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tdepim/kode/kwsdl/converter.cpp

999 lines
37 KiB

/*
This file is part of KDE.
Copyright (c) 2005 Tobias Koenig <tokoe@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "converter.h"
using namespace KWSDL;
static TQString capitalize( const TQString &str )
{
return str[ 0 ].upper() + str.mid( 1 );
}
static TQString escapeEnum( const TQString &str )
{
TQString enumStr = capitalize( str );
return enumStr.replace( "-", "_" );
}
Converter::Converter()
{
mTQObject = KODE::Class( TQOBJECT_OBJECT_NAME_STRING );
}
void Converter::setWSDL( const WSDL &wsdl )
{
mWSDL = wsdl;
mTypeMapper.setTypes( wsdl.types() );
}
KODE::Class::List Converter::classes() const
{
return mClasses;
}
void Converter::convert()
{
createUtilClasses();
createTransportClass();
convertTypes( mWSDL.types() );
mClasses.append( mSerializer );
convertService( mWSDL.service() );
}
void Converter::convertTypes( const Schema::Types &types )
{
Schema::SimpleType::List simpleTypes = types.simpleTypes();
Schema::SimpleType::List::ConstIterator simpleIt;
for ( simpleIt = simpleTypes.begin(); simpleIt != simpleTypes.end(); ++simpleIt )
convertSimpleType( &(*simpleIt) );
Schema::ComplexType::List complexTypes = types.complexTypes();
Schema::ComplexType::List::ConstIterator complexIt;
for ( complexIt = complexTypes.begin(); complexIt != complexTypes.end(); ++complexIt )
convertComplexType( &(*complexIt) );
}
void Converter::convertSimpleType( const Schema::SimpleType *type )
{
KODE::Class newClass( type->name() );
newClass.addInclude( "serializer.h" );
KODE::Code ctorCode, dtorCode;
if ( !type->documentation().isEmpty() )
newClass.setDocs( type->documentation().simplifyWhiteSpace() );
if ( type->subType() == Schema::SimpleType::TypeRestriction ) {
/**
Use setter and getter method for enums as well.
*/
if ( type->facetType() & Schema::SimpleType::ENUM ) {
TQStringList enums = type->facetEnums();
for ( uint i = 0; i < enums.count(); ++i )
enums[ i ] = escapeEnum( enums[ i ] );
newClass.addEnum( KODE::Enum( "Type", enums ) );
// member variables
KODE::MemberVariable variable( "type", "Type" );
newClass.addMemberVariable( variable );
// setter method
KODE::Function setter( "setType", "void" );
setter.addArgument( "Type type" );
setter.setBody( variable.name() + " = type;" );
// getter method
KODE::Function getter( "type", capitalize( newClass.name() ) + "::Type" );
getter.setBody( " return " + variable.name() + ";" );
getter.setConst( true );
newClass.addFunction( setter );
newClass.addFunction( getter );
}
/**
A class can't derive from basic types (e.g. int or unsigned char), so
we add setter and getter methods to set the value of this class.
*/
if ( type->baseType() != Schema::XSDType::ANYTYPE &&
type->baseType() != Schema::XSDType::INVALID &&
!(type->facetType() & Schema::SimpleType::ENUM) ) {
const TQString baseName = type->baseTypeName();
const TQString typeName = mTypeMapper.type( baseName );
// include header
TQMap<TQString, TQString> headerDec = mTypeMapper.headerDec( baseName );
TQMap<TQString, TQString>::ConstIterator it;
for ( it = headerDec.begin(); it != headerDec.end(); ++it ) {
if ( !it.key().isEmpty() )
newClass.addInclude( it.key(), it.data() );
if ( it.data().isEmpty() )
newClass.addHeaderInclude( it.key() );
}
// member variables
KODE::MemberVariable variable( "value", typeName + "*" );
newClass.addMemberVariable( variable );
ctorCode += variable.name() + " = 0;";
dtorCode += "delete " + variable.name() + ";";
dtorCode += variable.name() + " = 0;";
// setter method
KODE::Function setter( "setValue", "void" );
setter.addArgument( mTypeMapper.argument( "value", baseName ) );
setter.setBody( variable.name() + " = value;" );
// getter method
KODE::Function getter( "value", typeName + "*" );
getter.setBody( " return " + variable.name() + ";" );
getter.setConst( true );
newClass.addFunction( setter );
newClass.addFunction( getter );
}
} else if ( type->subType() == Schema::SimpleType::TypeList ) {
newClass.addHeaderInclude( "tqptrlist.h" );
const TQString baseName = type->listTypeName();
const TQString typeName = mTypeMapper.type( baseName );
// include header
TQMap<TQString, TQString> headerDec = mTypeMapper.headerDec( baseName );
TQMap<TQString, TQString>::ConstIterator it;
for ( it = headerDec.begin(); it != headerDec.end(); ++it ) {
if ( !it.key().isEmpty() )
newClass.addInclude( it.key(), it.data() );
if ( it.data().isEmpty() )
newClass.addHeaderInclude( it.key() );
}
// member variables
KODE::MemberVariable variable( "entries", "TQPtrList<" + typeName + ">*" );
newClass.addMemberVariable( variable );
ctorCode += variable.name() + " = 0;";
dtorCode += "delete " + variable.name() + ";";
dtorCode += variable.name() + " = 0;";
// setter method
KODE::Function setter( "setEntries", "void" );
setter.addArgument( mTypeMapper.argument( "entries", baseName, true ) );
setter.setBody( variable.name() + " = entries;" );
// getter method
KODE::Function getter( "entries", "TQPtrList<" + typeName + ">*" );
getter.setBody( " return " + variable.name() + ";" );
getter.setConst( true );
newClass.addFunction( setter );
newClass.addFunction( getter );
}
createSimpleTypeSerializer( type );
KODE::Function ctor( capitalize( newClass.name() ) );
KODE::Function dtor( "~" + capitalize( newClass.name() ) );
ctor.setBody( ctorCode );
dtor.setBody( dtorCode );
newClass.addFunction( ctor );
newClass.addFunction( dtor );
mClasses.append( newClass );
}
void Converter::createSimpleTypeSerializer( const Schema::SimpleType *type )
{
const TQString typeName = mTypeMapper.type( type );
const TQString baseType = mTypeMapper.type( type->baseTypeName() );
KODE::Function marshal( "marshal", "void" );
marshal.setStatic( true );
marshal.addArgument( "TQDomDocument &doc" );
marshal.addArgument( "TQDomElement &parent" );
marshal.addArgument( "const TQString &name" );
marshal.addArgument( "const " + typeName + "* value" );
KODE::Function demarshal( "demarshal", "void" );
demarshal.setStatic( true );
demarshal.addArgument( "const TQDomElement &parent" );
demarshal.addArgument( typeName + "* value" );
KODE::Code marshalCode, demarshalCode, code;
// include header
TQMap<TQString, TQString> headerDec = mTypeMapper.headerDec( type->name() );
TQMap<TQString, TQString>::ConstIterator it;
for ( it = headerDec.begin(); it != headerDec.end(); ++it ) {
if ( !it.key().isEmpty() )
mSerializer.addInclude( it.key(), it.data() );
if ( it.data().isEmpty() )
mSerializer.addHeaderInclude( it.key() );
}
if ( type->subType() == Schema::SimpleType::TypeRestriction ) {
// is an enumeration
if ( type->facetType() & Schema::SimpleType::ENUM ) {
TQStringList enums = type->facetEnums();
TQStringList escapedEnums;
for ( uint i = 0; i < enums.count(); ++i )
escapedEnums.append( escapeEnum( enums[ i ] ) );
// marshal value
KODE::Function marshalValue( "marshalValue", TQSTRING_OBJECT_NAME_STRING );
marshalValue.setStatic( true );
marshalValue.addArgument( "const " + typeName + "* value" );
code += "switch ( value->type() ) {";
code.indent();
for ( uint i = 0; i < enums.count(); ++i ) {
code += "case " + typeName + "::" + escapedEnums[ i ] + ":";
code.indent();
code += "return \"" + enums[ i ] + "\";";
code += "break;";
code.unindent();
}
code += "default:";
code.indent();
code += "qDebug( \"Unknown enum %d passed.\", value->type() );";
code += "break;";
code.unindent();
code.unindent();
code += "}";
code.newLine();
code += "return TQString();";
marshalValue.setBody( code );
// marshal
marshalCode += "TQDomElement root = doc.createElement( name );";
marshalCode += "root.setAttribute( \"xsi:type\", \"ns1:" + type->name() + "\" );";
marshalCode += "parent.appendChild( root );";
marshalCode += "root.appendChild( doc.createTextNode( Serializer::marshalValue( value ) ) );";
// demarshal value
KODE::Function demarshalValue( "demarshalValue", "void" );
demarshalValue.setStatic( true );
demarshalValue.addArgument( "const TQString &str" );
demarshalValue.addArgument( typeName + "* value" );
code.clear();
for ( uint i = 0; i < enums.count(); ++i ) {
code += "if ( str == \"" + enums[ i ] + "\" )";
code.indent();
code += "value->setType( " + typeName + "::" + escapedEnums[ i ] + " );";
code.unindent();
code.newLine();
}
demarshalValue.setBody( code );
// demarshal
demarshalCode += "Serializer::demarshalValue( parent.text(), value );";
mSerializer.addFunction( marshalValue );
mSerializer.addFunction( demarshalValue );
} else if ( type->baseType() != Schema::XSDType::INVALID ) {
marshalCode += "if ( value->value() ) {";
marshalCode.indent();
marshalCode += "Serializer::marshal( doc, parent, name, value->value() );";
marshalCode.unindent();
marshalCode += "}";
demarshalCode += "const TQString text = parent.text();";
demarshalCode.newLine();
demarshalCode += "if ( !text.isEmpty() ) {";
demarshalCode.indent();
demarshalCode += baseType + "* data = new " + baseType + ";";
demarshalCode += "Serializer::demarshal( parent, value );";
demarshalCode += "value->setValue( data );";
demarshalCode.unindent();
demarshalCode += "}";
KODE::Function marshalValue( "marshalValue", TQSTRING_OBJECT_NAME_STRING );
marshalValue.setStatic( true );
marshalValue.addArgument( "const " + typeName + "* value" );
marshalValue.setBody( "return Serializer::marshalValue( value->value() );" );
mSerializer.addFunction( marshalValue );
KODE::Function demarshalValue( "demarshalValue", "void" );
demarshalValue.setStatic( true );
demarshalValue.addArgument( "const TQString &str" );
demarshalValue.addArgument( typeName + "* value" );
KODE::Code code;
code += baseType + "* data = new " + baseType + ";";
code += "Serializer::demarshalValue( str, data );";
code += "value->setValue( data );";
demarshalValue.setBody( code );
mSerializer.addFunction( demarshalValue );
}
} else if ( type->subType() == Schema::SimpleType::TypeList ) {
const TQString listType = mTypeMapper.type( type->listTypeName() );
mSerializer.addInclude( "tqstringlist.h" );
marshalCode += "if ( value->entries() ) {";
marshalCode.indent();
marshalCode += "TQStringList list;";
marshalCode += "TQPtrList<" + listType + ">* entries = value->entries();";
marshalCode += "TQPtrListIterator<" + listType + "> it( *entries );";
marshalCode += "while ( it.current() != 0 ) {";
marshalCode.indent();
marshalCode += "list.append( Serializer::marshalValue( it.current() ) );";
marshalCode += "++it;";
marshalCode.unindent();
marshalCode += "}";
marshalCode.newLine();
marshalCode += "TQDomElement element = doc.createElement( name );";
marshalCode += "parent.appendChild( element );";
marshalCode += "element.appendChild( doc.createTextNode( list.join( \" \" ) ) );";
marshalCode.unindent();
marshalCode += "}";
demarshalCode += "const TQStringList list = TQStringList::split( \" \", parent.text(), false );";
demarshalCode += "if ( !list.isEmpty() ) {";
demarshalCode.indent();
demarshalCode += "TQPtrList<" + listType + ">* entries = new TQPtrList<" + listType + ">;";
demarshalCode += "entries->setAutoDelete( true );";
demarshalCode += "TQStringList::ConstIterator it;";
demarshalCode += "for ( it = list.begin(); it != list.end(); ++it ) {";
demarshalCode.indent();
demarshalCode += listType + " *entry = new " + listType + ";";
demarshalCode += "Serializer::demarshalValue( *it, entry );";
demarshalCode += "entries->append( entry );";
demarshalCode.unindent();
demarshalCode += "}";
demarshalCode.newLine();
demarshalCode += "value->setEntries( entries );";
demarshalCode.unindent();
demarshalCode += "}";
}
marshal.setBody( marshalCode );
mSerializer.addFunction( marshal );
demarshal.setBody( demarshalCode );
mSerializer.addFunction( demarshal );
}
void Converter::convertComplexType( const Schema::ComplexType *type )
{
KODE::Class newClass( type->name() );
newClass.addInclude( "serializer.h" );
KODE::Code ctorCode, dtorCode;
if ( type->baseType() != Schema::XSDType::ANYTYPE && !type->isArray() ) {
TQString baseName = mTypeMapper.type( type->baseTypeName() );
newClass.addBaseClass( KODE::Class( baseName ) );
newClass.addHeaderIncludes( mTypeMapper.header( type->baseTypeName() ) );
}
if ( !type->documentation().isEmpty() )
newClass.setDocs( type->documentation().simplifyWhiteSpace() );
// elements
Schema::Element::List elements = type->elements();
Schema::Element::List::ConstIterator elemIt;
for ( elemIt = elements.begin(); elemIt != elements.end(); ++elemIt ) {
TQString typeName = mTypeMapper.type( &*elemIt );
if ( (*elemIt).maxOccurs() > 1 )
typeName = "TQPtrList<" + typeName + ">";
// member variables
KODE::MemberVariable variable( (*elemIt).name(), typeName + "*" );
newClass.addMemberVariable( variable );
ctorCode += variable.name() + " = 0;";
dtorCode += "delete " + variable.name() + ";";
dtorCode += variable.name() + " = 0;";
TQString upperName = (*elemIt).name();
TQString lowerName = (*elemIt).name();
upperName[ 0 ] = upperName[ 0 ].upper();
lowerName[ 0 ] = lowerName[ 0 ].lower();
// setter method
KODE::Function setter( "set" + upperName, "void" );
setter.addArgument( mTypeMapper.argument( mNameMapper.escape( lowerName ), &*elemIt ) );
setter.setBody( variable.name() + " = " + mNameMapper.escape( lowerName ) + ";" );
// getter method
KODE::Function getter( mNameMapper.escape( lowerName ), typeName + "*" );
getter.setBody( " return " + variable.name() + ";" );
getter.setConst( true );
newClass.addFunction( setter );
newClass.addFunction( getter );
// include header
TQMap<TQString, TQString> headerDec = mTypeMapper.headerDec( &*elemIt);
TQMap<TQString, TQString>::ConstIterator it;
for ( it = headerDec.begin(); it != headerDec.end(); ++it ) {
if ( !it.key().isEmpty() )
newClass.addInclude( it.key(), it.data() );
if ( it.data().isEmpty() )
newClass.addHeaderInclude( it.key() );
}
}
// attributes
Schema::Attribute::List attributes = type->attributes();
Schema::Attribute::List::ConstIterator attrIt;
for ( attrIt = attributes.begin(); attrIt != attributes.end(); ++attrIt ) {
const TQString typeName = mTypeMapper.type( &*attrIt );
// member variables
KODE::MemberVariable variable( (*attrIt).name(), typeName + "*" );
newClass.addMemberVariable( variable );
ctorCode += variable.name() + " = 0;";
dtorCode += "delete " + variable.name() + ";";
dtorCode += variable.name() + " = 0;";
TQString upperName = (*attrIt).name();
TQString lowerName = (*attrIt).name();
upperName[ 0 ] = upperName[ 0 ].upper();
lowerName[ 0 ] = lowerName[ 0 ].lower();
// setter method
KODE::Function setter( "set" + upperName, "void" );
setter.addArgument( mTypeMapper.argument( mNameMapper.escape( lowerName ), &*attrIt ) );
setter.setBody( variable.name() + " = " + mNameMapper.escape( lowerName ) + ";" );
// getter method
KODE::Function getter( mNameMapper.escape( lowerName ), typeName + "*" );
getter.setBody( " return " + variable.name() + ";" );
getter.setConst( true );
newClass.addFunction( setter );
newClass.addFunction( getter );
// include header
TQMap<TQString, TQString> headerDec = mTypeMapper.headerDec( &*attrIt);
TQMap<TQString, TQString>::ConstIterator it;
for ( it = headerDec.begin(); it != headerDec.end(); ++it ) {
if ( !it.key().isEmpty() )
newClass.addInclude( it.key(), it.data() );
if ( it.data().isEmpty() )
newClass.addHeaderInclude( it.key() );
}
}
createComplexTypeSerializer( type );
KODE::Function ctor( capitalize( newClass.name() ) );
KODE::Function dtor( "~" + capitalize( newClass.name() ) );
ctor.setBody( ctorCode );
dtor.setBody( dtorCode );
newClass.addFunction( ctor );
newClass.addFunction( dtor );
mClasses.append( newClass );
}
void Converter::createComplexTypeSerializer( const Schema::ComplexType *type )
{
const TQString typeName = mTypeMapper.type( type );
KODE::Function marshal( "marshal", "void" );
marshal.setStatic( true );
marshal.addArgument( "TQDomDocument &doc" );
marshal.addArgument( "TQDomElement &parent" );
marshal.addArgument( "const TQString &name" );
marshal.addArgument( "const " + typeName + "* value" );
KODE::Function demarshal( "demarshal", "void" );
demarshal.setStatic( true );
demarshal.addArgument( "const TQDomElement &parent" );
demarshal.addArgument( typeName + "* value" );
KODE::Code marshalCode, demarshalCode, demarshalFinalCode;
// include header
TQMap<TQString, TQString> headerDec = mTypeMapper.headerDec( type->name() );
TQMap<TQString, TQString>::ConstIterator it;
for ( it = headerDec.begin(); it != headerDec.end(); ++it ) {
if ( !it.key().isEmpty() )
mSerializer.addInclude( it.key(), it.data() );
if ( it.data().isEmpty() )
mSerializer.addHeaderInclude( it.key() );
}
marshalCode += "TQDomElement root = doc.createElement( name );";
marshalCode += "root.setAttribute( \"xsi:type\", \"ns1:" + typeName + "\" );";
marshalCode += "parent.appendChild( root );";
demarshalCode += "TQDomNode node = parent.firstChild();";
demarshalCode += "while ( !node.isNull() ) {";
demarshalCode.indent();
demarshalCode += "TQDomElement element = node.toElement();";
demarshalCode += "if ( !element.isNull() ) {";
demarshalCode.indent();
// elements
Schema::Element::List elements = type->elements();
Schema::Element::List::ConstIterator elemIt;
for ( elemIt = elements.begin(); elemIt != elements.end(); ++elemIt ) {
const TQString typeName = mTypeMapper.type( &*elemIt );
TQString upperName = (*elemIt).name();
TQString lowerName = (*elemIt).name();
upperName[ 0 ] = upperName[ 0 ].upper();
lowerName[ 0 ] = lowerName[ 0 ].lower();
KODE::Function setter( "set" + upperName, "void" );
KODE::Function getter( mNameMapper.escape( lowerName ), typeName + "*" );
if ( (*elemIt).maxOccurs() > 1 ) {
marshalCode += "if ( value->" + mNameMapper.escape( lowerName ) + "() ) {";
marshalCode.indent();
marshalCode += "const TQPtrList<" + typeName + ">* list = value->" + mNameMapper.escape( lowerName ) + "();";
marshalCode.newLine();
marshalCode += "TQDomElement element = doc.createElement( name );";
// no idea about the namespaces here...
marshalCode += "element.setAttribute( \"xmlns:ns1\", \"http://schemas.xmlsoap.org/soap/encoding/\" );";
marshalCode += "element.setAttribute( \"xsi:type\", \"ns1:Array\" );";
marshalCode += "element.setAttribute( \"ns1:arrayType\", \"ns1:" + typeName + "[\" + TQString::number( list->count() ) + \"]\" );";
marshalCode += "parent.appendChild( element );";
marshalCode.newLine();
marshalCode += "TQPtrListIterator<" + typeName + "> it( *list );";
marshalCode += "while ( it.current() != 0 ) {";
marshalCode.indent();
marshalCode += "Serializer::marshal( doc, element, \"item\", it.current() );";
marshalCode += "++it;";
marshalCode.unindent();
marshalCode += "}";
marshalCode.unindent();
marshalCode += "}";
const TQString listName = mNameMapper.escape( lowerName ) + "List";
// TODO: prepend the code somehow
KODE::Code code;
code += "TQPtrList<" + typeName + ">* " + listName + " = new TQPtrList<" + typeName + ">();";
code += listName + "->setAutoDelete( true );";
code += demarshalCode;
demarshalCode = code;
demarshalCode += "if ( element.tagName() == \"item\" ) {";
demarshalCode.indent();
demarshalCode += typeName + " *item = new " + typeName + ";";
demarshalCode += "Serializer::demarshal( element, item );";
demarshalCode += listName + "->append( item );";
demarshalCode.unindent();
demarshalCode += "}";
demarshalFinalCode += "value->" + setter.name() + "( " + listName + " );";
} else {
marshalCode += "if ( value->" + getter.name() + "() ) {";
marshalCode.indent();
marshalCode += "Serializer::marshal( doc, root, \"" + (*elemIt).name() + "\", value->" + getter.name() + "() );";
marshalCode.unindent();
marshalCode += "}";
demarshalCode += "if ( element.tagName() == \"" + (*elemIt).name() + "\" ) {";
demarshalCode.indent();
demarshalCode += typeName + "* item = new " + typeName + ";";
demarshalCode += "Serializer::demarshal( element, item );";
demarshalCode += "value->" + setter.name() + "( item );";
demarshalCode.unindent();
demarshalCode += "}";
}
}
// attributes
Schema::Attribute::List attributes = type->attributes();
Schema::Attribute::List::ConstIterator attrIt;
for ( attrIt = attributes.begin(); attrIt != attributes.end(); ++attrIt ) {
const TQString typeName = mTypeMapper.type( &*attrIt );
TQString upperName = (*attrIt).name();
TQString lowerName = (*attrIt).name();
upperName[ 0 ] = upperName[ 0 ].upper();
lowerName[ 0 ] = lowerName[ 0 ].lower();
KODE::Function setter( "set" + upperName, "void" );
KODE::Function getter( mNameMapper.escape( lowerName ), typeName + "*" );
marshalCode += "if ( value->" + mNameMapper.escape( lowerName ) + "() )";
marshalCode.indent();
marshalCode += "parent.setAttribute( \"" + (*attrIt).name() + "\","
"Serializer::marshalValue( value->" + mNameMapper.escape( lowerName ) + "() ) );";
marshalCode.newLine();
demarshalCode += "if ( element.hasAttribute( \"" + (*attrIt).name() + "\" ) ) {";
demarshalCode.indent();
demarshalCode += typeName + "* item = new " + typeName + ";";
demarshalCode += "Serializer::demarshalValue( element.attribute( \"" + (*attrIt).name() + "\" ), item );";
demarshalCode += "value->" + setter.name() + "( item );";
demarshalCode.unindent();
demarshalCode += "}";
}
demarshalCode.unindent();
demarshalCode += "}";
demarshalCode += "node = node.nextSibling();";
demarshalCode.unindent();
demarshalCode += "}";
demarshalCode.newLine();
demarshalCode += demarshalFinalCode;
marshal.setBody( marshalCode );
mSerializer.addFunction( marshal );
demarshal.setBody( demarshalCode );
mSerializer.addFunction( demarshal );
}
void Converter::convertService( const Service &service )
{
KODE::Class newClass( service.name() );
newClass.addBaseClass( mTQObject );
newClass.addHeaderInclude( "tqobject.h" );
newClass.addHeaderInclude( "tqstring.h" );
newClass.addHeaderInclude( "transport.h" );
newClass.addInclude( "serializer.h" );
KODE::Function ctor( service.name() );
KODE::Function dtor( "~" + service.name() );
KODE::Code ctorCode, dtorCode;
const Service::Port::List servicePorts = service.ports();
Service::Port::List::ConstIterator it;
for ( it = servicePorts.begin(); it != servicePorts.end(); ++it ) {
Binding binding = mWSDL.findBinding( (*it).mBinding );
Port port = mWSDL.findPort( binding.type() );
const Port::Operation::List operations = port.operations();
Port::Operation::List::ConstIterator opIt;
for ( opIt = operations.begin(); opIt != operations.end(); ++opIt ) {
Message inputMessage = mWSDL.findMessage( (*opIt).input() );
Message outputMessage = mWSDL.findMessage( (*opIt).output() );
convertInputMessage( port, inputMessage, newClass );
convertOutputMessage( port, outputMessage, newClass );
KODE::MemberVariable transport( inputMessage.name() + "Transport", "Transport" );
ctorCode += transport.name() + " = new Transport( \"" + (*it).mLocation + "\" );";
ctorCode += "connect( " + transport.name() + ", TQT_SIGNAL( result( const TQString& ) ),";
ctorCode.indent();
ctorCode += "this, TQT_SLOT( " + outputMessage.name() + "Slot( const TQString& ) ) );";
ctorCode.unindent();
dtorCode += "delete " + transport.name() + ";";
dtorCode += transport.name() + " = 0;";
}
}
ctor.setBody( ctorCode );
newClass.addFunction( ctor );
dtor.setBody( dtorCode );
newClass.addFunction( dtor );
mClasses.append( newClass );
}
void Converter::convertInputMessage( const Port &port, const Message &message, KODE::Class &newClass )
{
KODE::MemberVariable transport( message.name() + "Transport", "Transport*" );
newClass.addMemberVariable( transport );
// call
TQString messageName = message.name();
messageName[ 0 ] = messageName[ 0 ].lower();
KODE::Function callFunc( mNameMapper.escape( messageName ), "void", KODE::Function::Public );
const Message::Part::List parts = message.parts();
Message::Part::List::ConstIterator it;
for ( it = parts.begin(); it != parts.end(); ++it ) {
newClass.addHeaderIncludes( mTypeMapper.header( (*it).type() ) );
TQString lowerName = (*it).name();
lowerName[ 0 ] = lowerName[ 0 ].lower();
callFunc.addArgument( mTypeMapper.argument( mNameMapper.escape( lowerName ), (*it).type() ) );
}
KODE::Code code;
code += "TQDomDocument doc( \"kwsdl\" );";
code += "doc.appendChild( doc.createProcessingInstruction( \"xml\", \"version=\\\"1.0\\\" encoding=\\\"UTF-8\\\"\" ) );";
code += "TQDomElement env = doc.createElement( \"SOAP-ENV:Envelope\" );";
code += "env.setAttribute( \"xmlns:SOAP-ENV\", \"http://schemas.xmlsoap.org/soap/envelope/\" );";
code += "env.setAttribute( \"xmlns:xsi\", \"http://www.w3.org/1999/XMLSchema-instance\" );";
code += "env.setAttribute( \"xmlns:xsd\", \"http://www.w3.org/1999/XMLSchema\" );";
code += "doc.appendChild( env );";
code += "TQDomElement body = doc.createElement( \"SOAP-ENV:Body\" );";
code += "env.appendChild( body );";
code += "TQDomElement method = doc.createElement( \"ns1:" + message.name() + "\" );";
TQString nameSpace = mWSDL.findBindingOperation( port.name(), message.name() ).input().nameSpace();
code += "method.setAttribute( \"xmlns:ns1\", \"" + nameSpace + "\" );";
code += "method.setAttribute( \"SOAP-ENV:encodingStyle\", \"http://schemas.xmlsoap.org/soap/encoding/\" );";
code += "body.appendChild( method );";
code.newLine();
for ( it = parts.begin(); it != parts.end(); ++it ) {
TQString lowerName = (*it).name();
lowerName[ 0 ] = lowerName[ 0 ].lower();
code += "Serializer::marshal( doc, method, \"" + (*it).name() + "\", " + mNameMapper.escape( lowerName ) + " );";
code += "delete " + mNameMapper.escape( lowerName ) + ";";
}
code += "qDebug( \"%s\", doc.toString().latin1() );";
code += transport.name() + "->query( doc.toString() );";
callFunc.setBody( code );
newClass.addFunction( callFunc );
}
void Converter::convertOutputMessage( const Port&, const Message &message, KODE::Class &newClass )
{
Message::Part part = message.parts().first();
// signal
TQString messageName = message.name();
messageName[ 0 ] = messageName[ 0 ].lower();
KODE::Function respSignal( messageName, "void", KODE::Function::Signal );
/**
If one output message is used by two input messages, don't define
it twice.
*/
if ( newClass.hasFunction( respSignal.name() ) )
return;
const Message::Part::List parts = message.parts();
Message::Part::List::ConstIterator it;
for ( it = parts.begin(); it != parts.end(); ++it ) {
TQStringList headers = mTypeMapper.header( (*it).type() );
for ( uint i = 0; i < headers.count(); ++i )
if ( !headers[ i ].isEmpty() )
newClass.addHeaderInclude( headers[ i ] );
respSignal.addArgument( mTypeMapper.argument( "value", (*it).type() ) );
}
newClass.addFunction( respSignal );
// slot
KODE::Function respSlot( messageName + "Slot", "void", KODE::Function::Slot | KODE::Function::Private );
respSlot.addArgument( "const TQString &xml" );
KODE::Code code;
code += "TQDomDocument doc;";
code += "TQString errorMsg;";
code += "int column, row;";
code.newLine();
code += "qDebug( \"%s\", xml.latin1() );";
code.newLine();
code += "if ( !doc.setContent( xml, true, &errorMsg, &row, &column ) ) {";
code.indent();
code += "qDebug( \"Unable to parse xml: %s (%d:%d)\", errorMsg.latin1(), row, column );";
code += "return;";
code.unindent();
code += "}";
code.newLine();
code += mTypeMapper.type( part.type() ) + "* value = new " + mTypeMapper.type( part.type() ) + ";";
code += "TQDomElement envelope = doc.documentElement();";
code += "TQDomElement body = envelope.firstChild().toElement();";
code += "TQDomElement method = body.firstChild().toElement();";
code += "Serializer::demarshal( method.firstChild().toElement(), value );";
code.newLine();
code += "emit " + respSignal.name() + "( value );";
respSlot.setBody( code );
newClass.addFunction( respSlot );
}
void Converter::createUtilClasses()
{
mSerializer = KODE::Class( "Serializer" );
mSerializer.addHeaderInclude( "tqcstring.h" );
mSerializer.addHeaderInclude( "tqdom.h" );
mSerializer.addHeaderInclude( "tqdatetime.h" );
mSerializer.addHeaderInclude( "tqstring.h" );
mSerializer.addHeaderInclude( "tqptrlist.h" );
mSerializer.addInclude( "kmdcodec.h" );
typedef struct {
TQString type;
TQString xsdType;
TQString marshalCode;
TQString demarshalCode;
} TypeEntry;
/**
I know the following code looks a bit ugly, but it saves us a lot
of typing and is easier to maintain at the end ;)
*/
TypeEntry types[] = {
{ TQSTRING_OBJECT_NAME_STRING, "xsd:string", "*value", "str" },
{ "bool", "xsd:boolean", "(*value ? \"true\" : \"false\")", "(str.lower() == \"true\" ? true : false)" },
{ "float", "xsd:TODO", "TQString::number( *value )", "str.toFloat()" },
{ "int", "xsd:int", "TQString::number( *value )", "str.toInt()" },
{ "unsigned int", "xsd:unsignedByte", "TQString::number( *value )", "str.toUInt()" },
{ "double", "xsd:double", "TQString::number( *value )", "str.toDouble()" },
{ "char", "xsd:byte", "TQString( TQChar( *value ) )", "str[ 0 ].latin1()" },
{ "unsigned char", "xsd:unsignedByte", "TQString( TQChar( *value ) )", "str[ 0 ].latin1()" },
{ "short", "xsd:short", "TQString::number( *value )", "str.toShort()" },
{ TQBYTEARRAY_OBJECT_NAME_STRING, "xsd:base64Binary", "TQString::fromUtf8( KCodecs::base64Encode( *value ) )", "KCodecs::base64Decode( str.utf8() )" },
{ "TQDateTime", "xsd:dateTime", "value->toString( TQt::ISODate )", "TQDateTime::fromString( str, TQt::ISODate )" },
{ "TQDate", "xsd:date", "value->toString( TQt::ISODate )", "TQDate::fromString( str, TQt::ISODate )" }
};
for ( uint i = 0; i < sizeof( types ) / sizeof( TypeEntry ); ++i ) {
KODE::Function marshal, demarshal;
KODE::Code code;
TypeEntry entry = types[ i ];
marshal = KODE::Function( "marshalValue", TQSTRING_OBJECT_NAME_STRING );
marshal.setStatic( true );
marshal.addArgument( "const " + entry.type + "* value" );
code.clear();
marshal.setBody( "return " + entry.marshalCode + ";" );
mSerializer.addFunction( marshal );
demarshal = KODE::Function( "demarshalValue", "void" );
demarshal.setStatic( true );
demarshal.addArgument( "const TQString &str" );
demarshal.addArgument( entry.type + " *value" );
demarshal.setBody( "*value = " + entry.demarshalCode + ";" );
mSerializer.addFunction( demarshal );
marshal = KODE::Function( "marshal", "void" );
marshal.setStatic( true );
marshal.addArgument( "TQDomDocument &doc" );
marshal.addArgument( "TQDomElement &parent" );
marshal.addArgument( "const TQString &name" );
marshal.addArgument( "const " + entry.type + "* value" );
code.clear();
code += "TQDomElement element = doc.createElement( name );";
code += "element.setAttribute( \"xsi:type\", \"" + entry.xsdType + "\" );";
code += "element.appendChild( doc.createTextNode( Serializer::marshalValue( value ) ) );";
code += "parent.appendChild( element );";
marshal.setBody( code );
mSerializer.addFunction( marshal );
demarshal = KODE::Function( "demarshal", "void" );
demarshal.setStatic( true );
demarshal.addArgument( "const TQDomElement &element" );
demarshal.addArgument( entry.type + "* value" );
demarshal.setBody( "Serializer::demarshalValue( element.text(), value );" );
mSerializer.addFunction( demarshal );
}
}
void Converter::createTransportClass()
{
KODE::Class transport( "Transport" );
transport.addBaseClass( mTQObject );
transport.addHeaderInclude( "tqobject.h" );
transport.addHeaderInclude( "kio/job.h" );
transport.addInclude( "kdebug.h" );
KODE::MemberVariable url( "url", TQSTRING_OBJECT_NAME_STRING );
transport.addMemberVariable( url );
KODE::MemberVariable slotDataVar( "data", TQBYTEARRAY_OBJECT_NAME_STRING );
transport.addMemberVariable( slotDataVar );
// ctor
KODE::Function ctor( "Transport" );
ctor.addArgument( "const TQString &url" );
ctor.setBody( url.name() + " = url;" );
transport.addFunction( ctor );
// query
KODE::Function query( "query", "void" );
query.addArgument( "const TQString &xml" );
KODE::Code queryCode;
queryCode += slotDataVar.name() + ".truncate( 0 );";
queryCode.newLine();
queryCode += "TQByteArray postData;";
queryCode += "TQDataStream stream( postData, IO_WriteOnly );";
queryCode += "stream.writeRawBytes( xml.utf8(), xml.utf8().length() );";
queryCode.newLine();
queryCode += "TDEIO::TransferJob* job = TDEIO::http_post( KURL( " + url.name() + " ), postData, false );";
queryCode += "if ( !job ) {";
queryCode.indent();
queryCode += "kdWarning() << \"Unable to create KIO job for \" << " + url.name() + " << endl;";
queryCode += "return;";
queryCode.unindent();
queryCode += "}";
queryCode.newLine();
queryCode += "job->addMetaData( \"UserAgent\", \"KWSDL\" );";
queryCode += "job->addMetaData( \"content-type\", \"Content-Type: text/xml; charset=utf-8\" );";
queryCode.newLine();
queryCode += "connect( job, TQT_SIGNAL( data( TDEIO::Job*, const TQByteArray& ) ), this, TQT_SLOT( slotData( TDEIO::Job*, const TQByteArray& ) ) );";
queryCode += "connect( job, TQT_SIGNAL( result( TDEIO::Job* ) ), this, TQT_SLOT( slotResult( TDEIO::Job* ) ) );";
query.setBody( queryCode );
transport.addFunction( query );
// signal
KODE::Function result( "result", "void", KODE::Function::Signal );
result.addArgument( "const TQString &xml" );
transport.addFunction( result );
// data slot
KODE::Function slotData( "slotData", "void", KODE::Function::Private | KODE::Function::Slot );
slotData.addArgument( "TDEIO::Job*" );
slotData.addArgument( "const TQByteArray &data" );
KODE::Code slotDataCode;
slotDataCode += "unsigned int oldSize = " + slotDataVar.name() + ".size();";
slotDataCode += slotDataVar.name() + ".resize( oldSize + data.size() );";
slotDataCode += "memcpy( " + slotDataVar.name() + ".data() + oldSize, data.data(), data.size() );";
slotData.setBody( slotDataCode );
transport.addFunction( slotData );
// result slot
KODE::Function slotResult( "slotResult", "void", KODE::Function::Private | KODE::Function::Slot );
slotResult.addArgument( "TDEIO::Job* job" );
KODE::Code slotResultCode;
slotResultCode += "if ( job->error() != 0 ) {";
slotResultCode.indent();
slotResultCode += "kdWarning() << \"Error occurred \" << job->errorText() << endl;";
slotResultCode += "kdWarning() << " + slotDataVar.name() + " << endl;";
slotResultCode += "return;";
slotResultCode.unindent();
slotResultCode += "}";
slotResultCode.newLine();
slotResultCode += "emit result( TQString::fromUtf8( " + slotDataVar.name() + ".data(), " + slotDataVar.name() + ".size() ) );";
slotResult.setBody( slotResultCode );
transport.addFunction( slotResult );
mClasses.append( transport );
}