Examples of edu.mit.csail.sdg.alloy4.XMLNode$XMLParser

• edu.mit.csail.sdg.alloy4.ErrorType
  Simple parser based on XML Specification 1.0 taking into account XML Specification Errata up to 2008/Jan/18.

        try {
            for(XMLNode sub:tuple) if (sub.is("atom")) {
                Tuple x = factory.tuple(sub.getAttribute("label"));
                if (ans==null) ans=x; else ans=ans.product(x);
            }
            if (ans==null) throw new ErrorFatal("Expecting: <tuple> <atom label=\"..\"/> .. </tuple>");
            if (ans.arity()!=arity) throw new ErrorFatal("Expecting: tuple of arity "+arity+" but got tuple of arity "+ans.arity());
            return ans;
        } catch(Throwable ex) {
            throw new ErrorFatal("Expecting: <tuple> <atom label=\"..\"/> .. </tuple>", ex);
        }
    }

       try {
          if (sigs == null) sigs = new ArrayList<Sig>();
          A4SolutionReader x = new A4SolutionReader(sigs, xml);
          return x.sol;
       } catch(Throwable ex) {
          if (ex instanceof Err) throw ((Err)ex); else throw new ErrorFatal("Fatal error occured: "+ex, ex);
       }
    }

        this.root = root;
        this.bitwidth = bitwidth;
        this.maxseq = maxseq;
        this.callbacks = new HashMap<Func,SimCallback>();
        if (bitwidth==32) { max=Integer.MAX_VALUE; min=Integer.MIN_VALUE; } else { max=(1<<(bitwidth-1))-1; min=(0-max)-1; }
        if (maxseq < 0)   throw new ErrorSyntax("The maximum sequence length cannot be negative.");
        if (maxseq > max) throw new ErrorSyntax("With integer bitwidth of "+bitwidth+", you cannot have sequence length longer than "+max);
        shiftmask = (1 << (32 - Integer.numberOfLeadingZeros(bitwidth-1))) - 1;
    }

        final int n = f.count();
        final Object candidate = n==0 ? cacheForConstants.get(f) : null;
        if (candidate!=null) return candidate;
        final Expr body = f.getBody();
        if (body.type().arity()<0 || body.type().arity()!=f.returnDecl.type().arity()) throw new ErrorType(body.span(), "Function return value not fully resolved.");
        for(Func ff:current_function) if (ff==f) throw new ErrorSyntax(x.span(), ""+f+" cannot call itself recursively!");
        Env<ExprVar,Object> newenv = new Env<ExprVar,Object>();
        List<SimTupleset> list = new ArrayList<SimTupleset>(x.args.size());
        for(int i=0; i<n; i++) { SimTupleset ts = cset(x.args.get(i)); newenv.put(f.get(i), ts);  list.add(ts); }
        final SimCallback cb = callbacks.get(f);
        if (cb!=null) {

           allsigs.add(s);
           choices.add(s);
           for(Field f:s.getFields()) choices.add(f);
       }
       // find <instance>..</instance>
       if (!xml.is("alloy")) throw new ErrorSyntax("The XML file's root node must be <alloy> or <instance>.");
       XMLNode inst = null;
       for(XMLNode sub: xml) if (sub.is("instance")) { inst=sub; break; }
       if (inst==null) throw new ErrorSyntax("The XML file must contain an <instance> element.");
       // set up the basic values of the A4Solution object
       final int bitwidth = Integer.parseInt(inst.getAttribute("bitwidth"));
       final int maxseq = Integer.parseInt(inst.getAttribute("maxseq"));
       final int max = (1<<(bitwidth-1))-1, min = 0-(1<<(bitwidth-1));
       if (bitwidth>=1 && bitwidth<=30) for(int i=min; i<=max; i++) { atoms.add(Integer.toString(i)); }

        }
    }

    /** Construct a new simulation context with the given bitwidth and the given maximum sequence length. */
    public SimInstance(Module root, int bitwidth, int maxseq) throws Err {
        if (bitwidth<1 || bitwidth>32) throw new ErrorType("Bitwidth must be between 1 and 32.");
        this.root = root;
        this.bitwidth = bitwidth;
        this.maxseq = maxseq;
        this.callbacks = new HashMap<Func,SimCallback>();
        if (bitwidth==32) { max=Integer.MAX_VALUE; min=Integer.MIN_VALUE; } else { max=(1<<(bitwidth-1))-1; min=(0-max)-1; }

    /** Initializes the given sig to be associated with the given unary value; should only be called at the beginning.
     * <p> The resulting instance may or may not satisfy all facts, and should be checked for consistency.
     */
    public void init(Sig sig, SimTupleset value) throws Err {
        if (value==null) { sfs.remove(sig); return; }
        if (value.arity()>1) throw new ErrorType("Evaluator encountered an error: sig "+sig.label+" arity must not be " + value.arity());
        if (sig.builtin) throw new ErrorAPI("Evaluator cannot prebind the builtin sig \"" + sig.label + "\"");
        sfs.put(sig, value);
        cacheUNIV = null;
        cacheSTRING = null;
        cacheForConstants.clear();

    /** Initializes the given field to be associated with the given unary value; should only be called at the beginning.
     * <p> The resulting instance may or may not satisfy all facts, and should be checked for consistency.
     */
    public void init(Field field, SimTupleset value) throws Err {
        if (value==null) { sfs.remove(field); return; }
        if (!value.empty() && value.arity()!=field.type().arity()) throw new ErrorType("Evaluator encountered an error: field "+field.label+" arity must not be " + value.arity());
        if (field.defined) throw new ErrorAPI("Evaluator cannot prebind the value of a defined field.");
        sfs.put(field, value);
        cacheUNIV = null;
        cacheSTRING = null;
        cacheForConstants.clear();

    /** Initializes the given var to be associated with the given unary value; should only be called at the beginning.
     * <p> The resulting instance may or may not satisfy all facts, and should be checked for consistency.
     */
    public void init(ExprVar var, SimTupleset value) throws Err {
        if (value==null) { sfs.remove(var); return; }
        if (!value.empty() && value.arity()!=var.type().arity()) throw new ErrorType("Evaluator encountered an error: skolem "+var.label+" arity must not be " + value.arity());
        sfs.put(var, value);
        cacheUNIV = null;
        cacheSTRING = null;
        cacheForConstants.clear();
    }

        final Func f = x.fun;
        final int n = f.count();
        final Object candidate = n==0 ? cacheForConstants.get(f) : null;
        if (candidate!=null) return candidate;
        final Expr body = f.getBody();
        if (body.type().arity()<0 || body.type().arity()!=f.returnDecl.type().arity()) throw new ErrorType(body.span(), "Function return value not fully resolved.");
        for(Func ff:current_function) if (ff==f) throw new ErrorSyntax(x.span(), ""+f+" cannot call itself recursively!");
        Env<ExprVar,Object> newenv = new Env<ExprVar,Object>();
        List<SimTupleset> list = new ArrayList<SimTupleset>(x.args.size());
        for(int i=0; i<n; i++) { SimTupleset ts = cset(x.args.get(i)); newenv.put(f.get(i), ts);  list.add(ts); }
        final SimCallback cb = callbacks.get(f);