package edu.neu.ccs.demeterf.examples; import edu.neu.ccs.demeterf.*; /** Container Checking using the Transform Library * Uses a type-unifying traversal to produce the violations * and total weight of each Container (C) */ // Main Test Class public class ContainerTest{ public static void main(String args[]){ I i = new C(10, List.from(new E(5), new C(8, List.from( new C(6, List.from(new E(2),new E(4))), new E(3))))); Pair p = new Traversal(new Check()).traverse(i); System.out.println(" Item = "+i); System.out.println(" Weight = "+p.w); System.out.println(" Violations = "+p.v); } // Items static abstract class I{ public String toString(){ return new Traversal(new ID(){ String combine(C ct, int c, String is){ return "C["+c+", "+is+"]"; } String combine(E e, int w){ return "E["+w+"]"; } String combine(Empty l){ return ""; } String combine(Cons c, String f, String r){ return "("+f+r+")"; } }).traverse(this); } } // Containers static class C extends I{ int cap; List items; C(int c, List i){ cap = c; items = i; } } // Elements static class E extends I{ int weight; E(int w){ weight = w; } } // ItemLists static abstract class List{ static List from(I ... items){ List list = new Empty(); for(I i:items)list = new Cons(i,list); return list; } } // Cons ItemList static class Cons extends List{ I first; List rest; Cons(I f, List r){ first = f; rest = r; } } // Empty ItemList static class Empty extends List{} // Pair of ints, static class Pair{ int w,v; Pair(int ww, int vv){ w = ww; v = vv; } static Pair make(int ww, int vv){ return new Pair(ww,vv); } Pair add(int ww, int vv){ return make(w+ww,v+vv); } Pair add(Pair p){ return make(w+p.w,v+p.v); } } // Checker, Type-unifying to Pair(int,int) static class Check extends ID{ Pair combine(E e, int i){ return Pair.make(e.weight,0); } Pair combine(C c, int i, Pair wv){ return wv.add(0, (wv.w > c.cap)?1:0); } Pair combine(Empty l){ return Pair.make(0,0); } Pair combine(Cons l, Pair f, Pair r){ return f.add(r); } } }