Exemplo n.º 1
0
        public static DateRange[] Coalesce(DateRange RangeA, DateRange RangeB)
        {
            bool CondA = RangeA.StartTime > RangeB.EndTime;
            bool CondB = RangeA.EndTime < RangeB.StartTime;
            bool overlaps = !(CondA || CondB);

            // bool overlaps = (RangeA.StartTime > RangeB.EndTime) && (RangeA.EndTime < RangeB.StartTime);

            //overlap exists if neither A or B is true.
            if (overlaps)
            {
                //overlap exists.
                //create a new starttime the lower of the given two...
                DateTime newstart, newEnd;

                if (RangeA.StartTime < RangeB.StartTime) newstart = RangeA.StartTime; else newstart = RangeB.StartTime;
                if (RangeA.EndTime > RangeB.EndTime) newEnd = RangeA.EndTime; else newEnd = RangeB.EndTime;

                return new DateRange[] { new DateRange(newstart, newEnd) };

            }
            else
            {
                //there is no overlap, return a daterange array with both the same elements.
                return new DateRange[] { (DateRange)RangeA.Clone(), (DateRange)RangeB.Clone() };

            }
        }
Exemplo n.º 2
0
        /// <summary>
        /// retrieves the elapsed Times for Users and Orders
        /// </summary>
        /// <param name="dr"></param>
        /// <param name="orderTimes">resulting dictionary of order times, indexed by RO#. Values</param>
        /// <param name="userTimes"></param>
        /// <remarks></remarks>
        public void GetElapsedData(DateRange dr, out Dictionary<String, TimeSpan> orderTimes,out Dictionary<String,TimeSpan> userTimes )
        {
            Dictionary<String, Stack<DateTime>> StartTimeOrderStack = new Dictionary<string, Stack<DateTime>>();
            Dictionary<String, Stack<DateTime>> StartTimeUserStack = new Dictionary<string, Stack<DateTime>>();
            Dictionary<String, TimeSpan> orderresult = new Dictionary<string, TimeSpan>();
            Dictionary<String, TimeSpan> userresult = new Dictionary<string, TimeSpan>();
            TimeSpan PrevOrderChunk = new TimeSpan();
            TimeSpan PrevUserChunk = new TimeSpan();
            List<ClockDataEntry> clockdata = new List<ClockDataEntry>();
            String clockedorder = String.Format("SELECT * FROM `CLOCKED` ORDER BY `STAMP` WHERE `STAMP`<\"{0}\" AND `STAMP`>\"{1}\"",dr.StartTime.getSQLfmt(),dr.EndTime.getSQLfmt());
            DbConnection dbcon;
            DbCommand dcmd = GetCommand(out dbcon);

            lock (this)
            {
                using(DbDataReader dreader = dcmd.ExecuteReader())
                {
                    while (dreader.Read())
                    {
                        int get_ID = dreader.GetInt32(dreader.GetOrdinal("ID"));
                        String get_PIN = dreader.GetString(dreader.GetOrdinal("UserPIN"));
                        String get_Order = dreader.GetString(dreader.GetOrdinal("OrderID"));
                        DateTime get_STAMP = dreader.GetDateTime(dreader.GetOrdinal("STAMP"));
                        String get_Event = dreader.GetString(dreader.GetOrdinal("EventType"));
                        if (!orderresult.ContainsKey(get_Order)) orderresult.Add(get_Order, new TimeSpan());
                        if (!userresult.ContainsKey(get_PIN)) userresult.Add(get_PIN, new TimeSpan());
                        if (!StartTimeOrderStack.ContainsKey(get_Order)) StartTimeOrderStack.Add(get_Order, new Stack<DateTime>());
                        if (!StartTimeUserStack.ContainsKey(get_PIN)) StartTimeUserStack.Add(get_PIN, new Stack<DateTime>());
                        clockdata.Add(new ClockDataEntry(get_ID, get_PIN, get_Order, get_STAMP, get_Event));

                    }

                }

            }

            foreach(var iterate in (from m in clockdata orderby m.STAMP ascending select m))
            {
                if (iterate.EventType == "IN")
                {
                    StartTimeOrderStack[iterate.OrderID].Push(iterate.STAMP);
                    StartTimeUserStack[iterate.PIN].Push(iterate.STAMP);

                }
                else if (iterate.EventType == "OUT")
                {
                    //if the stack is empty, this has no corresponding IN.
                    //this can happen if there was a clock-in before the daterange and we find the out entry after.
                    if (StartTimeOrderStack[iterate.OrderID].Count == 0)
                    {
                        //add the interval from the start of the range to this value.
                        //subtract prevorder chunk so we only end up with the "largest" value, if there are multiple time outs.
                        orderresult[iterate.OrderID] += (iterate.STAMP - dr.StartTime)-PrevOrderChunk;

                        PrevOrderChunk = (iterate.STAMP - dr.StartTime);
                    }
                    else
                    {
                        DateTime dopop = StartTimeOrderStack[iterate.OrderID].Pop();
                        if (StartTimeOrderStack[iterate.OrderID].Count == 0)
                        {
                            //if it is empty add the interval to the timespan.
                            orderresult[iterate.OrderID] += (iterate.STAMP - dopop);

                        }
                    }
                    //if the user stack is empty, then there is no corresponding user time in event for this item.
                    if (StartTimeUserStack[iterate.PIN].Count == 0)
                    {
                        //add the interval from the start of the range to this value.
                        userresult[iterate.PIN] += (iterate.STAMP - dr.StartTime)-PrevUserChunk;
                        PrevUserChunk = (iterate.STAMP - dr.StartTime);

                    }
                    else
                    {

                        DateTime dopopu = StartTimeUserStack[iterate.PIN].Pop();
                        if (StartTimeUserStack[iterate.PIN].Count == 0)
                        {
                            userresult[iterate.PIN] += (iterate.STAMP - dopopu);

                        }
                    }

                }

            }

            //lastly, we want to get the earliest Time in the StartTimeUserStack and StartTimeOrderStack, for each Order and User,
            //and add it to the respective orderresult and userresult entries. (to account for cases where we have a Time IN but no time out because of the daterange)

            //iterate through the KeyValuePairs...
            if (StartTimeOrderStack.Count > 0)
            {
                foreach (var kvp in StartTimeOrderStack)
                {
                    //find the earliest Time in this stack.
                    DateTime currearliest = DateTime.MaxValue;
                    foreach (var iterateearly in kvp.Value)
                    {
                        if (iterateearly < currearliest)
                            currearliest = iterateearly;
                    }
                    orderresult[kvp.Key] += (dr.EndTime-currearliest);

                }
            }

            //repeat for the UserStack...

            if (StartTimeUserStack.Count > 0)
            {
                foreach (var kvp in StartTimeUserStack)
                {
                    //find earliest time...
                    DateTime earlyusertime = DateTime.MaxValue;
                    foreach (var iterateearly in kvp.Value)
                    {
                        if (iterateearly < earlyusertime)
                            earlyusertime = iterateearly;

                    }
                    userresult[kvp.Key] += (dr.EndTime - earlyusertime);

                }

            }

            //and return the results.

            orderTimes = orderresult;
            userTimes = userresult;
        }
Exemplo n.º 3
0
        public List<ClockDataEntry> GetClockedInRange(DateRange userange)
        {
            String sqlquery = "SELECT * FROM CLOCKED WHERE `STAMP`>\"{0}\" AND `STAMP`<\"{1}\"";
            string sqluse = String.Format(sqlquery, userange.StartTime.getSQLfmt(), userange.EndTime.getSQLfmt());

            DbConnection dcon;
            DbCommand dcmd = GetCommand(out dcon);
            List<ClockDataEntry> result = new List<ClockDataEntry>();
            dcmd.CommandText = sqluse;
            lock (this)
            {
                using (DbDataReader dreader = dcmd.ExecuteReader())
                {

                    while (dreader.Read())
                    {
                        int _ID = dreader.GetInt32(dreader.GetOrdinal("ID"));
                        String _PIN = dreader.GetString(dreader.GetOrdinal("UserPIN"));
                        String _OrderID = dreader.GetString(dreader.GetOrdinal("OrderID"));
                        DateTime _Stamp = dreader.GetDateTime(dreader.GetOrdinal("STAMP"));
                        String _EType = dreader.GetString(dreader.GetOrdinal("EventType"));

                        result.Add(new ClockDataEntry(_ID, _PIN, _OrderID, _Stamp, _EType));

                    }

                }

            }
            return result;
        }
Exemplo n.º 4
0
        public DateRange[] GetUserWorkOrderRanges(String UserID, String OrderID)
        {
            String RelevantRecordsSQL = qAdapter["USERTOTALTIMEQUERY"];
            //select all records in the CLOCKED table (which is used to store all clock-in/out events) that have the given UserPIN and OrderID.

            DbConnection dcon;
            DbCommand usecmd = GetCommand(out dcon);

            usecmd.CommandText = String.Format(RelevantRecordsSQL, UserID, OrderID);

            DateTime usecurrent = DBTime();
            //NOTE: ASSUMPTION: we assume, naturally, that a user cannot clock into a order twice. This could be the case as far as the CLOCKED table, though in case of DB corruption
            //or other circumstances, so if that happens we will throw a exception.
            //DatabaseStructureCorruptedException
            List<DateRange> buildlisting = new List<DateRange>();
            DateTime? getstarttime = null, getendtime = null;
            TimeSpan accumulator = new TimeSpan();
            using (DbDataReader readdata = usecmd.ExecuteReader())
            {
                DateTime laststamp = new DateTime();

                while (readdata.Read())
                {
                    DateTime getstamp = readdata.GetDateTime(readdata.GetOrdinal("STAMP"));
                    laststamp = getstamp;
                    String etype = readdata.GetString(readdata.GetOrdinal("EventType"));

                    if (etype == "IN")
                    {
                        getstarttime = getstamp;

                    }
                    else
                    {

                        if (getstarttime != null)
                        {
                            getendtime = getstamp;
                            DateRange buildrange = new DateRange(getstarttime.Value, getendtime.Value);
                            buildlisting.Add(buildrange);
                            getstarttime = null;
                            //accumulator += buildrange.Span;
                        }
                    }

                }

                if (getstarttime != null)
                {
                    if (laststamp > usecurrent)
                    {
                        Debug.Print("laststamp > DBTime()");
                    }
                    DateRange buildrange2 = new DateRange(laststamp, usecurrent);
                    Debug.Print(buildrange2.ToString());
                    buildlisting.Add(buildrange2);
                    //accumulator+=buildrange2.Span;
                    //TimeSpan addvalue = (DBTime() - getstarttime.Value).Duration();
                    // Debug.Print("adding accumulated value:" + addvalue.ToString());

                }
            }

            return buildlisting.ToArray();
        }
Exemplo n.º 5
0
        public TimeSpan GetUserTotalTimeOnOrder(String UserID, String OrderID, out DateRange[] ranges)
        {
            String RelevantRecordsSQL = qAdapter["USERTOTALTIMEQUERY"];
            //select all records in the CLOCKED table (which is used to store all clock-in/out events) that have the given UserPIN and OrderID.

            DbConnection dcon;
            DbCommand usecmd = GetCommand(out dcon);

            usecmd.CommandText = String.Format(RelevantRecordsSQL,UserID,OrderID);

            DateTime usecurrent = DBTime();
            if (UserID.Equals("0812"))
            {
                Debug.Print("bug...");

            }
            List<DateRange> buildlisting = GetUserWorkOrderRanges(UserID, OrderID).ToList();
            long sumticks = 0;
            foreach (var blisting in buildlisting)
            {

                sumticks+=blisting.Span.Ticks;

            }
            ranges = buildlisting.ToArray();
            TimeSpan totalresult =  new TimeSpan(sumticks);
            return totalresult;
            //return accumulator;
        }
Exemplo n.º 6
0
        public static DateRange[] CoalesceRanges(DateRange[] ranges)
        {
            //coalesces/simplifies a given set of date ranges to the simplest form. For example:
            /*   a
             * |----|
             *     b
             *   |----|       c
             *              |----|
             * */
            //will return an array of two Dateranges:

            /*    a
             * |-----|
             *               b
             *             |----|

             * */
            //this is the "simplest" reduction of what the previous ranges were.
            List<DateRange> userange = ranges.ToList();
            //userange.Sort((w,p)=>w.StartTime.CompareTo(p.StartTime));
            List<DateRange> workalist = userange;
            List<DateRange> result = new List<DateRange>();

            //algorithm
            //set a flag indicating a coalesce was discovered to true.
            //iterate while said flag is true.

            //set flag to false as loop begins.
            //iterate through every possible pair X and Y in the List. skip iterations where X==Y.

            //for each possible pairing:
            //coalesce the two DateRanges. If the results coalesce (the return value array has a length of 1)
            //mark x and y for removal, set the new Array to be AddRanged() to the List, and break out of both loops, and set the flag saying that
            //a coalesce was discovered.

            bool coalescefound = true;
            while (coalescefound)
            {
                List<DateRange> removalmarked = new List<DateRange>();
                List<DateRange> addmarked = new List<DateRange>();
                bool breakouter = false;
                coalescefound = false;
                foreach (DateRange x in workalist)
                {
                    foreach (DateRange y in workalist)
                    {
                        if (x != y)
                        {
                            DateRange[] coalresult = DateRange.Coalesce(x, y);

                            if (coalresult.Length == 1)
                            {
                                coalescefound = true;
                                //add new array to be added...
                                addmarked.AddRange(coalresult);
                                //remove both x and y. We can't remove them here since we are iterating...
                                removalmarked.Add(x);
                                removalmarked.Add(y);
                                breakouter = true;
                                break;

                            }

                        }

                    }

                    if (breakouter) break; //break out of outer iterator if flag set.

                }
                //add and remove the marked items.
                foreach (var removeme in removalmarked)
                {

                    workalist.Remove(removeme);

                }
                foreach (var addme in addmarked)
                {
                    workalist.Add(addme);

                }

            }

            return workalist.ToArray();
        }
Exemplo n.º 7
0
 public DateRange[] Coalesce(DateRange Otherdaterange)
 {
     return DateRange.Coalesce(this, Otherdaterange);
 }