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author | Jörg Frings-Fürst <jff@merkur> | 2014-05-18 16:08:14 +0200 |
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committer | Jörg Frings-Fürst <jff@merkur> | 2014-05-18 16:08:14 +0200 |
commit | a15cf65c44d5c224169c32ef5495b68c758134b7 (patch) | |
tree | 3419f58fc8e1b315ba8171910ee044c5d467c162 /xsd/examples/cxx/tree/README |
Imported Upstream version 3.3.0.2upstream/3.3.0.2
Diffstat (limited to 'xsd/examples/cxx/tree/README')
-rw-r--r-- | xsd/examples/cxx/tree/README | 80 |
1 files changed, 80 insertions, 0 deletions
diff --git a/xsd/examples/cxx/tree/README b/xsd/examples/cxx/tree/README new file mode 100644 index 0000000..348885f --- /dev/null +++ b/xsd/examples/cxx/tree/README @@ -0,0 +1,80 @@ +This directory contains a number of examples that show how to use +the C++/Tree mapping. The following list gives an overview of +each example. See the README files in example directories for +more information on each example. + +hello + A simple "Hello, world!" example that shows how to parse XML + documents. + +library + Shows hot to handle more complex data structures, use the + ID/IDREF cross-referencing mechanism, use the xsd:enumeration + to C++ enum mapping, modify the object model, and serialize + the modified object model back to XML. + +polymorphism + Shows how to use XML Schema polymorphism features such as the + xsi:type attribute and substitution groups. + +xpath + Shows how to use the C++/Tree mapping together with XPath. + +wildcard + Shows how to use the optional wildcard mapping to parse, access, + modify, and serialize the XML data matched by XML Schema wildcards + (any and anyAttribute). + +mixed + Shows how to access the underlying DOM nodes to handle raw, "type- + less content" such as mixed content models, anyType/anySimpleType, + and any/anyAttribute. + +multiroot + Shows how to handle XML vocabularies with multiple root elements. + See also the messaging example. + +messaging + Shows how to handle XML vocabularies with multiple root elements + using the element type and element map features of the C++/Tree + mapping. + +caching + Shows how to parse several XML documents while reusing the + underlying XML parser and caching the schemas used for validation. + +embedded + Shows how to embed the binary representation of the schema grammar + into an application and then use it with the C++/Tree mapping to + parse and validate XML documents. + +performance + Measures the performance of parsing and serialization. This example + also shows how to structure your code to achieve the maximum + performance for these two operations. + +custom/ + A collection of examples that show how to customize the C++/Tree + mapping by using custom C++ classes instead of or in addition to + the generated ones. See the accompanying README file for an + overview of each example in this directory. + +streaming + Shows how to perform stream-oriented, partially in-memory XML + processing using the C++/Tree mapping. With the partially in-memory + parsing and serialization only a part of the object model is in + memory at any given time. With this approach we can process parts + of the document as they become available as well as handle documents + that are too large to fit into memory. + +compression + Shows how to compress an XML document during serialization and decompress + it during parsing using the zlib library. + +binary/ + A collection of examples that show how to serialize the object model + into a number of predefined and custom binary formats. + +dbxml + Shows how to use the C++/Tree mapping on top of the Berkeley DB + XML embedded XML database. |