I am quite confused about the scenarios when to use the =
in binary search. For example, this is what i found from wiki, in which it is using while (imin <
Note these two algorithms on wiki:
Iterative binary search:
int binary_search(int A[], int key, int imin, int imax)
{
// continue searching while [imin,imax] is not empty
while (imin <= imax)
{
// calculate the midpoint for roughly equal partition
int imid = midpoint(imin, imax);
if (A[imid] == key)
// key found at index imid
return imid;
// determine which subarray to search
else if (A[imid] < key)
// change min index to search upper subarray
imin = imid + 1;
else
// change max index to search lower subarray
imax = imid - 1;
}
// key was not found
return KEY_NOT_FOUND;
}
Iterative binary search with deferred detection of equality:
int binary_search(int A[], int key, int imin, int imax)
{
// continually narrow search until just one element remains
while (imin < imax)
{
int imid = midpoint(imin, imax);
// code must guarantee the interval is reduced at each iteration
assert(imid < imax);
// note: 0 <= imin < imax implies imid will always be less than imax
// reduce the search
if (A[imid] < key)
imin = imid + 1;
else
imax = imid;
}
// At exit of while:
// if A[] is empty, then imax < imin
// otherwise imax == imin
// deferred test for equality
if ((imax == imin) && (A[imin] == key))
return imin;
else
return KEY_NOT_FOUND;
}
You have three cases to consider, when imin < imax
, imin == imax
and imin > imax
. The first algorithm deals with less than and equality within the while loop, whereas in the second algorithm, the equality case is deferred to the if statement. As wiki states:
The iterative and recursive versions take three paths based on the key comparison: one path for less than, one path for greater than, and one path for equality. (There are two conditional branches.) The path for equality is taken only when the record is finally matched, so it is rarely taken. That branch path can be moved outside the search loop in the deferred test for equality version of the algorithm.
The deferred detection approach foregoes the possibility of early termination on discovery of a match, so the search will take about log2(N) iterations. On average, a successful early termination search will not save many iterations. For large arrays that are a power of 2, the savings is about two iterations. Half the time, a match is found with one iteration left to go; one quarter the time with two iterations left, one eighth with three iterations, and so forth. The infinite series sum is 2.
The deferred detection algorithm has the advantage that if the keys are not unique, it returns the smallest index (the starting index) of the region where elements have the search key. The early termination version would return the first match it found, and that match might be anywhere in region of equal keys.
So the use of either <=
in a while loop, or simply <
, will depend on your choice of implementation.