I am reading book on programming pearls.

Question: Given a sequential file that contains at most four billion 32 bit integers in random order, find a 32-bit integer that isn't in the file (and there must be at least one missing). This problem has to be solved if we have a few hundred bytes of main memory and several sequential files.

Solution: To set this up as a binary search we have to define a range, a representation for the elements within the range, and a probing method to determine which half of a range holds the missing integer. How do we do this?

We'll use as the range a sequence of integers known to contain atleast one missing element, and we'll represent the range by a file containing all the integers in it. The insight is that we can probe a range by counting the elements above and below its midpoint: either the upper or the lower range has atmost half elements in the total range. Because the total range has a missing element, the smaller half must also have a mising element. These are most ingredients of a binary search algorithm for above problem.

Above text is copy right of Jon Bently from programming pearls book.

Some info is provided at following link

"Programming Pearls" binary search help

How do we search by passes using binary search and also not followed with the example given in above link? Please help me understand logic with just 5 integers rather than million integers to understand logic.