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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
/* $Rev$ $Date$ */
#ifndef tuscany_xml_hpp
#define tuscany_xml_hpp
/**
* XML read/write functions.
*/
#include <libxml/xmlreader.h>
#include <libxml/xmlwriter.h>
#include <libxml/xmlschemas.h>
#include <libxml/globals.h>
#include "string.hpp"
#include "list.hpp"
#include "stream.hpp"
#include "value.hpp"
#include "element.hpp"
#include "monad.hpp"
namespace tuscany {
/**
* Initializes the libxml2 library.
*/
class XMLParser {
public:
XMLParser() {
xmlInitParser();
}
} xmlParser;
/**
* Encapsulates a libxml2 xmlTextReader and its state.
*/
class XMLReader {
public:
enum TokenType {
None = 0, Element = 1, Attribute = 2, Text = 3, EndElement = 15, Identifier = 100, End = 101
};
XMLReader(xmlTextReaderPtr xml) : xml(xml), tokenType(None), isEmptyElement(false), hasValue(false), hasAttributes(false) {
xmlTextReaderSetParserProp(xml, XML_PARSER_DEFAULTATTRS, 1);
xmlTextReaderSetParserProp(xml, XML_PARSER_SUBST_ENTITIES, 1);
}
~XMLReader() {
xmlTextReaderClose(xml);
xmlFreeTextReader(xml);
}
/**
* Read the next XML token and return its type.
*/
int read() {
if (tokenType == End)
return tokenType;
if (tokenType == Element) {
isEmptyElement = xmlTextReaderIsEmptyElement(xml);
hasAttributes = xmlTextReaderHasAttributes(xml);
return tokenType = Identifier;
}
if (tokenType == Identifier && hasAttributes && xmlTextReaderMoveToFirstAttribute(xml) == 1)
return tokenType = Attribute;
if (tokenType == Attribute && xmlTextReaderMoveToNextAttribute(xml) == 1)
return tokenType = Attribute;
if (isEmptyElement && (tokenType == Identifier || tokenType == Attribute))
return tokenType = EndElement;
if (!xmlTextReaderRead(xml))
return tokenType = End;
return tokenType = xmlTextReaderNodeType(xml);
}
operator xmlTextReaderPtr() const {
return xml;
}
private:
const xmlTextReaderPtr xml;
int tokenType;
bool isEmptyElement;
bool hasValue;
bool hasAttributes;
};
/**
* Constants used to tag XML tokens.
*/
const value endElement("<");
const value startElement(">");
/**
* Read an XML identifier.
*/
const value readIdentifier(XMLReader& reader) {
const char* name = (const char*)xmlTextReaderConstName(reader);
return name;
}
/**
* Read XML text.
*/
const value readText(XMLReader& reader) {
const char *val = (const char*)xmlTextReaderConstValue(reader);
return string(val);
}
/**
* Read an XML attribute.
*/
const value readAttribute(XMLReader& reader) {
const char *name = (const char*)xmlTextReaderConstName(reader);
const char *val = (const char*)xmlTextReaderConstValue(reader);
return mklist<value>(attribute, name, string(val));
}
/**
* Read an XML token.
*/
const value readToken(XMLReader& reader) {
const int tokenType = reader.read();
if (tokenType == XMLReader::None || tokenType == XMLReader::End)
return value();
if (tokenType == XMLReader::Element)
return startElement;
if (tokenType == XMLReader::Identifier)
return readIdentifier(reader);
if (tokenType == XMLReader::Attribute)
return readAttribute(reader);
if (tokenType == XMLReader::Text)
return readText(reader);
if (tokenType == XMLReader::EndElement)
return endElement;
return readToken(reader);
}
/**
* Read a list of values from XML tokens.
*/
const list<value> readList(const list<value>& listSoFar, XMLReader& reader) {
const value token = readToken(reader);
if(isNil(token) || endElement == token)
return reverse(listSoFar);
if(startElement == token)
return readList(cons<value>(readList(mklist(element), reader), listSoFar), reader);
return readList(cons(token, listSoFar), reader);
}
/**
* Read a list of values from a libxml2 XML reader.
*/
const list<value> read(XMLReader& reader) {
value nextToken = readToken(reader);
if (startElement == nextToken)
return mklist<value>(readList(mklist(element), reader));
return list<value>();
}
/**
* Context passed to the read callback function.
*/
class XMLReadContext {
public:
XMLReadContext(const list<string>& ilist) : ilist(ilist) {
}
list<string> ilist;
};
/**
* Callback function called by libxml2 to read XML.
*/
int readCallback(void *context, char* buffer, int len) {
XMLReadContext& rc = *static_cast<XMLReadContext*>(context);
if (isNil(rc.ilist))
return 0;
const list<string> f(fragment(rc.ilist, len));
const string s(car(f));
rc.ilist = cdr(f);
memcpy(buffer, c_str(s), length(s));
return length(s);
}
/**
* Return true if a list of strings contains an XML document.
*/
const bool isXML(const list<string>& ls) {
if (isNil(ls))
return false;
return substr(car(ls), 0, 5) == "<?xml";
}
/**
* Read a list of values from a list of strings representing an XML document.
*/
const list<value> readXML(const list<string>& ilist) {
XMLReadContext cx(ilist);
xmlTextReaderPtr xml = xmlReaderForIO(readCallback, NULL, &cx, NULL, NULL, XML_PARSE_NONET);
if (xml == NULL)
return list<value>();
XMLReader reader(xml);
return read(reader);
}
/**
* Default encoding used to write XML documents.
*/
const char* encoding = "UTF-8";
/**
* Write a list of XML element or attribute tokens.
*/
const list<value> expandElementValues(const value& n, const list<value>& l) {
if (isNil(l))
return l;
return cons<value>(value(cons<value>(element, cons<value>(n, (list<value>)car(l)))), expandElementValues(n, cdr(l)));
}
const failable<bool> writeList(const list<value>& l, const xmlTextWriterPtr xml) {
if (isNil(l))
return true;
// Write an attribute
const value token(car(l));
if (isTaggedList(token, attribute)) {
if (xmlTextWriterWriteAttribute(xml, (const xmlChar*)c_str(string(attributeName(token))), (const xmlChar*)c_str(string(attributeValue(token)))) < 0)
return mkfailure<bool>("xmlTextWriterWriteAttribute failed");
} else if (isTaggedList(token, element)) {
// Write an element containing a value
if (elementHasValue(token)) {
const value v = elementValue(token);
if (isList(v)) {
// Write an element per entry in a list of values
const list<value> e = expandElementValues(elementName(token), v);
writeList(e, xml);
} else {
// Write an element with a single value
if (xmlTextWriterStartElement(xml, (const xmlChar*)c_str(string(elementName(token)))) < 0)
return mkfailure<bool>("xmlTextWriterStartElement failed");
// Write its children
const failable<bool> w = writeList(elementChildren(token), xml);
if (!hasContent(w))
return w;
if (xmlTextWriterEndElement(xml) < 0)
return mkfailure<bool>("xmlTextWriterEndElement failed");
}
}
else {
// Write an element
if (xmlTextWriterStartElement(xml, (const xmlChar*)c_str(string(elementName(token)))) < 0)
return mkfailure<bool>("xmlTextWriterStartElement failed");
// Write its children
const failable<bool> w = writeList(elementChildren(token), xml);
if (!hasContent(w))
return w;
if (xmlTextWriterEndElement(xml) < 0)
return mkfailure<bool>("xmlTextWriterEndElement failed");
}
} else {
// Write XML text
if (xmlTextWriterWriteString(xml, (const xmlChar*)c_str(string(token))) < 0)
return mkfailure<bool>("xmlTextWriterWriteString failed");
}
// Go on
return writeList(cdr(l), xml);
}
/**
* Write a list of values to a libxml2 XML writer.
*/
const failable<bool> write(const list<value>& l, const xmlTextWriterPtr xml, bool xmlTag) {
if (xmlTag) {
if (xmlTextWriterStartDocument(xml, NULL, encoding, NULL) < 0)
return mkfailure<bool>(string("xmlTextWriterStartDocument failed"));
}
const failable<bool> w = writeList(l, xml);
if (!hasContent(w))
return w;
if (xmlTag) {
if (xmlTextWriterEndDocument(xml) < 0)
return mkfailure<bool>("xmlTextWriterEndDocument failed");
}
return true;
}
/**
* Context passed to the write callback function.
*/
template<typename R> class XMLWriteContext {
public:
XMLWriteContext(const lambda<R(const string&, const R)>& reduce, const R& accum) : reduce(reduce), accum(accum) {
}
const lambda<R(const string&, const R)> reduce;
R accum;
};
/**
* Callback function called by libxml2 to write XML out.
*/
template<typename R> int writeCallback(void *context, const char* buffer, int len) {
XMLWriteContext<R>& cx = *static_cast<XMLWriteContext<R>*>(context);
cx.accum = cx.reduce(string(buffer, len), cx.accum);
return len;
}
/**
* Convert a list of values to an XML document.
*/
template<typename R> const failable<R> writeXML(const lambda<R(const string&, const R)>& reduce, const R& initial, const list<value>& l, const bool xmlTag) {
XMLWriteContext<R> cx(reduce, initial);
xmlOutputBufferPtr out = xmlOutputBufferCreateIO(writeCallback<R>, NULL, &cx, NULL);
if (out == NULL)
return mkfailure<R>("xmlOutputBufferCreateIO failed");
xmlTextWriterPtr xml = xmlNewTextWriter(out);
if (xml == NULL)
return mkfailure<R>("xmlNewTextWriter failed");
const failable<bool> w = write(l, xml, xmlTag);
xmlFreeTextWriter(xml);
if (!hasContent(w)) {
return mkfailure<R>(reason(w));
}
return cx.accum;
}
template<typename R> const failable<R> writeXML(const lambda<R(const string&, const R)>& reduce, const R& initial, const list<value>& l) {
return writeXML(reduce, initial, l, true);
}
/**
* Convert a list of values to a list of strings representing an XML document.
*/
const failable<list<string> > writeXML(const list<value>& l, const bool xmlTag) {
const failable<list<string> > ls = writeXML<list<string> >(rcons<string>, list<string>(), l, xmlTag);
if (!hasContent(ls))
return ls;
return reverse(list<string>(content(ls)));
}
const failable<list<string> > writeXML(const list<value>& l) {
return writeXML(l, true);
}
}
#endif /* tuscany_xml_hpp */
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