Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a binary search on a file. The file is filled with log messages where each line begins with a date (dates or sorted based on event occurs)


  • 2011-09-18
  • 2011-09-18
  • 2011-09-18
  • 2011-09-18
  • 2011-09-18

If i need to find this date for example: 2011-09-18 my binary search will not find an exact match - but i don't need exact match, i need to find the closest date to it (there is my position).

The current code will jump between 2011-09-18 and 2011-09-18

I need some help how to modify the below code so that i get the closest number. In the above situation i would like to have: 2011-09-18 (better more than less)

BinarySearch::BinarySearch(QString strFileName,QDateTime dtFrom_target,QDateTime dtTo_target)

    QFile file(strFileName);
    qint64 nFileSize = file.size();

    int nNewFromPos;
    int nNewToPos;

    nNewFromPos = Search(file, dtFrom_target, nFileSize);
    nNewToPos  = Search(file, dtFrom_target, nFileSize);

    if(nNewFromPos!=-1 && nNewToPos!=-1){
        // now parse the new range

        // dates out of bound


int BinarySearch::Search(QFile &file, QDateTime dtKey, int nMax) 
    char lineBuffer[1024];  
    qint64 lineLength;
    QDateTime dtMid;        
    int mid;
    int min; 
    if(!min) min = 0;

   while (min <= nMax) 
       mid=(min+nMax)/2;    // compute mid point.                             ;  // seek to middle of file (position based on bytes)
       qint64 lineLength=file.readLine(lineBuffer,sizeof(lineBuffer)); // read until \n or error

       if (lineLength != -1) //something is read
           // validate string begin (pos = 0) starts with date

           lineLength = file.readLine(lineBuffer, 24); //read exactly enough chars for the date from the beginning of the log file

           if(lineLength == 23)
            dtMid = QDateTime::fromString(QString(lineBuffer),"yyyy-MM-dd"); //2011-09-15

                    if(dtKey > dtMid){
                        min = mid + 1; 
                    else if(dtKey < dtMid){
                        max = mid - 1; // repeat search in bottom half.
                        return mid;     // found it. return position
   return -1;    // failed to find key
share|improve this question
I don't get it. If mid doesn't happen to coincide with the start of a line, how can this possibly work? – TonyK Sep 26 '11 at 15:06
hi, readLine function reads until \n, after that i read just enough chars from the beginning of the line so that timestamp i have in lineBuffer. From there i just convert to dateTime object and use >,<,= operators for comparing dateTime objects. But the real problem is that i don't need a classic binary search like for example mine above -> i need to find the closest match (exact match will never be found) – PathOfNeo Sep 27 '11 at 10:49
OK, I see how it works now. But you're still doing a byte-based binary search, so after you've found the closest record, you are going to continue searching unnecessarily within that record (or the previous record) for its exact byte offset, aren't you? – TonyK Sep 27 '11 at 11:09
Hi, i'm not sure what you mean with "unnecessarily" and "exact byte offset" but the idea is this: – PathOfNeo Sep 27 '11 at 12:19
In my logViewer application, when a user does File->Open he gets the option to use DateFrom & Date To (focus on time interval that interests the user) or he can parse the whole file. I do 2 binary searches for finding the closest or equal (hardly) match in the log file for the user selected DateFrom and DateTo. After that i have narrowed my scope, i would just pass those positions to my main parsing method, wich should then parse the file starting and ending with our new positions. So binary search only narrowed my linear parsing - wich takes about a minute for cca 130mb file – PathOfNeo Sep 27 '11 at 12:27
up vote 3 down vote accepted

Try to implement an algorithm equivalent to std::equal_range which returns a pair of result of std::lower_bound and std::upper_bound

  1. Find the position of the first element in the sorted range which does not compare less than the value (lower bound)
  2. Find the position of the first element in the sorted range which compares greater than the value (upper bound)


template<typename OutIter>
void ReadLogsInRange(
    std::istream& logStream, Log::Date from, Log::Date to, OutIter out)
    Log l = LowerBound(logStream, from);
    *out++ = l;
    while(logStream >> l && < to)
        *out++ = l;

Full example:

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.