.. _xml_converter: XML Converter ============= The XML converter handles XML files. To use the XML converter, specify ``type = "xml"`` in your converter definition. Configuration ------------- The XML converter supports parsing files in single-line mode or in multi-line mode. In single-line mode, each line of an input file should be a valid XML document; in multi-line mode, the entire input file should be a single valid XML document. In order to support XPath expressions, each XML document is fully parsed into memory. For large documents, this may take considerable time and memory. Thus, it is usually better to use single-line mode when possible. Line mode may be specified by ``options.line-mode = "single"`` or ``options.line-mode = "multi"`` in your converter definition. If nothing is specified, single-line mode is used. The XML converter will attempt to use the Saxon XML factory by default, if available. Saxon is generally much faster than the default Java implementation. If desired, the parser may be specified by setting ``xpath-factory`` to the fully-qualified class name of a ``javax.xml.xpath.XPathFactory`` implementation. If the XML source documents contain namespaces, you may need to define them through the ``xml-namespaces`` element. See :ref:`xml_converter_namespaces`, below. The XML converter supports schema validation through XSD documents. To enable validation, specify an XSD file using the ``xsd`` element. This file must be available on the classpath. Input documents which don't validate against the XSD will raise an exception. Since a single XML document may contain multiple features, the XML parser supports an XPath expression pointing to each feature element. This can be specified using the ``feature-path`` element. The ``fields`` element in an XML converter supports an additional attribute, ``path``. ``path`` should be a XPath expression, which may be relative to the ``feature-path`` (if defined, above) or absolute to the document root. The ``path`` expression will be evaluated to a string, and be available in the ``transform`` element as ``$0``. XML Composite Converters ------------------------ Composite converters can handle processing different XML formats in a single stream. To use a composite converter, specify ``type = "composite-xml"`` in your converter definition. Composite converters can define top-level options, fields, etc, the same as a normal XML converter. These values will be inherited by each of the child converters. If each child is unique, then it is valid to not define anything at the top level. Composite converters must define a ``converters`` element, which is an array of nested XML converter definitions. In addition to the standard configuration, each nested converter must have a ``predicate`` element that determines which converter to use for each XML document. The value passed into the predicate will be the parsed XML document (available as ``$0``), so generally the predicate will make use of the ``xpath`` function (below). See :ref:`composite_predicates` for more details on predicates. XML Transform Functions ----------------------- The ``transform`` element supports referencing the result of the ``path`` expression through ``$0``. Each value will be a string. In addition to the standard functions in :ref:`converter_functions`, the XML converter provides the following XML-specific functions: xpath ~~~~~ The ``xpath`` function allows you to evaluate an XPath expression outside the context of a field. Generally, the ``path`` expression is preferred when using XML fields, but the ``xpath`` function is useful for composite converter predicates, as described above. The ``xpath`` function takes between 2 and 4 arguments. The first argument is the XPath expression, as a string. The second argument is the XML document on which to apply the XPath expression. Generally the document being considered is available as ``$0``. The third argument is the fully-qualified class name of a ``javax.xml.xpath.XPathFactory`` implementation. If omitted, the default Saxon factory will be used. The fourth argument is a ``java.util.Map`` containing any XML namespaces that may be required for XPath evaluation, and may be omitted if namespaces are not used. Generally, the :ref:`converter_parse_map_fn` function will be required to create an appropriate namespace map. See :ref:`xml_converter_namespaces`, below. xmlToString ~~~~~~~~~~~ This will convert an XML element to a string. It can be useful for quickly representing a complex object, for example in order to create a feature ID based on the hash of a row. Example Usage ------------- Assume the following SimpleFeatureType: :: geomesa.sfts.example = { attributes = [ { name = "number", type = "Integer" } { name = "color", type = "String" } { name = "weight", type = "Double" } { name = "source", type = "String" } { name = "geom", type = "Point" } ] } And the following XML document: .. code-block:: xml myxml 123 12.23 44.3 red 456 20.3 33.2 blue You could ingest with the following converter: :: geomesa.converters.myxml = { type = "xml" id-field = "uuid()" feature-path = "Feature" // optional path to feature elements xsd = "example.xsd" // optional xsd file to validate input xpath-factory = "net.sf.saxon.xpath.XPathFactoryImpl" options = { line-mode = "multi" // or "single" } fields = [ { name = "number", path = "number", transform = "$0::integer" } { name = "color", path = "color", transform = "trim($0)" } { name = "weight", path = "physical/@weight", transform = "$0::double" } { name = "source", path = "/doc/DataSource/name/text()" } { name = "lat", path = "geom/lat", transform = "$0::double" } { name = "lon", path = "geom/lon", transform = "$0::double" } { name = "geom", transform = "point($lon, $lat)" } ] } .. _xml_converter_namespaces: Handling Namespaces with Saxon ------------------------------ Using the default Java XPath factory, XML namespaces can generally be ignored. However, the Saxon factory requires namespaces to be declared. You can accomplish this through the ``xml-namespaces`` configuration. Example XML: .. code-block:: xml myxml 123 12.23 44.3 red Config: :: { type = "xml" id-field = "uuid()" feature-path = "foo:Feature" // optional path to feature elements xsd = "example.xsd" // optional xsd file to validate input xpath-factory = "net.sf.saxon.xpath.XPathFactoryImpl" options = { line-mode = "multi" // or "single" } xml-namespaces = { foo = "http://example.com/foo" bar = "http://example.com/bar" } fields = [ { name = "number", path = "foo:number", transform = "$0::integer" } { name = "color", path = "foo:color", transform = "trim($0)" } { name = "weight", path = "foo:physical/@weight", transform = "$0::double" } { name = "source", path = "/foo:doc/foo:DataSource/foo:name/text()" } { name = "lat", path = "bar:geom/bar:lat", transform = "$0::double" } { name = "lon", path = "bar:geom/bar:lon", transform = "$0::double" } { name = "geom", transform = "point($lon, $lat)" } ] }