Ejemplo n.º 1
0
 public E <LocalStr> SendServerMessage(string message)
 {
     if (TsString.TokenLength(message) > TsConst.MaxSizeTextMessage)
     {
         return(new LocalStr(strings.error_ts_msg_too_long));
     }
     return(ts3FullClient.SendServerMessage(message, 1).FormatLocal());
 }
Ejemplo n.º 2
0
 public void Split()
 {
     for (int i = 4; i < MaxSplit; i++)
     {
         var parts = LongTextTransform.Split(Str1, LongTextBehaviour.SplitHard, maxMessageSize: i).ToArray();
         foreach (var part in parts)
         {
             Assert.LessOrEqual(TsString.TokenLength(part), i);
         }
         var joined = string.Concat(parts);
         Assert.AreEqual(Str1, joined);
     }
 }
Ejemplo n.º 3
0
        public string ProcessQuery(IEnumerable <AudioLogEntry> entries, Func <AudioLogEntry, string> format)
        {
            //! entryLinesRev[0] is the most recent entry
            var entryLinesRev = entries.Select(e =>
            {
                string finStr = format(e);
                return(new Line {
                    Value = finStr, TokenLength = TsString.TokenLength(finStr)
                });
            });

            //! entryLines[n] is the most recent entry
            var entryLines = entryLinesRev.Reverse();

            var           queryTokenLen = entryLines.Sum(eL => eL.TokenLength + LineBreakLen);
            StringBuilder strb;

            // If the entire content fits within the ts3 limitation, we can concat and return it.
            if (queryTokenLen <= TsConst.MaxSizeTextMessage)
            {
                if (queryTokenLen == 0)
                {
                    return("Nothing found!");
                }
                strb = new StringBuilder(queryTokenLen, queryTokenLen);
                // we want the most recent entry at the bottom so we reverse the list
                foreach (var eL in entryLines)
                {
                    strb.Append(eL.Value).Append(LineBreak);
                }
                return(strb.ToString());
            }

            int spareToken = TsConst.MaxSizeTextMessage;
            int listStart  = 0;

            // Otherwise we go iteratively through the list to test how many entries we can add with our token
            foreach (var eL in entryLinesRev)
            {
                // if we don't have enough token to fit in the next entry (even in shorted form)
                // then we break and use the last few tokens in the next step to fill up.
                if (spareToken < 0 || (spareToken < MinTokenLine && spareToken < eL.TokenLength))
                {
                    break;
                }
                // now the further execution is legal because of either of those cases
                // 1) !(spareToken < MinTokenLine):              entry will be trimmed to MinTokenLine and fits
                // 2) !(spareToken < entryLines[i].TokenLength): entry already fits into spareTokens

                if (eL.TokenLength < MinTokenLine)
                {
                    spareToken -= eL.TokenLength;
                    listStart++;
                }
                else
                {
                    spareToken -= MinTokenLine;
                    listStart++;
                }
            }

            //! useList[0] is the most recent entry
            var useList = entryLinesRev.Take(listStart).ToList();

            if (fairDistribute)
            {
                // If the fairDistribute option is active this loop will start out by trying to give each
                // entry an equal fraction of all spareToken.
                for (int i = 0; i < useList.Count; i++)
                {
                    if (spareToken <= 0)
                    {
                        break;
                    }
                    int fairBonus = spareToken / (useList.Count - i);
                    int available = Math.Min(fairBonus, useList[i].TokenLength);
                    useList[i].BonusToken = available;
                    spareToken           -= available;
                }
            }
            else
            {
                // Now distribute the remaining tokens by first come first serve in reverse order
                // so the more recent an entry is the more token it gets
                foreach (var eL in useList)
                {
                    if (spareToken <= 0)
                    {
                        break;
                    }
                    if (eL.TokenLength > UseableTokenLine)
                    {
                        int available = Math.Min(spareToken, eL.TokenLength - UseableTokenLine);
                        eL.BonusToken = available;
                        spareToken   -= available;
                    }
                }
            }

            // now we can just build our result and return
            strb = new StringBuilder(TsConst.MaxSizeTextMessage - spareToken, TsConst.MaxSizeTextMessage);
            for (int i = useList.Count - 1; i >= 0; i--)
            {
                var eL = useList[i];
                if (eL.TokenLength < UseableTokenLine + eL.BonusToken)
                {
                    strb.Append(eL.Value).Append(LineBreak);
                }
                else
                {
                    strb.Append(SubstringToken(eL.Value, UseableTokenLine + eL.BonusToken)).Append(LineBreak);
                }
            }

            return(strb.ToString());
        }