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tdenetwork/kopete/plugins/statistics/statisticscontact.cpp

516 lines
17 KiB

/*
statisticscontact.cpp
Copyright (c) 2003-2004 by Marc Cramdal <marc.cramdal@gmail.com>
*************************************************************************
* *
* This program 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; either version 2 of the License, or *
* (at your option) any later version. *
* *
*************************************************************************
*/
#include <stdlib.h>
#include <tqvaluelist.h>
#include <tquuid.h>
#include <kdebug.h>
#include <klocale.h>
#include "kopetemetacontact.h"
#include "kopeteonlinestatus.h"
#include "statisticscontact.h"
#include "statisticsdb.h"
StatisticsContact::StatisticsContact(Kopete::MetaContact *mc, StatisticsDB *db) : m_metaContact(mc),m_db(db), m_oldtqStatus(Kopete::OnlineStatus::Unknown)
{
m_isChatWindowOpen = false;
m_oldStatusDateTime = TQDateTime::tqcurrentDateTime();
// Last*Changed are always false at start
m_timeBetweenTwoMessagesChanged = false;
m_lastTalkChanged = false;
m_lastPresentChanged = false;
m_messageLengthChanged = false;
}
/**
* \brief saves contact statistics
*/
StatisticsContact::~StatisticsContact()
{
if (m_statisticsContactId.isEmpty())
return;
commonStatsSave("timebetweentwomessages",TQString::number(m_timeBetweenTwoMessages),
TQString::number(m_timeBetweenTwoMessagesOn), m_timeBetweenTwoMessagesChanged);
commonStatsSave("messagelength",TQString::number(m_messageLength), TQString::number(m_messageLengthOn), m_messageLengthChanged);
commonStatsSave("lasttalk", m_lastTalk.toString(), "", m_lastTalkChanged);
commonStatsSave("lastpresent", m_lastPresent.toString(), "", m_lastPresentChanged);
}
void StatisticsContact::initialize(Kopete::Contact *c)
{
// Generate statisticsContactId or get it from database
TQStringList buffer = m_db->query(TQString("SELECT statisticid FROM contacts "
"WHERE contactid LIKE '%1';"
).tqarg(c->contactId()));
if (buffer.isEmpty())
{
// Check if we don't have old data
if ( !c->metaContact()->metaContactId().isEmpty() &&
!m_db->query(TQString("SELECT metacontactid FROM commonstats "
"WHERE metacontactid LIKE '%1';"
).tqarg(c->metaContact()->metaContactId())).isEmpty())
{
// Use old style id
m_statisticsContactId = c->metaContact()->metaContactId();
}
else
{
// Create new id
m_statisticsContactId = TQUuid::createUuid().toString();
}
// Assign contactId to m_statisticsContactId
m_db->query(TQString("INSERT INTO contacts (statisticid, contactid) VALUES('%1', '%2');"
).tqarg(m_statisticsContactId).tqarg(c->contactId()));
}
else
{
m_statisticsContactId = buffer[0];
}
kdDebug() << k_funcinfo << " m_statisticsContactId: " << m_statisticsContactId << endl;
commonStatsCheck("timebetweentwomessages", m_timeBetweenTwoMessages, m_timeBetweenTwoMessagesOn, 0, -1);
commonStatsCheck("messagelength", m_messageLength, m_messageLengthOn, 0, 0);
// Check for last talk
TQString lastTalk;
TQString dummy = "";
commonStatsCheck("lasttalk", lastTalk, dummy);
if (lastTalk.isEmpty())
{
m_lastTalk.setTime_t(0);
m_lastTalkChanged = true;
}
else
m_lastTalk = TQDateTime::fromString(lastTalk);
// Get last time a message was received
m_lastMessageReceived = TQDateTime::tqcurrentDateTime();
// Check for lastPresent
TQString lastPresent = "";
commonStatsCheck("lastpresent", lastPresent, dummy);
if (lastPresent.isEmpty())
{
m_lastPresent.setTime_t(0);
m_lastPresentChanged = true;
}
else
m_lastPresent = TQDateTime::fromString(lastPresent);
}
void StatisticsContact::contactAdded( Kopete::Contact *c )
{
if ( !m_statisticsContactId.isEmpty() )
{
// Check if contact is allready in database if not add it
if (m_db->query(TQString("SELECT id FROM contacts "
"WHERE statisticid LIKE '%1' AND contactid LIKE '%2';"
).tqarg(m_statisticsContactId).tqarg(c->contactId())).isEmpty())
{
// Assign contactId to m_statisticsContactId
m_db->query(TQString("INSERT INTO contacts (statisticid, contactid) VALUES('%1', '%2');"
).tqarg(m_statisticsContactId).tqarg(c->contactId()));
}
kdDebug() << k_funcinfo << " m_statisticsContactId: " << m_statisticsContactId << endl;
}
else
{
// This is first contact, we need to initialize this object
initialize(c);
}
}
void StatisticsContact::contactRemoved( Kopete::Contact *c )
{
if (m_statisticsContactId.isEmpty())
return;
kdDebug() << k_funcinfo << " m_statisticsContactId: " << m_statisticsContactId << endl;
m_db->query(TQString("DELETE FROM contacts WHERE statisticid LIKE '%1' AND contactid LIKE '%2';"
).tqarg(m_statisticsContactId).tqarg(c->contactId()));
}
void StatisticsContact::removeFromDB()
{
if (m_statisticsContactId.isEmpty())
return;
kdDebug() << k_funcinfo << " m_statisticsContactId: " << m_statisticsContactId << endl;
m_db->query(TQString("DELETE FROM contacts WHERE statisticid LIKE '%1';").tqarg(m_statisticsContactId));
m_db->query(TQString("DELETE FROM contactstatus WHERE metacontactid LIKE '%1';").tqarg(m_statisticsContactId));
m_db->query(TQString("DELETE FROM commonstats WHERE metacontactid LIKE '%1';").tqarg(m_statisticsContactId));
m_statisticsContactId = TQString();
}
void StatisticsContact::commonStatsSave(const TQString name, const TQString statVar1, const TQString statVar2, const bool statVarChanged)
{
// Only update the database if there was a change
if (!statVarChanged) return;
if (m_statisticsContactId.isEmpty())
return;
m_db->query(TQString("UPDATE commonstats SET statvalue1 = '%1', statvalue2='%2'"
"WHERE statname LIKE '%3' AND metacontactid LIKE '%4';").tqarg(statVar1).tqarg(statVar2).tqarg(name).tqarg(m_statisticsContactId));
}
void StatisticsContact::commonStatsCheck(const TQString name, int& statVar1, int& statVar2, const int defaultValue1, const int defaultValue2)
{
TQString a = TQString::number(statVar1);
TQString b = TQString::number(statVar2);
commonStatsCheck(name, a, b, TQString::number(defaultValue1), TQString::number(defaultValue2));
statVar1 = a.toInt();
statVar2 = b.toInt();
}
void StatisticsContact::commonStatsCheck(const TQString name, TQString& statVar1, TQString& statVar2, const TQString defaultValue1, const TQString defaultValue2)
{
if (m_statisticsContactId.isEmpty())
return;
TQStringList buffer = m_db->query(TQString("SELECT statvalue1,statvalue2 FROM commonstats WHERE statname LIKE '%1' AND metacontactid LIKE '%2';").tqarg(name, m_statisticsContactId));
if (!buffer.isEmpty())
{
statVar1 = buffer[0];
statVar2 = buffer[1];
}
else
{
m_db->query(TQString("INSERT INTO commonstats (metacontactid, statname, statvalue1, statvalue2) VALUES('%1', '%2', 0, 0);").tqarg(m_statisticsContactId, name));
statVar1 = defaultValue1;
statVar2 = defaultValue2;
}
}
/**
* \brief records informations from the new message
*
* Currently it does :
* <ul>
* <li>Recalculate the average time between two messages
* It should only calculate this time if a chatwindow is open (sure, it isn't
* perfect, because we could let a chatwindow open a whole day but that's at this * time the nicest way, maybe we could check the time between the two last messages
* and if it is greater than, say, 10 min, do as there where no previous message)
* So we do this when the chatwindow is open. We don't set m_isChatWindowOpen to true
* when a new chatwindow is open, but when a new message arrives. However, we set it
* to false when the chatwindow is closed (see StatisticsPlugin::slotViewClosed).
*
* Then it is only a question of some calculations.
*
* <li>Recalculate the average message lenght
*
* <li>Change last-talk datetime
* </ul>
*
*/
void StatisticsContact::newMessageReceived(Kopete::Message& m)
{
kdDebug() << "statistics: new message received" << endl;
TQDateTime tqcurrentDateTime = TQDateTime::tqcurrentDateTime();
if (m_timeBetweenTwoMessagesOn != -1 && m_isChatWindowOpen)
{
m_timeBetweenTwoMessages = (m_timeBetweenTwoMessages*m_timeBetweenTwoMessagesOn + m_lastMessageReceived.secsTo(tqcurrentDateTime))/(1 + m_timeBetweenTwoMessagesOn);
}
setIsChatWindowOpen(true);
m_timeBetweenTwoMessagesOn += 1;
m_lastMessageReceived = tqcurrentDateTime;
// Message lenght
m_messageLength= (m.plainBody().length() + m_messageLength * m_messageLengthOn)/(1 + m_messageLengthOn);
m_messageLengthOn++;
// Last talked
/// @todo do this in message sent too. So we need setLastTalk()
m_lastTalk = tqcurrentDateTime;
m_messageLengthChanged = true;
m_lastTalkChanged = true;
m_timeBetweenTwoMessagesChanged = true;
}
/**
* \brief Update the database for this contact when required.
*/
void StatisticsContact::onlineStatusChanged(Kopete::OnlineStatus::StatusType status)
{
if (m_statisticsContactId.isEmpty())
return;
TQDateTime tqcurrentDateTime = TQDateTime::tqcurrentDateTime();
/// We don't want to log if oldtqStatus is unknown
/// the change could not be a real one; see StatisticsPlugin::slotMySelfOnlineStatusChanged
if (m_oldtqStatus != Kopete::OnlineStatus::Unknown)
{
kdDebug() << "statistics - status change for "<< metaContact()->metaContactId() << " : "<< TQString::number(m_oldtqStatus) << endl;
m_db->query(TQString("INSERT INTO contactstatus "
"(metacontactid, status, datetimebegin, datetimeend) "
"VALUES('%1', '%2', '%3', '%4'" ");").tqarg(m_statisticsContactId).tqarg(Kopete::OnlineStatus::statusTypeToString(m_oldtqStatus)).tqarg(TQString::number(m_oldStatusDateTime.toTime_t())).tqarg(TQString::number(tqcurrentDateTime.toTime_t())));
}
if (m_oldtqStatus == Kopete::OnlineStatus::Online || m_oldtqStatus == Kopete::OnlineStatus::Away)
// If the last status was Online or Away, the last time contact was present is the time he goes offline
{
m_lastPresent = tqcurrentDateTime;
m_lastPresentChanged = true;
}
m_oldtqStatus = status;
m_oldStatusDateTime = tqcurrentDateTime;
}
bool StatisticsContact::wastqStatus(TQDateTime dt, Kopete::OnlineStatus::StatusType status)
{
if (m_statisticsContactId.isEmpty())
return false;
TQStringList values = m_db->query(TQString("SELECT status, datetimebegin, datetimeend "
"FROM contactstatus WHERE metacontactid LIKE '%1' AND datetimebegin <= %2 AND datetimeend >= %3 "
"AND status LIKE '%4' "
"ORDER BY datetimebegin;"
).tqarg(m_statisticsContactId).tqarg(dt.toTime_t()).tqarg(dt.toTime_t()).tqarg(Kopete::OnlineStatus::statusTypeToString(status)));
if (!values.isEmpty()) return true;
return false;
}
TQString StatisticsContact::statusAt(TQDateTime dt)
{
if (m_statisticsContactId.isEmpty())
return "";
TQStringList values = m_db->query(TQString("SELECT status, datetimebegin, datetimeend "
"FROM contactstatus WHERE metacontactid LIKE '%1' AND datetimebegin <= %2 AND datetimeend >= %3 "
"ORDER BY datetimebegin;"
).tqarg(m_statisticsContactId).tqarg(dt.toTime_t()).tqarg(dt.toTime_t()));
if (!values.isEmpty()) return Kopete::OnlineStatus(Kopete::OnlineStatus::statusStringToType(values[0])).description();
else return "";
}
TQString StatisticsContact::mainStatusDate(const TQDate& date)
{
if (m_statisticsContactId.isEmpty())
return "";
TQDateTime dt1(date, TQTime(0,0,0));
TQDateTime dt2(date.addDays(1), TQTime(0,0,0));
kdDebug() << "dt1:" << dt1.toString() << " dt2:" << dt2.toString() << endl;
TQString request = TQString("SELECT status, datetimebegin, datetimeend, metacontactid "
"FROM contactstatus WHERE metacontactid = '%1' AND "
"(datetimebegin >= %2 AND datetimebegin <= %3 OR "
"datetimeend >= %4 AND datetimeend <= %5) "
"ORDER BY datetimebegin;"
).tqarg(m_statisticsContactId).tqarg(dt1.toTime_t()).tqarg(dt2.toTime_t()).tqarg(dt1.toTime_t()).tqarg(dt2.toTime_t());
kdDebug() << request << endl;
TQStringList values = m_db->query(request);
unsigned int online = 0, offline = 0, away = 0;
for(uint i=0; i<values.count(); i+=4)
{
unsigned int datetimebegin = values[i+1].toInt(), datetimeend = values[i+2].toInt();
kdDebug() << "statistics: id "<< values[i+3]<< " status " << values[i] << " datetimeend " << TQString::number(datetimeend) << " datetimebegin " << TQString::number(datetimebegin) << endl;
if (datetimebegin <= dt1.toTime_t()) datetimebegin = dt1.toTime_t();
if (datetimeend >= dt2.toTime_t()) datetimeend = dt2.toTime_t();
if (values[i]==Kopete::OnlineStatus::statusTypeToString(Kopete::OnlineStatus::Online))
online += datetimeend - datetimebegin;
else if (values[i]==Kopete::OnlineStatus::statusTypeToString(Kopete::OnlineStatus::Away))
away += datetimeend - datetimebegin;
else if (values[i]==Kopete::OnlineStatus::statusTypeToString(Kopete::OnlineStatus::Offline))
offline += datetimeend - datetimebegin;
}
if (online > away && online > offline) return i18n("Online");
else if (away > online && away > offline) return i18n("Away");
else if (offline > online && offline > away) return i18n("Offline");
return "";
}
// TQDateTime StatisticsContact::nextOfflineEvent()
// {
// return nextEvent(Kopete::OnlineStatus::Offline);
// }
//
// TQDateTime StatisticsContact::nextOnlineEvent()
// {
// return nextEvent(Kopete::OnlineStatus::Online);
// }
// TQDateTime StatisticsContact::nextEvent(const Kopete::OnlineStatus::StatusType& status)
// {
//
// }
TQValueList<TQTime> StatisticsContact::mainEvents(const Kopete::OnlineStatus::StatusType& status)
{
TQStringList buffer;
TQValueList<TQTime> mainEvents;
if (m_statisticsContactId.isEmpty())
return mainEvents;
TQDateTime tqcurrentDateTime = TQDateTime::tqcurrentDateTime();
buffer = m_db->query(TQString("SELECT datetimebegin, datetimeend, status FROM contactstatus WHERE metacontactid LIKE '%1' ORDER BY datetimebegin").tqarg(m_statisticsContactId));
// Only select the events for which the previous is not Unknown AND the status is status.
TQStringList values;
for (uint i=0; i<buffer.count(); i += 3)
{
if (buffer[i+2] == Kopete::OnlineStatus::statusTypeToString(status)
&& abs(buffer[i+1].toInt()-buffer[i].toInt()) > 120)
{
values.push_back(buffer[i]);
}
}
// No entries for this contact ...
if (!values.count()) return mainEvents;
// First we compute the average number of events/day : avEventsPerDay;
int avEventsPerDay = 0;
TQDateTime dt1, dt2;
dt1.setTime_t(values[0].toInt());
dt2.setTime_t(values[values.count()-1].toInt());
avEventsPerDay = tqRound((double)values.count()/(double)dt1.daysTo(dt2));
kdDebug() << "statistics: average events per day : " <<avEventsPerDay << endl;
// We want to work on hours
TQValueList<int> hoursValues;
for (uint i=0; i<values.count(); i++)
{
TQDateTime dt;
dt.setTime_t(values[i].toInt());
hoursValues.push_back(TQTime(0, 0, 0).secsTo(dt.time()));
}
// Sort the list
qHeapSort(hoursValues);
// Then we put some centroids (centroids in [0..24[)
TQValueList<int> centroids;
int incr=tqRound((double)hoursValues.count()/(double)avEventsPerDay);
incr = incr ? incr : 1;
for (uint i=0; i<hoursValues.count(); i+=incr)
{
centroids.push_back(hoursValues[i]);
kdDebug() << "statistics: add a centroid : " << centroids[centroids.count()-1] << endl;
}
// We need to compute the centroids
centroids = computeCentroids(centroids, hoursValues);
// Convert to TQDateTime
for (uint i=0; i<centroids.count(); i++)
{
kdDebug() << "statistics: new centroid : " << centroids[i] << endl;
TQTime dt(0, 0, 0);
dt = dt.addSecs(centroids[i]);
mainEvents.push_back(dt);
}
return mainEvents;
}
TQValueList<int> StatisticsContact::computeCentroids(const TQValueList<int>& centroids, const TQValueList<int>& values)
{
kdDebug() << "statistics: enter compute centroids"<< endl;
TQValueList<int> whichCentroid; // whichCentroid[i] = j <=> values[i] has centroid j for closest one
TQValueList<int> newCentroids;
for (uint i=0; i<values.count(); i++)
// Iterates over the values. For each one we need to get the closest centroid.
{
int value = values[i];
int distanceToNearestCentroid = abs(centroids[0]-value);
int nearestCentroid = 0;
for (uint j=1; j<centroids.count(); j++)
{
if (abs(centroids[j]-value) < distanceToNearestCentroid)
{
distanceToNearestCentroid = abs(centroids[j]-value);
nearestCentroid = j;
}
}
whichCentroid.push_back(nearestCentroid);
}
// Recompute centroids
newCentroids = centroids;
for (uint i=0; i<newCentroids.count(); i++)
{
kdDebug() << "statistics: compute new centroids"<< i << endl;
int weight = 0;
for (uint j=0; j<values.count(); j++)
{
int value = values[j];
if (whichCentroid[j] == i)
{
newCentroids[i] = tqRound((double)(value + newCentroids[i]*weight)/(double)(weight + 1));
weight++;
}
}
}
// Should we recompute or are we OK ?
int dist = 0;
for (uint i=0; i < newCentroids.count(); i++)
dist += abs(newCentroids[i]-centroids[i]);
if (dist > 10)
return computeCentroids(newCentroids, values);
else
{
return newCentroids;
}
}