public boolean isString() { return resolve().isString(); } public boolean isNumeric() { return resolve().isNumeric(); }
public boolean isString() { return resolve().isString(); } public boolean isNumeric() { return resolve().isNumeric(); }
if (rExp.isString()) { if (rExp.asString().equalsIgnoreCase("true")) { return stringTrue; if (rExp.isString()) { for (String s : rExp.asStrings()) { boolResult.add(s.equalsIgnoreCase("true") ? stringTrue : stringFalse); return new Double(rExp.asDoubles()[0]); if (rExp.isString()) { if (rExp.isString()) { return new Integer((int) rExp.asDoubles()[0]); if (rExp.isString()) { if (rExp.isString()) { return (Arrays.toString(rExp.asDoubles())); if (rExp.isString()) { if (rExp.isString()) { for (String s : rExp.asStrings()) { stringResult.add(s);
result = doubleArray[0]; } else if (rexp.isString()) {
if (xt==XT_LIST_TAG || xt==XT_LANG_TAG) { o = nf.parseREXP(buf, o); if (nf.cont.isSymbol() || nf.cont.isString()) name = nf.cont.asString(); o = tagf.parseREXP(buf, o); if (tagf.cont != null && (tagf.cont.isString() || tagf.cont.isSymbol())) rootList.setKeyAt(elIndex, tagf.cont.asString()); REXP nam = getAttr().asList().at("names"); String names[] = null; if (nam.isString()) names = nam.asStrings(); else if (nam.isVector()) { // names could be a vector if supplied by old Rserve RList l = nam.asList();
if (xt==XT_LIST_TAG || xt==XT_LANG_TAG) { o = nf.parseREXP(buf, o); if (nf.cont.isSymbol() || nf.cont.isString()) name = nf.cont.asString(); o = tagf.parseREXP(buf, o); if (tagf.cont != null && (tagf.cont.isString() || tagf.cont.isSymbol())) rootList.setKeyAt(elIndex, tagf.cont.asString()); REXP nam = getAttr().asList().at("names"); String names[] = null; if (nam.isString()) names = nam.asStrings(); else if (nam.isVector()) { // names could be a vector if supplied by old Rserve RList l = nam.asList();
doubleOutput.emit(retVal.asDouble()); } else if (retVal.isString()) { len = retVal.length();
doubleOutput.emit(retVal.asDouble()); } else if (retVal.isString()) { len = retVal.length();