// CalendarJournal.cpp - CalendarJournal class functions
//
// (c) 2016-2017 Xestia Software Development.
//
// This file is part of Xestia Calendar.
//
// Xestia Calendar is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by the
// Free Software Foundation, version 3 of the license.
//
// Xestia Calendar 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License along
// with Xestia Calendar. If not, see
#include "CalendarJournal.h"
using namespace std;
CalendarObjectValidResult CalendarJournalObject::ValidObject(){
bool ValidBegin = false;
bool ValidEnd = false;
bool ValidDateTimeStamp = false;
bool ValidUniqueID = false;
int SeekCount = 0;
string PropertyName;
// Look for BEGIN:VJOURNAL.
for (vector::iterator iter = ObjectName.begin();
iter != ObjectName.end(); iter++){
if (ObjectName[SeekCount] == "BEGIN" &&
ObjectData[SeekCount] == "VJOURNAL"){
if (ValidBegin == false){
ValidBegin = true;
} else {
return CALENDAROBJECTVALID_INVALIDFORMAT;
}
}
if (ObjectName[SeekCount] == "END" &&
ObjectData[SeekCount] == "VJOURNAL" &&
ValidBegin == false){
return CALENDAROBJECTVALID_INVALIDFORMAT;
}
SeekCount++;
}
SeekCount = 0;
// Look for DTSTAMP.
for (vector::iterator iter = ObjectName.begin();
iter != ObjectName.end(); iter++){
try{
PropertyName = ObjectName[SeekCount].substr(0,7);
}
catch(const out_of_range& oor){
continue;
}
if (PropertyName == "DTSTAMP"){
if (ValidDateTimeStamp == false){
ValidDateTimeStamp = true;
} else {
return CALENDAROBJECTVALID_INVALIDFORMAT;
}
}
SeekCount++;
}
SeekCount = 0;
// Look for UID.
for (vector::iterator iter = ObjectName.begin();
iter != ObjectName.end(); iter++){
try{
PropertyName = ObjectName[SeekCount].substr(0,3);
}
catch(const out_of_range& oor){
continue;
}
if (PropertyName == "UID"){
if (ValidUniqueID == false){
ValidUniqueID = true;
} else {
return CALENDAROBJECTVALID_INVALIDFORMAT;
}
}
SeekCount++;
}
SeekCount = 0;
// Look for END:VJOURNAL.
for (vector::iterator iter = ObjectName.begin();
iter != ObjectName.end(); iter++){
if (ObjectName[SeekCount] == "END" &&
ObjectData[SeekCount] == "VJOURNAL"){
if (ValidEnd == false){
ValidEnd = true;
} else {
return CALENDAROBJECTVALID_INVALIDFORMAT;
}
}
SeekCount++;
}
// Check if the VJOURNAL is valid.
if (ValidBegin == true &&
ValidEnd == true &&
ValidDateTimeStamp == true &&
ValidUniqueID == true){
return CALENDAROBJECTVALID_OK;
} else {
return CALENDAROBJECTVALID_INVALIDFORMAT;
}
}
void CalendarJournalObject::ProcessData(){
// Process the data.
multimap DataReceived;
map PropertyData;
string *PropertyNameData = nullptr;
int ObjectSeekCount = 0;
// Get the Date Time Stamp (DTSTAMP).
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "DTSTAMP");
// Process the data from DTSTAMP.
if (DataReceived.begin() != DataReceived.end()){
try {
DateTimeStampTokens = DataReceived.begin()->first.substr(8);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
DateTimeStampData = DataReceived.begin()->second;
}
// Get the Unique ID (UID).
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "UID");
// Process the data from UID.
if (DataReceived.begin() != DataReceived.end()){
try {
UniqueIDTokens = DataReceived.begin()->first.substr(4);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
UniqueID = DataReceived.begin()->second;
}
// Process the data from CLASS.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "CLASS");
if (DataReceived.begin() != DataReceived.end()){
try {
ClassDataTokens = DataReceived.begin()->first.substr(6);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
ClassData = DataReceived.begin()->second;
}
// Get the Date Time Start value.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "DTSTART");
// Process the data from DTSTART.
if (DataReceived.begin() != DataReceived.end()){
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&DataReceived.begin()->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator iter = PropertyData.begin();
iter != PropertyData.end(); iter++){
if (iter->first == "VALUE"){
DateTimeStartDataValue = iter->second;
} else if (iter->first == "TZID"){
DateTimeStartDataTimeZoneID = iter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += iter->first;
PropertyTokens += "=";
PropertyTokens += iter->second;
}
}
if (PropertyTokens.size() > 0){
DateTimeStartDataTokens = PropertyTokens;
}
DateTimeStartData = DataReceived.begin()->second;
}
// Process the data from LAST-MODIFIED.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "LAST-MODIFIED");
if (DataReceived.begin() != DataReceived.end()){
try {
LastModifiedTokens = DataReceived.begin()->first.substr(14);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
LastModifiedData = DataReceived.begin()->second;
}
// Process the data from ORGANIZER.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "ORGANIZER");
if (DataReceived.begin() != DataReceived.end()){
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&DataReceived.begin()->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator iter = PropertyData.begin();
iter != PropertyData.end(); iter++){
if (iter->first == "CN"){
OrganiserDataCommonName = iter->second;
} else if (iter->first == "DIR"){
OrganiserDataDirectoryEntry = iter->second;
} else if (iter->first == "SENT-BY"){
OrganiserDataSentByParam = iter->second;
} else if (iter->first == "LANGUAGE"){
OrganiserDataLanguage = iter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += iter->first;
PropertyTokens += "=";
PropertyTokens += iter->second;
}
}
if (PropertyTokens.size() > 0){
OrganiserDataTokens = PropertyTokens;
}
OrganiserData = DataReceived.begin()->second;
}
// Process the data from RECURRENCE-ID.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "RECURRENCE-ID");
if (DataReceived.begin() != DataReceived.end()){
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&DataReceived.begin()->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator iter = PropertyData.begin();
iter != PropertyData.end(); iter++){
if (iter->first == "TZID"){
RecurranceIDDataTimeZoneParam = iter->second;
} else if (iter->first == "VALUE"){
RecurranceIDDataValue = iter->second;
} else if (iter->first == "RANGE"){
RecurranceIDDataRangeParam = iter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += iter->first;
PropertyTokens += "=";
PropertyTokens += iter->second;
}
}
if (PropertyTokens.size() > 0){
RecurranceIDDataTokens = PropertyTokens;
}
RecurranceIDData = DataReceived.begin()->second;
}
// Process the data from SEQUENCE.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "SEQUENCE");
if (DataReceived.begin() != DataReceived.end()){
try {
SequenceTokens = DataReceived.begin()->first.substr(9);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
try {
SequenceData = stoi(DataReceived.begin()->second);
}
catch(const invalid_argument &oor){
SequenceTokens.clear();
}
}
// Process the data from STATUS.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "STATUS");
if (DataReceived.begin() != DataReceived.end()){
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&DataReceived.begin()->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator iter = PropertyData.begin();
iter != PropertyData.end(); iter++){
if (iter->first == "LANGUAGE"){
StatusLanguage = iter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += iter->first;
PropertyTokens += "=";
PropertyTokens += iter->second;
}
}
if (PropertyTokens.size() > 0){
StatusTokens = PropertyTokens;
}
StatusData = DataReceived.begin()->second;
}
// Process the data from SUMMARY.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "SUMMARY");
if (DataReceived.begin() != DataReceived.end()){
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&DataReceived.begin()->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator iter = PropertyData.begin();
iter != PropertyData.end(); iter++){
if (iter->first == "ALTREP"){
SummaryDataAltRep = iter->second;
} else if (iter->first == "LANGUAGE"){
SummaryDataLanguage = iter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += iter->first;
PropertyTokens += "=";
PropertyTokens += iter->second;
}
}
if (PropertyTokens.size() > 0){
SummaryDataTokens = PropertyTokens;
}
SummaryData = DataReceived.begin()->second;
}
// Process the data from URL.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "URL");
if (DataReceived.begin() != DataReceived.end()){
try {
URLDataTokens = DataReceived.begin()->first.substr(4);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
URLData = DataReceived.begin()->second;
}
// Process the data from RRULE.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, false, "RRULE");
if (DataReceived.begin() != DataReceived.end()){
try {
RecurranceRuleDataTokens = DataReceived.begin()->first.substr(6);
}
catch(const out_of_range &oor){
// Do nothing as there is no data.
}
RecurranceRuleData = DataReceived.begin()->second;
}
// Process the data from ATTACH.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "ATTACH");
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
AttachListEncoding.push_back("");
AttachListValue.push_back("");
AttachListFormatType.push_back("");
AttachListTokens.push_back("");
AttachList.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "ENCODING"){
AttachListEncoding[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "VALUE"){
AttachListValue[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "FMTTYPE"){
AttachListFormatType[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
AttachListTokens[ObjectSeekCount] = PropertyTokens;
}
AttachList[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from ATTENDEE.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "ATTENDEE");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
AttendeeListMember.push_back("");
AttendeeListDelegatedFrom.push_back("");
AttendeeListDelegatedTo.push_back("");
AttendeeListRole.push_back("");
AttendeeListRSVP.push_back("");
AttendeeListDirectoryEntry.push_back("");
AttendeeListSentBy.push_back("");
AttendeeListCommonName.push_back("");
AttendeeListCalendarUserType.push_back("");
AttendeeListParticipationStatus.push_back("");
AttendeeListLanguage.push_back("");
AttendeeListTokens.push_back("");
AttendeeList.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "CUTYPE"){
AttendeeListCalendarUserType[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "MEMBER"){
AttendeeListMember[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "ROLE"){
AttendeeListRole[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "PARTSTAT"){
AttendeeListParticipationStatus[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "RSVP"){
AttendeeListRSVP[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "DELEGATED-TO"){
AttendeeListDelegatedTo[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "DELEGATED-FROM"){
AttendeeListDelegatedFrom[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "SENT-BY"){
AttendeeListSentBy[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "CN"){
AttendeeListCommonName[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "DIR"){
AttendeeListDirectoryEntry[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "LANGUAGE"){
AttendeeListLanguage[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
AttendeeListTokens[ObjectSeekCount] = PropertyTokens;
}
AttendeeList[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from CATEGORIES.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "CATEGORIES");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
CategoriesListTokens.push_back("");
CategoriesListLanguage.push_back("");
CategoriesList.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "LANGUAGE"){
CategoriesListLanguage[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
CategoriesListTokens[ObjectSeekCount] = PropertyTokens;
}
CategoriesList[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from COMMENT.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "COMMENT");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
CommentListTokens.push_back("");
CommentListAltRep.push_back("");
CommentListLanguage.push_back("");
CommentList.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "ALTREP"){
CommentListAltRep[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "LANGUAGE"){
CommentListLanguage[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
CommentListTokens[ObjectSeekCount] = PropertyTokens;
}
CommentList[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from CONTACT.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "CONTACT");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
ContactListTokens.push_back("");
ContactListAltRep.push_back("");
ContactListLanguage.push_back("");
ContactList.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "ALTREP"){
ContactListAltRep[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "LANGUAGE"){
ContactListLanguage[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
ContactListTokens[ObjectSeekCount] = PropertyTokens;
}
ContactList[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from Description.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "DESCRIPTION");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
DescriptionListTokens.push_back("");
DescriptionListAltRep.push_back("");
DescriptionListLanguage.push_back("");
DescriptionList.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "ALTREP"){
DescriptionListAltRep[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "LANGUAGE"){
DescriptionListLanguage[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
DescriptionListTokens[ObjectSeekCount] = PropertyTokens;
}
DescriptionList[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from EXDATE.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "EXDATE");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
ExcludeDateDataTokens.push_back("");
ExcludeDateDataValue.push_back("");
ExcludeDateDataTimeZoneParam.push_back("");
ExcludeDateData.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "VALUE"){
ExcludeDateDataValue[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "TZID"){
ExcludeDateDataTimeZoneParam[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
ExcludeDateDataTokens[ObjectSeekCount] = PropertyTokens;
}
ExcludeDateData[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from RELATED-TO.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "RELATED-TO");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
RelatedToDataTokens.push_back("");
RelatedToDataRelationType.push_back("");
RelatedToData.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "RELTYPE"){
RelatedToDataRelationType[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
RelatedToDataTokens[ObjectSeekCount] = PropertyTokens;
}
RelatedToData[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from RDATE.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "RDATE");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
RecurranceDateDataTokens.push_back("");
RecurranceDateDataValue.push_back("");
RecurranceDateDataTimeZoneParam.push_back("");
RecurranceDateData.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "VALUE"){
RecurranceDateDataValue[ObjectSeekCount] = dataiter->second;
} else if (dataiter->first == "TZID"){
RecurranceDateDataTimeZoneParam[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
RecurranceDateDataTokens[ObjectSeekCount] = PropertyTokens;
}
RecurranceDateData[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
// Process the data from REQUEST-STATUS.
DataReceived = ProcessTextVectors(&ObjectName, &ObjectData, true, "REQUEST-STATUS");
ObjectSeekCount = 0;
for(multimap::iterator iter = DataReceived.begin();
iter != DataReceived.end();
++iter){
RequestStatusTokens.push_back("");
RequestStatusLanguage.push_back("");
RequestStatusData.push_back("");
bool TokenData = false;
string PropertyTokens;
PropertyNameData = (string*)&iter->first;
PropertyData = SplitValues(*PropertyNameData);
for(map::iterator dataiter = PropertyData.begin();
dataiter != PropertyData.end(); dataiter++){
if (dataiter->first == "LANGUAGE"){
RequestStatusLanguage[ObjectSeekCount] = dataiter->second;
} else {
if (TokenData == false){
TokenData = true;
} else {
PropertyTokens += ";";
}
PropertyTokens += dataiter->first;
PropertyTokens += "=";
PropertyTokens += dataiter->second;
}
}
if (PropertyTokens.size() > 0){
RequestStatusTokens[ObjectSeekCount] = PropertyTokens;
}
RequestStatusData[ObjectSeekCount] = iter->second;
ObjectSeekCount++;
}
ObjectSeekCount = 0;
// Process data from X-*
for(vector::iterator iter = ObjectName.begin();
iter != ObjectName.end(); ++iter){
bool TokenData = false;
string PropertyTokens;
if (iter->substr(0,2) == "X-" &&
iter->size() > 2){
XTokensData.push_back(ObjectData[ObjectSeekCount]);
XTokensDataTokens.push_back(ObjectName[ObjectSeekCount]);
}
ObjectSeekCount++;
}
}