;
}
public <R> R accept (ListVisitor<R,A> v) {
return v.visit (this);
}
}
interface ListVisitor<R,A> {
public R visit (Nil<A> l);
public R visit (Cons<A> l);
}
Example 2: A simple AST with custom visitor
Input file Exp.hs
: (Note the use of Haskell lists in [Exp]
)
data Exp
= EInt { i :: Integer }
| EAdd { e1 :: Exp, e2 :: Exp }
| ECall { f :: String, es :: [Exp] }
--visitor Integer EvalVisitor
Invokation java-ast -o Exp.java Exp.hs
outputs into Exp.java
:
import java.util.List;
abstract class Exp {
public abstract Integer accept (EvalVisitor v);
}
class EInt extends Exp {
public Integer i;
public EInt (Integer i) {
this.i = i;
}
public Integer accept (EvalVisitor v) {
return v.visit (this);
}
}
class EAdd extends Exp {
public Exp e1;
public Exp e2;
public EAdd (Exp e1, Exp e2) {
this.e1 = e1;
this.e2 = e2;
}
public Integer accept (EvalVisitor v) {
return v.visit (this);
}
}
class ECall extends Exp {
public String f;
public List<Exp> es;
public ECall (String f, List<Exp> es) {
this.f = f;
this.es = es;
}
public Integer accept (EvalVisitor v) {
return v.visit (this);
}
}
interface EvalVisitor {
public Integer visit (EInt e);
public Integer visit (EAdd e);
public Integer visit (ECall e);
}
Input file grammar
The input file format is similar to Haskell data type declarations,
with the special comment --visitor
.
datadecl ::= 'data' uppername '=' constructors visitors
constructor ::= uppername ['{' fieldlist '}']
fieldlist ::= fieldlist ',' field
| field
field ::= lowername '::' type
type ::= type atom
| atom
atom ::= name
| '[' type ']'
| '(' type ')'
visitor ::= '--visitor' type name
Limitations
- Visitors do not support mutually recursive data types.
- Record types with same constructor name as record name do not produce valid Java. E.g.
creates two classes with namedata R = R { f :: A }
R
and subsequent Java compilation errors.
Changes
Changelog for java-adt
0.2018.11.4
- fixed compilation with ghc-8.4.4 and ghc-8.6.1