KVSO_CLASS_FUNCTION(xmlReader, parse)
{
KviKvsVariant * pVariantData;
KVSO_PARAMETERS_BEGIN(c)
KVSO_PARAMETER("string_or_memorybuffer_object", KVS_PT_VARIANT, 0, pVariantData)
KVSO_PARAMETERS_END(c)
#ifdef QT_NO_XML
fatalError(__tr2qs_ctx("XML support not available in the Qt library"));
c->returnValue()->setBoolean(false);
#else
m_szLastError = "";
KviXmlHandler handler(this);
QXmlInputSource source;
if(pVariantData->isHObject())
{
KviKvsObject * pObject;
kvs_hobject_t hObject;
pVariantData->asHObject(hObject);
pObject = KviKvsKernel::instance()->objectController()->lookupObject(hObject);
if(!pObject)
{
c->warning(__tr2qs_ctx("Data parameter is not an object", "objects"));
return true;
}
if(pObject->inheritsClass("memorybuffer"))
{
source.setData(*((KvsObject_memoryBuffer *)pObject)->pBuffer());
}
else
{
c->warning(__tr2qs_ctx("Data parameter is not a memorybuffer object", "objects"));
return true;
}
}
else if(pVariantData->isString())
{
QString szString;
pVariantData->asString(szString);
// We have a problem here.. most kvirc functions already interpret the data
// read from files. We should have binary data handling features to get this to work correctly.
// The following snippet of code tries to provide a best-effort workaround.
QByteArray utf8data = szString.toUtf8();
QByteArray data = utf8data;
data.truncate(utf8data.length()); // don't include the null terminator in data
source.setData(data);
//qDebug("PARSING(%s) LEN(%d)",szString.toUtf8().data(),szString.toUtf8().length());
}
else
{
c->warning(__tr2qs_ctx("Data is not a memorybuffer object or string", "objects"));
return true;
}
QXmlSimpleReader reader;
reader.setContentHandler(&handler);
reader.setErrorHandler(&handler);
c->returnValue()->setBoolean(reader.parse(source));
#endif
return true;
}
bool process(KviKvsVariantList * pVariantList, KviKvsRunTimeContext * pContext, KviKvsParameterProcessor::ParameterFormat * pFmtArray)
{
KviKvsVariant * v = pVariantList->first();
while(pFmtArray->szName)
{
if(!v)
{
// parameter not present
// it MUST be optional
if(!(pFmtArray->uFlags & KVS_PF_OPTIONAL))
{
// bad luck
QString szError = QString(__tr2qs_ctx("Missing non-optional parameter \"%1\"", "kvs")).arg(pFmtArray->szName);
pContext->error(szError);
return false;
}
// ok, missing but optional (all the following are implicitly optional too)
// set to default values
do
{
setDefaultValue(pFmtArray);
pFmtArray++;
} while(pFmtArray->szName);
return true;
}
// here we do only "light" casts: hard ones must be done explicitly by the user
switch(pFmtArray->uType)
{
case KVS_PT_STRING:
v->asString(*((QString *)(pFmtArray->pContainer)));
if(pFmtArray->uFlags & KVS_PF_APPENDREMAINING)
{
v = pVariantList->next();
while(v)
{
*((QString *)(pFmtArray->pContainer)) += QChar(' ');
v->appendAsString(*((QString *)(pFmtArray->pContainer)));
v = pVariantList->next();
}
return true;
}
break;
case KVS_PT_STRINGLIST:
{
((QStringList *)(pFmtArray->pContainer))->clear();
QString pSz;
v->asString(pSz);
((QStringList *)(pFmtArray->pContainer))->append(pSz);
v = pVariantList->next();
while(v)
{
v->asString(pSz);
((QStringList *)(pFmtArray->pContainer))->append(pSz);
v = pVariantList->next();
}
return true;
}
break;
case KVS_PT_VARIANTLIST:
{
((KviKvsVariantList *)(pFmtArray->pContainer))->clear();
((KviKvsVariantList *)(pFmtArray->pContainer))->setAutoDelete(false);
((KviKvsVariantList *)(pFmtArray->pContainer))->append(v);
v = pVariantList->next();
while(v)
{
((KviKvsVariantList *)(pFmtArray->pContainer))->append(v);
v = pVariantList->next();
}
return true;
}
break;
case KVS_PT_NONEMPTYSTRING:
{
v->asString(*((QString *)(pFmtArray->pContainer)));
bool bDoReturn = false;
if(pFmtArray->uFlags & KVS_PF_APPENDREMAINING)
{
v = pVariantList->next();
while(v)
{
*((QString *)(pFmtArray->pContainer)) += QChar(' ');
v->appendAsString(*((QString *)(pFmtArray->pContainer)));
v = pVariantList->next();
}
bDoReturn = true;
}
if(((QString *)(pFmtArray->pContainer))->isEmpty())
{
QString szError = QString(__tr2qs_ctx("Invalid data type for parameter \"%1\": found empty string while a non empty one was expected", "kvs")).arg(pFmtArray->szName);
pContext->error(szError);
return false;
}
if(bDoReturn)
return true;
}
break;
case KVS_PT_CSTRING:
{
QString tmp;
v->asString(tmp);
if(pFmtArray->uFlags & KVS_PF_APPENDREMAINING)
{
v = pVariantList->next();
while(v)
{
*((QByteArray *)(pFmtArray->pContainer)) += ' ';
v->appendAsString(tmp);
v = pVariantList->next();
}
*((QByteArray *)(pFmtArray->pContainer)) = tmp.toUtf8();
return true;
}
*((QByteArray *)(pFmtArray->pContainer)) = tmp.toUtf8();
}
break;
case KVS_PT_NONEMPTYCSTRING:
{
QString tmp;
v->asString(tmp);
bool bDoReturn = false;
if(pFmtArray->uFlags & KVS_PF_APPENDREMAINING)
{
v = pVariantList->next();
while(v)
{
*((QByteArray *)(pFmtArray->pContainer)) += ' ';
v->appendAsString(tmp);
v = pVariantList->next();
}
*((QByteArray *)(pFmtArray->pContainer)) = tmp.toUtf8();
bDoReturn = true;
}
*((QByteArray *)(pFmtArray->pContainer)) = tmp.toUtf8();
if(((QByteArray *)(pFmtArray->pContainer))->isEmpty())
{
QString szError = QString(__tr2qs_ctx("Invalid data type for parameter \"%1\": found empty string while a non empty one was expected", "kvs")).arg(pFmtArray->szName);
pContext->error(szError);
return false;
}
if(bDoReturn)
return true;
}
break;
case KVS_PT_INT:
if(!v->asInteger(*((kvs_int_t *)(pFmtArray->pContainer))))
{
if(!handleParameterTypeError(pContext, pFmtArray, v, "integer"))
return false;
}
break;
case KVS_PT_UINT:
{
kvs_int_t iTmp;
if(!v->asInteger(iTmp))
{
if(!handleParameterTypeError(pContext, pFmtArray, v, "unsigned integer"))
return false;
}
if(iTmp < 0)
{
QString szError = QString(__tr2qs_ctx("Invalid data type for parameter \"%1\": found signed integer \"%2\" where type 'unsigned integer' was expected", "kvs")).arg(pFmtArray->szName).arg(iTmp);
pContext->error(szError);
return false;
}
*((kvs_uint_t *)(pFmtArray->pContainer)) = (kvs_uint_t)iTmp;
}
break;
case KVS_PT_DOUBLE:
if(!v->asReal(*((kvs_real_t *)(pFmtArray->pContainer))))
{
if(!handleParameterTypeError(pContext, pFmtArray, v, "real"))
return false;
}
break;
case KVS_PT_HASH:
if(!v->isHash())
{
if(!handleParameterTypeError(pContext, pFmtArray, v, "hash"))
return false;
}
else
{
*((KviKvsHash **)(pFmtArray->pContainer)) = v->hash();
}
break;
case KVS_PT_ARRAYCAST:
v->castToArray((KviKvsArrayCast *)(pFmtArray->pContainer));
break;
case KVS_PT_ARRAY:
if(!v->isArray())
{
if(!handleParameterTypeError(pContext, pFmtArray, v, "array"))
return false;
}
else
{
*((KviKvsArray **)(pFmtArray->pContainer)) = v->array();
}
break;
case KVS_PT_BOOL:
// this never fails: anything is converted to a boolean
*((bool *)(pFmtArray->pContainer)) = v->asBoolean();
break;
case KVS_PT_VARIANT:
*((KviKvsVariant **)(pFmtArray->pContainer)) = v;
break;
case KVS_PT_HOBJECT:
if(!v->asHObject(*((kvs_hobject_t *)(pFmtArray->pContainer))))
{
if(!handleParameterTypeError(pContext, pFmtArray, v, "hobject"))
return false;
}
break;
case KVS_PT_IGNORE:
// ignore
break;
default:
qDebug("Internal error in KviKvsParameterProcessor::processAsParameters(): unknown parameter type %d", pFmtArray->uType);
return false;
break;
}
pFmtArray++;
v = pVariantList->next();
}
return true;
}