# Golang Binary search

I'm practicing an interview algorithm, now coding it in Go. The purpose is to practice basic interview algorithms, and my skills in Go. I'm trying to perform a Binary search of an array of numbers.

``````package main

import "fmt"

func main() {
searchField := []int{2, 5, 8, 12, 16, 23, 38, 56, 72, 91}
searchNumber := 23

fmt.Println("Running Program")
fmt.Println("Searching list of numbers: ", searchField)
fmt.Println("Searching for number: ", searchNumber)

numFound := false
//searchCount not working. Belongs in second returned field
result, _ := binarySearch2(searchField, len(searchField), searchNumber, numFound)
fmt.Println("Found! Your number is found in position: ", result)
//fmt.Println("Your search required ", searchCount, " cycles with the Binary method.")
}

func binarySearch2(a []int, field int, search int, numFound bool) (result int, searchCount int) {
//searchCount removed for now.
searchCount, i := 0, 0
for !numFound {
searchCount++
mid := i + (field-i)/2
if search == a[mid] {
numFound = true
result = mid
return result, searchCount
} else if search > a[mid] {
field++
//i = mid + 1 causes a stack overflow
return binarySearch2(a, field, search, numFound)
}
field = mid
return binarySearch2(a, field, search, numFound)
}
return result, searchCount
}
``````

The main problems I'm coming across are:

1) When the number is higher in the list than my mid search, am I truly continuing a binary search, or has it turned to a sequential? How can I fix that? The other option I've placed has been commented out because it causes a stack overflow.

2) I wanted to add a step count to see how many steps it takes to finish the search. Something to use with other search methods as well. If I print out the search count as is, it always reads one. Is that because I need to return it (and therefore call for it in the header) in the method?

I understand Go has methods that streamline this process. I'm trying to increase my knowledge and coding skills. I appreciate your input.

You're not doing a binary search properly. First off, your `for` loop is useless, since each branch in the conditional tree has a return statement in it, so it can never run more than one iteration. It looks like you started to code it iteratively, then swapped to a recursive setup, but only kinda halfway converted it.

The idea of a binary search is that you have a high and low index and search the midway point between them. You're not doing that, you're just incrementing the `field` variable and trying again (which will cause you to search each index twice until you find the item or segfault by running past the end of the list). In Go, though, you don't need to keep track of the high and low indexes, as you can simply subslice the search field as appropriate.

Here's a more elegant recursive version:

``````func binarySearch(a []int, search int) (result int, searchCount int) {
mid := len(a) / 2
switch {
case len(a) == 0:
case a[mid] > search:
result, searchCount = binarySearch(a[:mid], search)
case a[mid] < search:
result, searchCount = binarySearch(a[mid+1:], search)
if result >= 0 { // if anything but the -1 "not found" result
result += mid + 1
}
default: // a[mid] == search
result = mid // found
}
searchCount++
return
}
``````

https://play.golang.org/p/UyZ3-14VGB9

• I appreciate the explanation for the errors. Things I know now. Now can anyone explain why the colon (:) in the method call during the switch allows the value to be passed through? Mar 28, 2017 at 16:28
• Hmm, ya, running it again, I neglected to add the mid to the result. Corrected version: play.golang.org/p/4zLgX-_0ZS Mar 28, 2017 at 16:35
• As for the colon, that's called sub-slicing. The expression `s[a:]` means the the slice `s` from index `a` onward, while the expression `s[:a]` means the slice `s` up until (but not including) index `a`. For example, if you have `s = int{0, 1, 2, 3}`, then the expression `s[2:]` would give you `{2, 3}`, while the expression `s[:2]` would give you `{0, 1}`. You can also do ranges. Example, `s[1:3]` would give you `{1, 2}`. Mar 28, 2017 at 16:38
• Yes, that new version works. And the colon in the method call explanation is awesome. Thank you! Mar 28, 2017 at 16:39
• Good catch, @KamilDziedzic. Post updated with correction. May 15, 2020 at 20:31
``````func BinarySearch(a []int, x int) int {
start := 0
end := len(a) - 1
for start <= end {
mid := (start + end) / 2
if a[mid] == x {
r = mid // found
break
} else if a[mid] < x {
start = mid + 1
} else if a[mid] > x {
end = mid - 1
}
}
return r
}
``````

Off-topic, but might help others looking for a simple binary search who could land here.

There's a generic binary search module on github since the standard library doesn't offer this common functionality: https://github.com/bbp-brieuc/binarysearch

``````func BinarySearch(array []int, target int) int {
startIndex := 0
endIndex := len(array) - 1
midIndex := len(array) / 2
for startIndex <= endIndex {

value := array[midIndex]

if value == target {
return midIndex
}

if value > target {
endIndex = midIndex - 1
midIndex = (startIndex + endIndex) / 2
continue
}

startIndex = midIndex + 1
midIndex = (startIndex + endIndex) / 2
}

return -1
}
``````

for GO 1.21

`slices.BinarySearch` is bundled in Go packages.

``````package main
import (
"fmt"
"slices"
)
func main() {
searchField := []int{2, 5, 8, 12, 16, 23, 38, 56, 72, 91}
fmt.Println( slices.BinarySearch(searchField, 5) )
}
``````

It's generic also.

generic type version ! (go 1.18)

Time Complexity : log2(n)+1

``````package main
import "golang.org/x/exp/constraints"

func BinarySearch[T constraints.Ordered](a []T, x T) int {
start, mid, end := 0, 0, len(a)-1
for start <= end {
mid = (start + end) >> 1
switch {
case a[mid] > x:
end = mid - 1
case a[mid] < x:
start = mid + 1
default:
return mid
}
}
return -1
}
``````

full version with iteration counter at playground.