30

I imported the math library in my program, and I was trying to find the minimum of three numbers in the following way:

v1[j+1] = math.Min(v1[j]+1, math.Min(v0[j+1]+1, v0[j]+cost))

where v1 is declared as:

t := "stackoverflow"
v1 := make([]int, len(t)+1)

However, when I run my program I get the following error:

./levenshtein_distance.go:36: cannot use int(v0[j + 1] + 1) (type int) as type float64 in argument to math.Min

I thought it was weird because I have another program where I write

fmt.Println(math.Min(2,3))

and that program outputs 2 without complaining.

so I ended up casting the values as float64, so that math.Min could work:

v1[j+1] = math.Min(float64(v1[j]+1), math.Min(float64(v0[j+1]+1), float64(v0[j]+cost)))

With this approach, I got the following error:

./levenshtein_distance.go:36: cannot use math.Min(int(v1[j] + 1), math.Min(int(v0[j + 1] + 1), int(v0[j] + cost))) (type float64) as type int in assignment

so to get rid of the problem, I just casted the result back to int

I thought this was extremely inefficient and hard to read:

v1[j+1] = int(math.Min(float64(v1[j]+1), math.Min(float64(v0[j+1]+1), float64(v0[j]+cost))))

I also wrote a small minInt function, but I think this should be unnecessary because the other programs that make use of math.Min work just fine when taking integers, so I concluded this has to be a problem of my program and not the library per se.

Is there anything that I'm doing terrible wrong?

Here's a program that you can use to reproduce the issues above, line 36 specifically: package main

import (
    "math"
)

func main() {
    LevenshteinDistance("stackoverflow", "stackexchange")
}

func LevenshteinDistance(s string, t string) int {
    if s == t {
        return 0
    }
    if len(s) == 0 {
        return len(t)
    }
    if len(t) == 0 {
        return len(s)
    }

    v0 := make([]int, len(t)+1)
    v1 := make([]int, len(t)+1)

    for i := 0; i < len(v0); i++ {
        v0[i] = i
    }

    for i := 0; i < len(s); i++ {
        v1[0] = i + 1
        for j := 0; j < len(t); j++ {
            cost := 0
            if s[i] != t[j] {
                cost = 1
            }
            v1[j+1] = int(math.Min(float64(v1[j]+1), math.Min(float64(v0[j+1]+1), float64(v0[j]+cost))))
        }

        for j := 0; j < len(v0); j++ {
            v0[j] = v1[j]
        }
    }
    return v1[len(t)]
}
47

Nope, I think writing something like that is fine: for instance, the stdlib's sort.go does it near the top of the file:

func min(a, b int) int {
    if a < b {
        return a
    }
    return b
}

math.Min(2, 3) happened to work because numeric constants in Go are untyped. Beware of treating float64s as a universal number type in general, though, since integers above 2^53 will get rounded if converted to float64.

  • 2
    And if you are often taking the min of more than 2 numbers, you can make a vararg version of min which simplifies the code that calls it: example: play.golang.org/p/v93gvbBEmT – David Budworth Dec 17 '14 at 1:12
  • 77
    writing something like that IS unusual in most other languages. Hence the question I guess, at least that's how I ended up here. It is not that I can not write min function, it is that I can not believe it is not already there... – Slava Jun 15 '17 at 11:59
  • Since golang does not contain polymorphism. You should name your function minInt or something simillar so that you can later create a function like this for other data types besides ints. – eshalev Nov 28 '17 at 8:52
  • @eshalev This func min is private to a package (so only used within a small chunk of code), the package sort authors knew they really just wanted the smaller of two indices (not floats etc.), and trying to pass a float variable wouldn't work anyway since there are no C-like implicit conversions, so I think min was justifiable here. Of course, there are other places where you may want to write implementations for different types and funcs are public so the potential scope of use is wider, so type-specific names can make sense, like sort.Ints vs. sort.Strings. – twotwotwo Nov 28 '17 at 18:45
  • +1 for the reminder (Wikipedia link) that more precision comes with the cost of having less possible (less precise) numbers that can be represented, given some constant number of bits. – user3773048 Aug 12 '18 at 6:55
7

There is no built-in min or max function for integers, but it’s simple to write your own. Thanks to support for variadic functions we can even compare more integers with just one call:

func MinOf(vars ...int) int {
    min := vars[0]

    for _, i := range vars {
        if min > i {
            min = i
        }
    }

    return min
}

Usage:

MinOf(3, 9, 6, 2)

Similarly here is the max function:

func MaxOf(vars ...int) int {
    max := vars[0]

    for _, i := range vars {
        if max < i {
            max = i
        }
    }

    return max
}
4

For example,

package main

import "fmt"

func min(x, y int) int {
    if x < y {
        return x
    }
    return y
}

func main() {
    t := "stackoverflow"
    v0 := make([]int, len(t)+1)
    v1 := make([]int, len(t)+1)
    cost := 1
    j := 0

    v1[j+1] = min(v1[j]+1, min(v0[j+1]+1, v0[j]+cost))

    fmt.Println(v1[j+1])
}

Output:

1
  • 55
    golang makes you rewrite the wheel each time you need min for an other type that float64 ? – Pierrot Nov 3 '17 at 11:42
  • 10
    That's when declared 'simplicity' causes real complexity. – XZen Nov 26 '18 at 11:09

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