Exemplo n.º 1
0
    @Override
    public RNode create(ASTNode call, RSymbol[] names, RNode[] exprs) {
        ArgumentInfo ia = check(call, names, exprs);
        final int posExpr = ia.position("expr");

        return new Builtin(call, names, exprs) {

            @Override
            public RAny doBuiltIn(Frame frame, RAny[] args) {
                return RString.RStringFactory.getScalar(AsBase.deparse(args[posExpr], false));
            }

        };
    }
Exemplo n.º 2
0
    @Override public RNode create(ASTNode call, RSymbol[] names, RNode[] exprs) {
        final ArgumentInfo ia = check(call, names, exprs);
        final int posText = ia.position("text");
        final int posLast = ia.position("last");
        final int posFirst = ia.position("first");
        final RDouble defaultLast = RDouble.RDoubleFactory.getScalar(1000000); // FIXME slow, but perhaps the default is not used, anyway
        return new Builtin(call, names, exprs) {
            @Override public RAny doBuiltIn(Frame frame, RAny[] args) {
                RString text = args[posText].asString();
                warn.naIntroduced = false;
                RDouble first = args[posFirst].asDouble(warn);
                RDouble last;
                last = posLast != -1 ? args[posLast].asDouble(warn) : defaultLast;

                RString res = substring(text, first, last, ast);
                if (warn.naIntroduced) {
                    RContext.warning(ast, RError.NA_INTRODUCED_COERCION);
                }
                return res;
            }
        };
    }
Exemplo n.º 3
0
    @Override public RNode create(ASTNode call, RSymbol[] names, RNode[] exprs) {
        ArgumentInfo ia = check(call, names, exprs);
        boolean product = false;
        if (ia.provided("FUN")) {
            RNode fnode = exprs[ia.position("FUN")];
            if (fnode instanceof Constant) {
                RAny value = ((Constant) fnode).execute(null);
                if (value instanceof RString) {
                    RString str = (RString) value;
                    if (str.size() == 1) {
                        if (str.getString(0).equals("*")) {
                            product = true;
                        }
                    }
                }
            }
        } else {
            product = true;
        }
        if (product) {
            return new MatrixOperation.OuterProduct(call, exprs[ia.position("X")], exprs[ia.position("Y")]);
        }

        int cnArgs = 2 + names.length - 3; // "-2" because both FUN, X, Y
        RSymbol[] cnNames = new RSymbol[cnArgs];
        RNode[] cnExprs = new RNode[cnArgs];
        cnNames[0] = null;
        ValueProvider xArgProvider = new ValueProvider(call);
        cnExprs[0] = xArgProvider;
        ValueProvider yArgProvider = new ValueProvider(call);
        cnExprs[1] = yArgProvider;
        ValueProvider[] constantArgProviders = new ValueProvider[cnArgs];
        int j = 0;
        for (int i = 0; i < names.length; i++) {
            if (ia.position("X") == i || ia.position("Y") == i || ia.position("FUN") == i) {
                continue;
            }
            cnNames[2 + j] = names[i];
            ValueProvider vp = new ValueProvider(call);
            cnExprs[2 + j] = vp;
            constantArgProviders[j] = vp;
            j++;
        }

        RNode funExpr = exprs[ia.position("FUN")];
        final CallableProvider callableProvider = new CallableProvider(funExpr.getAST(), funExpr);
        final RNode callNode = FunctionCall.getFunctionCall(call, callableProvider, cnNames, cnExprs);
        final int posX = ia.position("X");
        final int posY = ia.position("Y");
        final int posFUN = ia.position("FUN");

        return new OuterBuiltIn(call, names, exprs, callNode, callableProvider, xArgProvider, yArgProvider, constantArgProviders) {
            @Override public RAny doBuiltIn(Frame frame, RAny[] args) {
                RAny argx = null;
                RAny argy = null;
                RAny argfun = null;
                int k = 0;
                for (int i = 0; i < args.length; i++) {
                    if (i == posX) {
                        argx = args[i];
                    } else if (i == posY) {
                        argy = args[i];
                    } else if (i == posFUN) {
                        argfun = args[i];
                    } else {
                        constantArgProviders[k].setValue(args[i]);
                        k++;
                    }
                }
                return outer(frame, argx, argy, argfun);
            }
        };
    }