/**
* 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;
}
/**
* Converts descendant to child steps.
*
* @param qc query context
* @param rt root value
* @return original or new expression
*/
private Expr children(final QueryContext qc, final Value rt) {
// skip if index does not exist or is out-dated, or if several namespaces occur in the input
final Data data = rt.data();
if (data == null || !data.meta.uptodate || data.nspaces.globalNS() == null) return this;
Path path = this;
final int sl = steps.length;
for (int s = 0; s < sl; s++) {
// don't allow predicates in preceding location steps
final Step prev = s > 0 ? axisStep(s - 1) : null;
if (prev != null && prev.preds.length != 0) break;
// ignore axes other than descendant, or numeric predicates
final Step curr = axisStep(s);
if (curr == null || curr.axis != DESC || curr.has(Flag.FCS)) continue;
// check if child steps can be retrieved for current step
ArrayList<PathNode> nodes = pathNodes(data, s);
if (nodes == null) continue;
// cache child steps
final ArrayList<QNm> qnm = new ArrayList<>();
while (nodes.get(0).parent != null) {
QNm nm = new QNm(data.elemNames.key(nodes.get(0).name));
// skip children with prefixes
if (nm.hasPrefix()) return this;
for (final PathNode p : nodes) {
if (nodes.get(0).name != p.name) nm = null;
}
qnm.add(nm);
nodes = PathSummary.parent(nodes);
}
qc.compInfo(OPTCHILD, steps[s]);
// build new steps
int ts = qnm.size();
final Expr[] stps = new Expr[ts + sl - s - 1];
for (int t = 0; t < ts; t++) {
final Expr[] preds = t == ts - 1 ? ((Preds) steps[s]).preds : new Expr[0];
final QNm nm = qnm.get(ts - t - 1);
final NameTest nt =
nm == null ? new NameTest(false) : new NameTest(nm, Kind.NAME, false, null);
stps[t] = Step.get(info, CHILD, nt, preds);
}
while (++s < sl) stps[ts++] = steps[s];
path = get(info, root, stps);
break;
}
// check if all steps yield results; if not, return empty sequence
final ArrayList<PathNode> nodes = pathNodes(qc);
if (nodes != null && nodes.isEmpty()) {
qc.compInfo(OPTPATH, path);
return Empty.SEQ;
}
return path;
}
/**
* Finds similar function names and throws an error message.
*
* @param name function name
* @param ii input info
* @throws QueryException query exception
*/
public void funError(final QNm name, final InputInfo ii) throws QueryException {
// find global function
Functions.get().error(name, ii);
// find similar local function
final Levenshtein ls = new Levenshtein();
final byte[] nm = lc(name.local());
for (final UserFunc f : funcs) {
if (ls.similar(nm, lc(f.name.local()), 0)) {
FUNSIMILAR.thrw(ii, name.string(), f.name.string());
}
}
}
/**
* Functions on zip files.
*
* @author BaseX Team 2005-14, BSD License
* @author Christian Gruen
*/
abstract class ZipFn extends StandardFunc {
/** QName. */
static final QNm Q_FILE = QNm.get(ZIP_PREFIX, "file", ZIP_URI);
/** QName. */
static final QNm Q_DIR = QNm.get(ZIP_PREFIX, "dir", ZIP_URI);
/** QName. */
static final QNm Q_ENTRY = QNm.get(ZIP_PREFIX, "entry", ZIP_URI);
/** Attribute: href. */
static final byte[] HREF = token("href");
/** Attribute: name. */
static final byte[] NAME = token("name");
}
@Override
public String getMessage() {
final TokenBuilder tb = new TokenBuilder();
if (info != null) tb.add(STOPPED_AT).add(info.toString()).add(COL).add(NL);
final byte[] code = name.local();
if (code.length != 0) tb.add('[').add(name.prefixId(QueryText.ERROR_URI)).add("] ");
tb.add(getLocalizedMessage());
if (!stack.isEmpty()) {
tb.add(NL).add(NL).add(STACK_TRACE).add(COL);
for (final InputInfo ii : stack) tb.add(NL).add(LI).add(ii.toString());
}
return tb.toString();
}
/**
* Adds a local function.
*
* @param fun function instance
* @param ii input info
* @return function id
* @throws QueryException query exception
*/
public int add(final UserFunc fun, final InputInfo ii) throws QueryException {
final QNm name = fun.name;
final byte[] uri = name.uri();
if (uri.length == 0) FUNNONS.thrw(ii, name.string());
if (NSGlobal.reserved(uri)) {
if (fun.declared) NAMERES.thrw(ii, name.string());
funError(name, ii);
}
final byte[] ln = name.local();
for (int l = 0; l < funcs.length; ++l) {
final QNm qn = funcs[l].name;
final byte[] u = qn.uri();
final byte[] nm = qn.local();
if (eq(ln, nm) && eq(uri, u) && fun.args.length == funcs[l].args.length) {
// declare function that has been called before
if (!funcs[l].declared) {
funcs[l] = fun;
return l;
}
// duplicate declaration
FUNCDEFINED.thrw(ii, fun.name.string());
}
}
// add function skeleton
funcs = Array.add(funcs, fun);
calls = Array.add(calls, new UserFuncCall[0]);
return funcs.length - 1;
}
/**
* Returns the specified function.
*
* @param name function qname
* @param args optional arguments
* @param ii input info
* @return function instance
* @throws QueryException query exception
*/
public StandardFunc get(final QNm name, final Expr[] args, final InputInfo ii)
throws QueryException {
final int id = id(name.id());
if (id == 0) return null;
// create function
final Function fl = funcs[id];
if (!eq(fl.uri(), name.uri())) return null;
final StandardFunc f = fl.get(ii, args);
// check number of arguments
if (args.length < fl.min || args.length > fl.max) XPARGS.thrw(ii, fl);
return f;
}
/**
* 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;
}
/**
* Throws an error if one of the pre-defined functions is similar to the specified function name.
*
* @param name function name
* @param ii input info
* @throws QueryException query exception
*/
public void error(final QNm name, final InputInfo ii) throws QueryException {
// compare specified name with names of predefined functions
final byte[] ln = name.local();
final Levenshtein ls = new Levenshtein();
for (int k = 1; k < size; ++k) {
final int i = indexOf(keys[k], '}');
final byte[] u = substring(keys[k], 2, i);
final byte[] l = substring(keys[k], i + 1);
if (eq(ln, l)) {
final byte[] ur = name.uri();
FUNSIMILAR.thrw(
ii,
new TokenBuilder(NSGlobal.prefix(ur)).add(':').add(l),
new TokenBuilder(NSGlobal.prefix(u)).add(':').add(l));
} else if (ls.similar(ln, l, 0)) {
FUNSIMILAR.thrw(ii, name.string(), l);
}
}
}
/**
* Parses a jar descriptor.
*
* @param io XML input
* @return jar descriptor container
* @throws QueryException query exception
*/
public JarDesc parse(final IO io) throws QueryException {
final JarDesc desc = new JarDesc();
try {
final ANode node = new DBNode(io).children().next();
for (final ANode next : node.children()) {
if (next.type != NodeType.ELM) continue;
final QNm name = next.qname();
// ignore namespace to improve compatibility
if (eq(JAR, name.local())) desc.jars.add(next.string());
else if (eq(CLASS, name.local())) desc.classes.add(next.string());
// [CG] Packaging: add warning if unknown elements are encountered
}
if (desc.jars.isEmpty()) throw BXRE_JARDESC_X.get(info, NOJARS);
else if (desc.classes.isEmpty()) throw BXRE_JARDESC_X.get(info, NOCLASSES);
return desc;
} catch (final IOException ex) {
throw BXRE_JARFAIL_X.get(info, ex);
}
}
/**
* Returns a new Java function instance.
*
* @param name function name
* @param args arguments
* @param qc query context
* @param sc static context
* @param ii input info
* @return Java function or {@code null}
* @throws QueryException query exception
*/
static JavaMapping get(
final QNm name,
final Expr[] args,
final QueryContext qc,
final StaticContext sc,
final InputInfo ii)
throws QueryException {
final byte[] uri = name.uri();
// check if URI starts with "java:" prefix (if yes, module must be Java code)
final boolean java = startsWith(uri, JAVAPREF);
// rewrite function name: convert dashes to upper-case initials
final String local = camelCase(string(name.local()));
// check imported Java modules
final String path = camelCase(toPath(java ? substring(uri, JAVAPREF.length) : uri));
final ModuleLoader modules = qc.resources.modules();
final Object jm = modules.findImport(path);
if (jm != null) {
final Method meth = getModMethod(jm, path, local, args.length, qc, ii);
if (meth != null) return new JavaModuleFunc(sc, ii, jm, meth, args);
}
// only allowed with administrator permissions
if (!qc.context.user.has(Perm.ADMIN)) return null;
// check addressed class
try {
return new JavaFunc(sc, ii, modules.findClass(path), local, args);
} catch (final ClassNotFoundException ex) {
// only throw exception if "java:" prefix was explicitly specified
if (java) throw FUNCJAVA_X.get(ii, path);
} catch (final Throwable th) {
throw JAVAINIT_X.get(ii, th);
}
// no function found
return null;
}
/**
* Returns a parameter.
*
* @param value value
* @param name name
* @param declared variable declaration flags
* @return parameter
* @throws QueryException HTTP exception
*/
private RestXqParam param(final Value value, final QNm name, final boolean[] declared)
throws QueryException {
// [CG] RESTXQ: allow identical field names?
final long vs = value.size();
if (vs < 2) error(ANN_PARAMS, "%", name.string(), 2);
// name of parameter
final String key = toString(value.itemAt(0), name);
// variable template
final QNm qnm = checkVariable(toString(value.itemAt(1), name), declared);
// default value
final ValueBuilder vb = new ValueBuilder();
for (int v = 2; v < vs; v++) vb.add(value.itemAt(v));
return new RestXqParam(qnm, key, vb.value());
}
@Override
public void compile(final QueryContext ctx) throws QueryException {
if (compiled) return;
compiled = true;
if (check) {
final StaticFunc sf = ctx.funcs.get(name, args.length, info);
if (sf == null) throw Err.FUNCUNKNOWN.thrw(info, name.string());
type = sf.funcType().seqType();
}
final int fp = scope.enter(ctx);
try {
expr = expr.compile(ctx, scope);
expr.markTailCalls();
} finally {
scope.cleanUp(this);
scope.exit(ctx, fp);
}
}
/**
* Returns an instance of a with the specified name and number of arguments, or {@code null}.
*
* @param name name of the function
* @param args optional arguments
* @param dyn compile-/run-time flag
* @param ctx query context
* @param ii input info
* @return function instance
* @throws QueryException query exception
*/
public static TypedFunc get(
final QNm name,
final Expr[] args,
final boolean dyn,
final QueryContext ctx,
final InputInfo ii)
throws QueryException {
// get namespace and local name
// parse data type constructors
if (eq(name.uri(), XSURI)) {
final byte[] ln = name.local();
final AtomType type = AtomType.find(name, false);
if (type == null) {
final Levenshtein ls = new Levenshtein();
for (final AtomType t : AtomType.values()) {
if (t.par != null
&& t != AtomType.NOT
&& t != AtomType.AAT
&& t != AtomType.BIN
&& ls.similar(lc(ln), lc(t.string()), 0))
FUNSIMILAR.thrw(ii, name.string(), t.string());
}
}
// no constructor function found, or abstract type specified
if (type == null || type == AtomType.NOT || type == AtomType.AAT) {
FUNCUNKNOWN.thrw(ii, name.string());
}
if (args.length != 1) FUNCTYPE.thrw(ii, name.string());
final SeqType to = SeqType.get(type, Occ.ZERO_ONE);
return TypedFunc.constr(new Cast(ii, args[0], to), to);
}
// pre-defined functions
final StandardFunc fun = Functions.get().get(name, args, ii);
if (fun != null) {
if (!ctx.sc.xquery3 && fun.xquery3()) FEATURE30.thrw(ii);
for (final Function f : Function.UPDATING) {
if (fun.sig == f) {
ctx.updating(true);
break;
}
}
return new TypedFunc(fun, fun.sig.type(args.length));
}
// user-defined function
final TypedFunc tf = ctx.funcs.get(name, args, ii);
if (tf != null) return tf;
// Java function (only allowed with administrator permissions)
final JavaMapping jf = JavaMapping.get(name, args, ctx, ii);
if (jf != null) return TypedFunc.java(jf);
// add user-defined function that has not been declared yet
if (!dyn && FuncType.find(name) == null) return ctx.funcs.add(name, args, ii, ctx);
// no function found
return null;
}
/**
* 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;
}
}
}
}
/**
* Converts descendant to child steps.
*
* @param ctx query context
* @param data data reference
* @return path
*/
Expr children(final QueryContext ctx, final Data data) {
// skip path check if no path index exists, or if it is out-of-date
if (!data.meta.uptodate || data.nspaces.globalNS() == null) return this;
Path path = this;
for (int s = 0; s < steps.length; ++s) {
// don't allow predicates in preceding location steps
final Step prev = s > 0 ? axisStep(s - 1) : null;
if (prev != null && prev.preds.length != 0) break;
// ignore axes other than descendant, or numeric predicates
final Step curr = axisStep(s);
if (curr == null || curr.axis != DESC || curr.has(Flag.FCS)) continue;
// check if child steps can be retrieved for current step
ArrayList<PathNode> pn = pathNodes(data, s);
if (pn == null) continue;
// cache child steps
final ArrayList<QNm> qnm = new ArrayList<>();
while (pn.get(0).par != null) {
QNm nm = new QNm(data.tagindex.key(pn.get(0).name));
// skip children with prefixes
if (nm.hasPrefix()) return this;
for (final PathNode p : pn) {
if (pn.get(0).name != p.name) nm = null;
}
qnm.add(nm);
pn = PathSummary.parent(pn);
}
ctx.compInfo(OPTCHILD, steps[s]);
// build new steps
int ts = qnm.size();
final Expr[] stps = new Expr[ts + steps.length - s - 1];
for (int t = 0; t < ts; ++t) {
final Expr[] preds = t == ts - 1 ? ((Preds) steps[s]).preds : new Expr[0];
final QNm nm = qnm.get(ts - t - 1);
final NameTest nt =
nm == null ? new NameTest(false) : new NameTest(nm, Mode.LN, false, null);
stps[t] = Step.get(info, CHILD, nt, preds);
}
while (++s < steps.length) stps[ts++] = steps[s];
path = get(info, root, stps);
break;
}
// check if the all children in the path exist; don't test with namespaces
if (data.nspaces.size() == 0) {
LOOP:
for (int s = 0; s < path.steps.length; ++s) {
// only verify child steps; ignore namespaces
final Step st = path.axisStep(s);
if (st == null || st.axis != CHILD) break;
if (st.test.mode == Mode.ALL || st.test.mode == null) continue;
if (st.test.mode != Mode.LN) break;
// check if one of the addressed nodes is on the correct level
final int name = data.tagindex.id(st.test.name.local());
for (final PathNode pn : data.paths.desc(name, Data.ELEM)) {
if (pn.level() == s + 1) continue LOOP;
}
ctx.compInfo(OPTPATH, path);
return Empty.SEQ;
}
}
return path;
}
@Override
public String toString() {
return new TokenBuilder(name.string()).add('#').addExt(args.length).toString();
}
@Override
public Item item(final QueryContext qc, final InputInfo ii) throws QueryException {
final ANode node = toEmptyNode(arg(0, qc), qc);
final QNm qname = node != null ? node.qname() : null;
return qname != null ? Uri.uri(qname.uri(), false) : Uri.EMPTY;
}
/**
* This module contains geo spatial functions for the Geo module.
*
* @author BaseX Team 2005-14, BSD License
* @author Masoumeh Seydi
*/
public final class Geo extends QueryModule {
/** GML URI. */
private static final byte[] URI = token("http://www.opengis.net/gml");
/** Prefix: "gml". */
private static final String GML = "gml";
/** QName gml:Point. */
private static final QNm Q_GML_POINT = QNm.get(GML, "Point", URI);
/** QName gml:MultiPoint. */
private static final QNm Q_GML_MULTIPOINT = QNm.get(GML, "MultiPoint", URI);
/** QName gml:LineString. */
private static final QNm Q_GML_LINESTRING = QNm.get(GML, "LineString", URI);
/** QName gml:LinearRing. */
private static final QNm Q_GML_LINEARRING = QNm.get(GML, "LinearRing", URI);
/** QName gml:Polygon. */
private static final QNm Q_GML_POLYGON = QNm.get(GML, "Polygon", URI);
/** QName gml:MultiPolygon. */
private static final QNm Q_GML_MULTIPOLYGON = QNm.get(GML, "MultiPolygon", URI);
/** QName gml:MultiLineString. */
private static final QNm Q_GML_MULTILINESTRING = QNm.get(GML, "MultiLineString", URI);
/** Array containing all QNames. */
private static final QNm[] QNAMES = {
Q_GML_POINT,
Q_GML_LINESTRING,
Q_GML_POLYGON,
Q_GML_MULTIPOINT,
Q_GML_MULTILINESTRING,
Q_GML_MULTIPOLYGON,
Q_GML_LINEARRING
};
/**
* Returns the dimension of an item.
*
* @param node xml element containing gml object(s)
* @return dimension
* @throws QueryException query exception
*/
@Deterministic
public Int dimension(final ANode node) throws QueryException {
return Int.get(checkGeo(node).getDimension());
}
/**
* Returns the name of the geometry type in the GML namespace, or the empty sequence.
*
* @param node xml element containing gml object(s)
* @return geometry type
* @throws QueryException query exception
*/
@Deterministic
public QNm geometryType(final ANode node) throws QueryException {
return new QNm(GML + ':' + checkGeo(node).getGeometryType(), URI);
}
/**
* Returns the name of the geometry type in the GML namespace, or the empty sequence.
*
* @param node xml element containing gml object(s)
* @return integer value of CRS of the geometry
* @throws QueryException query exception
*/
@Deterministic
public Uri srid(final ANode node) throws QueryException {
return Uri.uri(token(checkGeo(node).getSRID()));
}
/**
* Returns the gml:Envelope of the specified geometry. The envelope is the minimum bounding box of
* this geometry.
*
* @param node xml element containing gml object(s)
* @return envelop element
* @throws QueryException query exception
*/
@Deterministic
public ANode envelope(final ANode node) throws QueryException {
return gmlWriter(checkGeo(node).getEnvelope());
}
/**
* Returns the WKT format of a geometry.
*
* @param node xml element containing gml object(s)
* @return Well-Known Text geometry representation
* @throws QueryException query exception
*/
@Deterministic
public Str asText(final ANode node) throws QueryException {
return Str.get(new WKTWriter().write(checkGeo(node)));
}
/**
* Returns the WKB format of a geometry.
*
* @param node xml element containing gml object(s)
* @return Well-Known Binary geometry representation
* @throws QueryException query exception
*/
@Deterministic
public B64 asBinary(final ANode node) throws QueryException {
return new B64(new WKBWriter().write(checkGeo(node)));
}
/**
* Returns a boolean value which shows if the specified geometry is empty or not.
*
* @param node xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln isEmpty(final ANode node) throws QueryException {
return Bln.get(node != null && checkGeo(node) != null);
}
/**
* Returns a boolean value which shows if the specified geometry is simple or not, which has no
* anomalous geometric points, such as self intersection or self tangency.
*
* @param node xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln isSimple(final ANode node) throws QueryException {
return Bln.get(checkGeo(node).isSimple());
}
/**
* Returns the boundary of the geometry, in GML. The return value is a sequence of either
* gml:Point or gml:LinearRing elements.
*
* @param node xml element containing gml object(s)
* @return boundary element (geometry)
* @throws QueryException query exception
*/
@Deterministic
public ANode boundary(final ANode node) throws QueryException {
return gmlWriter(checkGeo(node).getBoundary());
}
/**
* Returns a boolean value that shows if two geometries are equal or not.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln equals(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.equals(geo2));
}
/**
* Returns a boolean value that shows if this geometry is disjoint to another geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln disjoint(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.disjoint(geo2));
}
/**
* Returns a boolean value that shows if this geometry intersects another geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln intersects(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.intersects(geo2));
}
/**
* Returns a boolean value that shows if this geometry touches the specified geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln touches(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.touches(geo2));
}
/**
* Returns a boolean value that shows if this geometry crosses the specified geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln crosses(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.crosses(geo2));
}
/**
* Returns a boolean value that shows if this geometry is within the specified geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln within(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.within(geo2));
}
/**
* Returns a boolean value that shows if this geometry contains the specified geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln contains(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.contains(geo2));
}
/**
* Returns a boolean value that shows if this geometry overlaps the specified geometry.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln overlaps(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.overlaps(geo2));
}
/**
* Returns a boolean value that shows if whether relationships between the boundaries, interiors
* and exteriors of two geometries match the pattern specified in intersection-matrix-pattern.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @param intersectionMatrix intersection matrix for two geometries
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln relate(final ANode node1, final ANode node2, final Str intersectionMatrix)
throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Bln.get(geo1.relate(geo2, intersectionMatrix.toJava()));
}
/**
* Returns the shortest distance in the units of the spatial reference system of geometry, between
* the geometries. The distance is the distance between a point on each of the geometries.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return distance double value
* @throws QueryException query exception
*/
@Deterministic
public Dbl distance(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return Dbl.get(geo1.distance(geo2));
}
/**
* Returns a polygon that represents all Points whose distance from this geometric object is less
* than or equal to distance. The returned element must be either gml:Polygon, gml:LineString or
* gml:Point.
*
* @param node xml element containing gml object(s)
* @param distance specific distance from the $geometry (the buffer width)
* @return buffer geometry as gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode buffer(final ANode node, final Dbl distance) throws QueryException {
return gmlWriter(checkGeo(node).buffer(distance.dbl()));
}
/**
* Returns the convex hull geometry of a geometry in GML, or the empty sequence. The returned
* element must be either gml:Polygon, gml:LineString or gml:Point.
*
* @param node xml element containing gml object(s)
* @return convex hull geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode convexHull(final ANode node) throws QueryException {
return gmlWriter(checkGeo(node).convexHull());
}
/**
* Returns a geometric object representing the Point set intersection of two geometries.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return intersection geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode intersection(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return gmlWriter(geo1.intersection(geo2));
}
/**
* Returns a geometric object that represents the Point set union of two geometries.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return union geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode union(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return gmlWriter(geo1.union(geo2));
}
/**
* Returns a geometric object that represents the Point set difference of two geometries.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return difference geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode difference(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return gmlWriter(geo1.difference(geo2));
}
/**
* Returns a geometric object that represents the Point set symmetric difference of two
* geometries.
*
* @param node1 xml element containing gml object(s)
* @param node2 xml element containing gml object(s)
* @return symmetric difference geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode symDifference(final ANode node1, final ANode node2) throws QueryException {
final Geometry geo1 = checkGeo(node1);
final Geometry geo2 = checkGeo(node2);
return gmlWriter(geo1.symDifference(geo2));
}
/**
* Returns number of geometries in a geometry collection, or 1 if the input is not a collection.
*
* @param node xml element containing gml object(s)
* @return integer value of number of geometries
* @throws QueryException query exception
*/
@Deterministic
public Int numGeometries(final ANode node) throws QueryException {
return Int.get(checkGeo(node).getNumGeometries());
}
/**
* Returns the nth geometry of a geometry collection, or the geometry if the input is not a
* collection.
*
* @param node xml element containing gml object(s)
* @param number integer number as the index of nth geometry
* @return geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode geometryN(final ANode node, final Int number) throws QueryException {
final Geometry geo = checkGeo(node);
final long n = number.itr();
if (n < 1 || n > geo.getNumGeometries()) throw GeoErrors.outOfRangeIdx(number);
return gmlWriter(geo.getGeometryN((int) n - 1));
}
/**
* Returns the x-coordinate value for point.
*
* @param node xml element containing gml object(s)
* @return x double value
* @throws QueryException query exception
*/
@Deterministic
public Dbl x(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_POINT);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Point");
return Dbl.get(geo.getCoordinate().x);
}
/**
* Returns the y-coordinate value for point.
*
* @param node xml element containing gml object(s)
* @return y double value
* @throws QueryException query exception
*/
@Deterministic
public Dbl y(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_POINT);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Point");
return Dbl.get(geo.getCoordinate().y);
}
/**
* Returns the z-coordinate value for point.
*
* @param node xml element containing gml object(s)
* @return z double value
* @throws QueryException query exception
*/
@Deterministic
public Dbl z(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_POINT);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Line");
return Dbl.get(geo.getCoordinate().z);
}
/**
* Returns the length of this Geometry. Linear geometries return their length. Areal geometries
* return their parameter. Others return 0.0
*
* @param node xml element containing gml object(s)
* @return length double value
* @throws QueryException query exception
*/
@Deterministic
public Dbl length(final ANode node) throws QueryException {
return Dbl.get(checkGeo(node).getLength());
}
/**
* Returns the start point of a line.
*
* @param node xml element containing gml object(s)
* @return start point geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode startPoint(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_LINEARRING, Q_GML_LINESTRING);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Line");
return gmlWriter(((LineString) geo).getStartPoint());
}
/**
* Returns the end point of a line.
*
* @param node xml element containing gml object(s)
* @return end point geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode endPoint(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_LINEARRING, Q_GML_LINESTRING);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Line");
return gmlWriter(((LineString) geo).getEndPoint());
}
/**
* Checks if the line is closed loop. That is, if the start Point is same with end Point.
*
* @param node xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln isClosed(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_LINEARRING, Q_GML_LINESTRING, Q_GML_MULTILINESTRING);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Line");
return Bln.get(
geo instanceof LineString
? ((LineString) geo).isClosed()
: ((MultiLineString) geo).isClosed());
}
/**
* Return a boolean value that shows weather the line is a ring or not. A line is a ring if it is
* closed and simple.
*
* @param node xml element containing gml object(s)
* @return boolean value
* @throws QueryException query exception
*/
@Deterministic
public Bln isRing(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_LINEARRING, Q_GML_LINESTRING);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Line");
return Bln.get(((LineString) geo).isRing());
}
/**
* Returns the number of points in a geometry.
*
* @param node xml element containing gml object(s)
* @return number of points int value
* @throws QueryException query exception
*/
@Deterministic
public Int numPoints(final ANode node) throws QueryException {
return Int.get(checkGeo(node).getNumPoints());
}
/**
* Returns the nth point of a line.
*
* @param node xml element containing gml object(s)
* @param number index of i-th point
* @return n-th point as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode pointN(final ANode node, final Int number) throws QueryException {
final Geometry geo = geo(node, Q_GML_LINEARRING, Q_GML_LINESTRING);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Line");
final int max = geo.getNumPoints();
final long n = number.itr();
if (n < 1 || n > max) throw GeoErrors.outOfRangeIdx(number);
return gmlWriter(((LineString) geo).getPointN((int) n - 1));
}
/**
* Returns the area of a Geometry. Areal Geometries have a non-zero area. Returns zero for Point
* and Lines.
*
* @param node xml element containing gml object(s)
* @return geometry area as a double vaue
* @throws QueryException query exception
*/
@Deterministic
public Dbl area(final ANode node) throws QueryException {
return Dbl.get(checkGeo(node).getArea());
}
/**
* Returns the mathematical centroid of the geometry as a gml:Point. The point is not guaranteed
* to be on the surface.
*
* @param node xml element containing gml object(s)
* @return centroid geometry as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode centroid(final ANode node) throws QueryException {
return gmlWriter(checkGeo(node).getCentroid());
}
/**
* Returns a gml:Point that is interior of this geometry. If it cannot be inside the geometry,
* then it will be on the boundary.
*
* @param node xml element containing gml object(s)
* @return a point as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode pointOnSurface(final ANode node) throws QueryException {
return gmlWriter(checkGeo(node).getInteriorPoint());
}
/**
* Returns the outer ring of a polygon, in GML.
*
* @param node xml element containing gml object(s)
* @return exterior ring geometry (LineString) as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode exteriorRing(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_POLYGON);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Polygon");
return gmlWriter(((Polygon) geo).getExteriorRing());
}
/**
* Returns the number of interior rings in a polygon.
*
* @param node xml element containing gml object(s)
* @return integer number of interior rings
* @throws QueryException query exception
*/
@Deterministic
public Int numInteriorRing(final ANode node) throws QueryException {
final Geometry geo = geo(node, Q_GML_POLYGON);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Polygon");
return Int.get(((Polygon) geo).getNumInteriorRing());
}
/**
* Returns the nth geometry of a geometry collection.
*
* @param node xml element containing gml object(s)
* @param number index of i-th interior ring
* @return n-th interior ring geometry (LineString) as a gml element
* @throws QueryException query exception
*/
@Deterministic
public ANode interiorRingN(final ANode node, final Int number) throws QueryException {
final Geometry geo = geo(node, Q_GML_POLYGON);
if (geo == null && checkGeo(node) != null)
throw GeoErrors.geoType(node.qname().local(), "Polygon");
final long n = number.itr();
final int max = ((Polygon) geo).getNumInteriorRing();
if (n < 1 || n > max) throw GeoErrors.outOfRangeIdx(number);
return gmlWriter(((Polygon) geo).getInteriorRingN((int) n - 1));
}
// PRIVATE METHODS (hidden from user of module) ========================================
/**
* Reads an element as a gml node. Returns a geometry element or throws an exception if the
* element is of the wrong type.
*
* @param node xml node containing gml object(s)
* @return geometry
* @throws QueryException query exception
*/
private Geometry checkGeo(final ANode node) throws QueryException {
final Geometry geo = geo(node, QNAMES);
if (geo == null) throw GeoErrors.unrecognizedGeo(node.qname().local());
return geo;
}
/**
* 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;
}
/**
* Writes an geometry and returns a string representation of the geometry.
*
* @param geometry geometry
* @return DBNode database node
* @throws QueryException exception
*/
private DBNode gmlWriter(final Geometry geometry) throws QueryException {
final String geo;
try {
// write geometry and add namespace declaration
geo =
new GMLWriter()
.write(geometry)
.replaceAll("^<gml:(.*?)>", "<gml:$1 xmlns:gml='" + string(URI) + "'>");
} catch (final Exception ex) {
throw GeoErrors.gmlWriterErr(ex);
}
try {
final IO io = new IOContent(geo);
return new DBNode(MemBuilder.build(new XMLParser(io, queryContext.context.options)));
} catch (final IOException ex) {
throw IOERR_X.get(null, ex);
}
}
}
/**
* Functions on relational databases.
*
* @author BaseX Team 2005-15, BSD License
* @author Rositsa Shadura
*/
public final class SqlConnect extends SqlFn {
/** QName. */
private static final QNm Q_OPTIONS = QNm.get(SQL_PREFIX, "options", SQL_URI);
/** Auto-commit mode. */
private static final String AUTO_COMM = "autocommit";
/** User. */
private static final String USER = "******";
/** Password. */
private static final String PASS = "******";
@Override
public Item item(final QueryContext qc, final InputInfo ii) throws QueryException {
checkCreate(qc);
// URL to relational database
final String url = string(toToken(exprs[0], qc));
final JDBCConnections jdbc = jdbc(qc);
try {
if (exprs.length > 2) {
// credentials
final String user = string(toToken(exprs[1], qc));
final String pass = string(toToken(exprs[2], qc));
if (exprs.length == 4) {
// connection options
final Options opts = toOptions(3, Q_OPTIONS, new Options(), qc);
// extract auto-commit mode from options
boolean ac = true;
final HashMap<String, String> options = opts.free();
final String commit = options.get(AUTO_COMM);
if (commit != null) {
ac = Strings.yes(commit);
options.remove(AUTO_COMM);
}
// connection properties
final Properties props = connProps(options);
props.setProperty(USER, user);
props.setProperty(PASS, pass);
// open connection
final Connection conn = getConnection(url, props);
// set auto/commit mode
conn.setAutoCommit(ac);
return Int.get(jdbc.add(conn));
}
return Int.get(jdbc.add(getConnection(url, user, pass)));
}
return Int.get(jdbc.add(getConnection(url)));
} catch (final SQLException ex) {
throw BXSQ_ERROR_X.get(info, ex);
}
}
/**
* Parses connection options.
*
* @param options options
* @return connection properties
*/
private static Properties connProps(final HashMap<String, String> options) {
final Properties props = new Properties();
for (final Entry<String, String> entry : options.entrySet()) {
props.setProperty(entry.getKey(), entry.getValue());
}
return props;
}
}
/**
* 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 a function for RESTFful annotations.
*
* @return {@code true} if module contains relevant annotations
* @throws QueryException query exception
*/
boolean analyze() throws QueryException {
// parse all annotations
final EnumSet<HTTPMethod> mth = EnumSet.noneOf(HTTPMethod.class);
final boolean[] declared = new boolean[function.args.length];
boolean found = false;
final int as = function.ann.size();
for (int a = 0; a < as; a++) {
final QNm name = function.ann.names[a];
final Value value = function.ann.values[a];
final byte[] local = name.local();
final byte[] uri = name.uri();
final boolean rexq = eq(uri, QueryText.RESTXQURI);
if (rexq) {
if (eq(PATH, local)) {
// annotation "path"
if (path != null) error(ANN_TWICE, "%", name.string());
path = new RestXqPath(toString(value, name));
for (final String s : path) {
if (s.trim().startsWith("{")) checkVariable(s, AtomType.AAT, declared);
}
} else if (eq(CONSUMES, local)) {
// annotation "consumes"
strings(value, name, consumes);
} else if (eq(PRODUCES, local)) {
// annotation "produces"
strings(value, name, produces);
} else if (eq(QUERY_PARAM, local)) {
// annotation "query-param"
queryParams.add(param(value, name, declared));
} else if (eq(FORM_PARAM, local)) {
// annotation "form-param"
formParams.add(param(value, name, declared));
} else if (eq(HEADER_PARAM, local)) {
// annotation "header-param"
headerParams.add(param(value, name, declared));
} else if (eq(COOKIE_PARAM, local)) {
// annotation "cookie-param"
cookieParams.add(param(value, name, declared));
} else {
// method annotations
final HTTPMethod m = HTTPMethod.get(string(local));
if (m == null) error(ANN_UNKNOWN, "%", name.string());
if (!value.isEmpty()) {
// remember post/put variable
if (requestBody != null) error(ANN_TWICE, "%", name.string());
if (m != POST && m != PUT) error(METHOD_VALUE, m);
requestBody = checkVariable(toString(value, name), declared);
}
if (mth.contains(m)) error(ANN_TWICE, "%", name.string());
mth.add(m);
}
} else if (eq(uri, QueryText.OUTPUTURI)) {
// serialization parameters
final String key = string(local);
final String val = toString(value, name);
if (output.get(key) == null) error(UNKNOWN_SER, key);
output.set(key, val);
}
found |= rexq;
}
if (!mth.isEmpty()) methods = mth;
if (found) {
if (path == null) error(ANN_MISSING, PATH);
for (int i = 0; i < declared.length; i++)
if (!declared[i]) error(VAR_UNDEFINED, function.args[i].name.string());
}
return found;
}
/**
* Returns the specified value as an atomic string.
*
* @param value value
* @param name name
* @return string
* @throws QueryException HTTP exception
*/
private String toString(final Value value, final QNm name) throws QueryException {
if (!(value instanceof Str)) error(ANN_STRING, "%", name.string(), value);
return ((Str) value).toJava();
}
/**
* Returns the module namespace URI.
*
* @return URI
*/
public byte[] uri() {
return name.uri();
}
/**
* Checks if the specified item is a string or element.
*
* @param it item to be checked
* @return item
* @throws QueryException query exception
*/
private Item checkElmStr(final Item it) throws QueryException {
if (it instanceof AStr || TEST.eq(it)) return it;
throw ELMSTRTYPE.thrw(info, Q_ENTRY.string(), it.type);
}
