/** * Checks if the specified step will never yield results. * * @param rt root value * @param s index of step * @return {@code true} if steps will never yield results */ private boolean emptyPath(final Value rt, final int s) { final Step step = axisStep(s); if (step == null) return false; final Axis axis = step.axis; if (s == 0) { // first location step: if (root instanceof CAttr) { // @.../child:: / @.../descendant:: if (axis == CHILD || axis == DESC) return true; } else if (root instanceof Root || root instanceof CDoc || rt != null && rt.type == NodeType.DOC) { if (axis == SELF || axis == ANCORSELF) { if (step.test != Test.NOD && step.test != Test.DOC) return true; } else if (axis == CHILD || axis == DESC) { if (step.test == Test.DOC || step.test == Test.ATT) return true; } else if (axis == DESCORSELF) { if (step.test == Test.ATT) return true; } else { return true; } } } else { // remaining steps: final Step last = axisStep(s - 1); if (last == null) return false; // .../self:: / .../descendant-or-self:: if (axis == SELF || axis == DESCORSELF) { if (step.test == Test.NOD) return false; // @.../..., text()/... if (last.axis == ATTR && step.test.type != NodeType.ATT || last.test == Test.TXT && step.test != Test.TXT) return true; if (axis == DESCORSELF) return false; // .../self:: final QNm name = step.test.name, lastName = last.test.name; if (lastName == null || name == null || lastName.local().length == 0 || name.local().length == 0) return false; // ...X/...Y return !name.eq(lastName); } // .../following-sibling:: / .../preceding-sibling:: if (axis == FOLLSIBL || axis == PRECSIBL) return last.axis == ATTR; // .../descendant:: / .../child:: / .../attribute:: if (axis == DESC || axis == CHILD || axis == ATTR) return last.axis == ATTR || last.test == Test.TXT || last.test == Test.COM || last.test == Test.PI || axis == ATTR && step.test == Test.NSP; // .../parent:: / .../ancestor:: if (axis == PARENT || axis == ANC) return last.test == Test.DOC; } return false; }
/** * Reads an element as a gml node. Returns a geometry element or {@code null} if the element does * not match one of the specified types. * * @param node xml node containing gml object(s) * @param names allowed geometry types * @return geometry, or {@code null} * @throws QueryException query exception */ private static Geometry geo(final ANode node, final QNm... names) throws QueryException { if (node.type != NodeType.ELM) throw EXPTYPE_X_X_X.get(null, NodeType.ELM, node.type, node); final QNm qname = node.qname(); for (final QNm geo : names) { if (!qname.eq(geo)) continue; // type found... create reader and geometry element try { final String input = node.serialize().toString(); final GMLReader gmlReader = new GMLReader(); final GeometryFactory geoFactory = new GeometryFactory(); return gmlReader.read(input, geoFactory); } catch (final Throwable ex) { throw GeoErrors.gmlReaderErr(ex); } } return null; }
/** * Returns an index to the specified function, or {@code -1}. * * @param name name of the function * @param args optional arguments * @return function instance */ private int indexOf(final QNm name, final Expr[] args) { for (int id = 0; id < funcs.length; ++id) { if (name.eq(funcs[id].name) && args.length == funcs[id].args.length) return id; } return -1; }
/** * Checks if the location path contains steps that will never yield results. * * @param stps step array * @param ctx query context */ void voidStep(final Expr[] stps, final QueryContext ctx) { for (int l = 0; l < stps.length; ++l) { final Step s = axisStep(l); if (s == null) continue; final Axis sa = s.axis; if (l == 0) { if (root instanceof CAttr) { // @.../child:: / @.../descendant:: if (sa == CHILD || sa == DESC) { ctx.compInfo(WARNDESC, root); return; } } else if (root instanceof Root || root instanceof Value && ((Value) root).type == NodeType.DOC || root instanceof CDoc) { if (sa != CHILD && sa != DESC && sa != DESCORSELF && (sa != SELF && sa != ANCORSELF || s.test != Test.NOD && s.test != Test.DOC)) { ctx.compInfo(WARNDOC, root, sa); return; } } } else { final Step ls = axisStep(l - 1); if (ls == null) continue; final Axis lsa = ls.axis; boolean warning = true; if (sa == SELF || sa == DESCORSELF) { // .../self:: / .../descendant-or-self:: if (s.test == Test.NOD) continue; // @.../..., text()/... warning = lsa == ATTR && s.test.type != NodeType.ATT || ls.test == Test.TXT && s.test != Test.TXT; if (!warning) { if (sa == DESCORSELF) continue; // .../self:: final QNm n0 = ls.test.name; final QNm n1 = s.test.name; if (n0 == null || n1 == null || n0.local().length == 0 || n1.local().length == 0) continue; // ...X/...Y warning = !n1.eq(n0); } } else if (sa == FOLLSIBL || sa == PRECSIBL) { // .../following-sibling:: / .../preceding-sibling:: warning = lsa == ATTR; } else if (sa == DESC || sa == CHILD || sa == ATTR) { // .../descendant:: / .../child:: / .../attribute:: warning = lsa == ATTR || ls.test == Test.TXT || ls.test == Test.COM || ls.test == Test.PI || sa == ATTR && s.test == Test.NSP; } else if (sa == PARENT || sa == ANC) { // .../parent:: / .../ancestor:: warning = ls.test == Test.DOC; } if (warning) { ctx.compInfo(WARNSELF, s); return; } } } }