# Binary Search in Go - why the heck is this incorrect

Cant figure out why the heck is this incorrect implementation of Binary Search in go. Input is ([]int{-1, 0, 3, 5, 9, 12}, 9)

func Search(nums []int, target int) int {

mid := len(nums) / 2

if nums[mid] == target {
return mid
}
if len(nums) >= 1 {
if nums[mid] < target {
return Search(nums[mid+1:], target)
} else {
return Search(nums[:mid], target)
}
}

return -1
}


# Binary Search

func Search(nums []int, target int) int {

mid := len(nums) / 2

if nums[mid] == target {
return mid
}
if len(nums) >= 1 {
if nums[mid] < target {
return Search(nums[mid:], target) + mid
} else {
return Search(nums[:mid], target)
}
}

return -1
}


The one line that was changed is the following:

return Search(nums[mid:], target) + mid

• Really did not understand this change. If value of mid is less than target, then I am just using from index of mid+1 (inclusive) to end to look for target again. Why would you add +mid at the add and change [mid+1] to mid.
– lily
Aug 30, 2022 at 2:54
• Because the recursive call is based off a sub-slice. Searching this smaller sub-slice needs the original offset (mid) re-added for it to refer to the correct index. Aug 30, 2022 at 3:11

Lets say, your slice is nums=[5,12,17,20,30,39,55,67]. Your target number is 55. When you make a recursive call on the right side of the array in the line return Search(nums[mid:], target), the new slice is nums=[30,39,55,67]. The index of 55 was 6 in the original slice but in the new slice, it is 2. That is why you are not getting the correct answer.

When you make a new slice from an existing slice, the index of the elements does not reflect the old slice. To make this up you need to add the current mid when you are selecting the right side of the slice for binary search.

• That is a crucial bit that I completely missed. Thank you both you guys
– lily
Aug 31, 2022 at 22:10