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I need to create a list of integers and to be able to quickly add, delete, and find items in that list. While I could create a string containing them and a function to handle the add/delete/locate, it obviously makes more sense if Go can handle it for me. I looked at container/list and it appeared not entirely suitable, but maybe I'm wrong.

To very quickly implement something, I am using an integer array, however that is far from ideal, and I need to find a better solution. The list will probably hold up to 1,000 values.

Can someone please advise the "best" way to handle this in Go? An example is worth 1,000 words.

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2  
Better how? What properties do you wish it to have? Do you want it to preserve the order of the items? Will you be mostly doing adds, or will adds and deletes be balanced? What will be the usual (rather than maximum) list size? What range will the ints be in? What's not ideal about your integer array? You're asking for optimisation but without providing specifics. –  Paul Hankin Apr 15 '13 at 11:11

3 Answers 3

up vote 3 down vote accepted

In the interest of keeping it simple I would use a map. Maps are very fast, efficient and built in.

(playground link)

package main

import "fmt"

func main() {
    // Make our collection of integers
    xs := make(map[int]bool)

    // Add some things to the collection
    xs[1] = true
    xs[2] = true
    xs[3] = true

    // Find them
    if xs[2] {
        fmt.Println("Found 2")
    } else {
        fmt.Println("Didn't Find 2")
    }
    if xs[8] {
        fmt.Println("Found 8")
    } else {
        fmt.Println("Didn't Find 8")
    }

    // Delete them
    delete(xs, 2)

    // List them
    for x := range xs {
        fmt.Println("Contents", x)
    }
}

Which produces

Found 2
Didn't Find 8
Contents 3
Contents 1

Possibly the only disadvantage of this solution is that the integers aren't kept in any particular order, which may or may not be important to your application.

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1  
there's no need to actually use a bool as value. struct{} (an empty struct) will do just fine. –  nemo Apr 12 '13 at 20:43
    
I've changed my code to use the map as described. There are a few things that I don't like about the map solution, but they are no big deal. –  Brian Oh Apr 13 '13 at 6:17
1  
@Brian Oh, You do need a value if using the builtin type map and there isn't a good alternative. bool is the traditional one to use so you can test for existence with if xs[2] which is a convenience. bools are at least small. @nemo using struct{} will work but I think it makes the code a lot more ugly and not sure it actually saves you any space or not. –  Nick Craig-Wood Apr 13 '13 at 8:32
1  
@NickCraig-Wood yes, it saves you memory. See this post. It's not ugly if you create a type for it, e.g. type empty struct{}. –  nemo Apr 13 '13 at 12:46
2  
@nemo yes you are right about memory use with latest go map[int]bool is 61MB vs map[int]struct{} 41MB so 32% less memory. –  Nick Craig-Wood Apr 13 '13 at 15:32

There is no 'best' way to your question as you don't state what you would like to do or what sort of performance is important to you. The problem with data structures is, that every structure performs better or worse depending on the circumstances. Generally I would say that an integer slice would perform reasonably well for 1000 entries and is not so hard to use. Also the solution Nick proposed is appealing, as it offers you O(1) lookup time (average!) for your values instead of O(n) (unsorted) or O(log n) (sorted) search time in an array.

Go offers some operations to implement a []int store as you proposed:

  • get: x[i]
  • insert: x[i] = j or x = append(x, j) or use sorted insertion
  • delete: x = append(x[:i], x[i+1:]...)
  • search: in case you used sorted insertion, you can use sort.SearchInts, otherwise you need to loop and search linearly.

For more operations on slices see here.

The following example (playground) offers you a []int with O(log n) time for searching and O(n) for insertion. Retrieval, deletion and setting by index is, of course, O(1).

type Ints []int

// Insert v so that ints is sorted
func (ints *Ints) Append(v int) {
    i := sort.SearchInts(*ints, v)
    *ints = append((*ints)[:i], append([]int{v}, (*ints)[i:]...)...)
}

// Delete by index
func (ints *Ints) Delete(i int) {
    *ints = append((*ints)[:i], (*ints)[i+1:]...)
}

func (ints Ints) Search(v int) (int, bool) {
    i := sort.SearchInts(ints, v)
    return i, i < len(ints) && ints[i] == v
}

data := make(Ints, 0, 1000)
data.Append(100)
index,ok := data.Search(10)

As you can see in the example, Append searches for the place to insert the new value in, depending on the size, effectively sorting the contents of the slice in ascending order. This makes it possible to use binary search via sort.SearchInts, reducing the search time from O(n) to O(log n). With that comes the cost to sort while inserting, which in turn is done by searching for a slot, which costs O(log n) in worst case. Therefore, inserting is O(log n) as well.

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1  
Your insertion looks like O(n) to me not O(log n) as you are inserting an element by copying the entire []int slice. Nice example though. –  Nick Craig-Wood Apr 13 '13 at 9:44
    
Oh, yes you're right. –  nemo Apr 13 '13 at 13:12

This is really more of an abstract data structure question. The answer depends on your use case. A slice of ints would do fine for the general case (look at append and such), but if you want finding items to be better than O(n) then you'll want them to be sorted, and insertion into a sorted int[] has a worst case of O(n) iirc.

So the question is which do you want to optimize, index, add, remove, or search?

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Thanks all for answers. I would say search/remove are both important because they are both related. Order is of no importance. The sequence is add integer value to the "list", do some work, and delete it. Elsewhere (defer), check if value is there, if so, do something and delete it. –  Brian Oh Apr 12 '13 at 23:45
1  
@BrianOh Are you sure your process can't be realized using channels? Sounds very similar to consumer/producer... –  nemo Apr 13 '13 at 1:26
    
@nemo. I don't think that channels is the solution (I may be wrong). The Go program is an http server serving various clients. The "list" of integers contains a unique incremental id for each particular client. The update of database could abort at any time, and that is handled by a "defer"ed Rollback function call which is passed the unique id. If the update completes OK (commit), it deletes the int id from the "list". Therefore, when the Rollback function is called, if the unique id is not in the list, it simply returns. Otherwise, it does a Rollback and deletes the unique id from the list. –  Brian Oh Apr 13 '13 at 3:56
    
@BrianOh If you're using the list of integers plainly to tell the deferred function that the database update was OK, this may be overkill. You could store the database response in a closure which is deferred. See this example. –  nemo Apr 13 '13 at 13:26
    
@nemo. Thanks, that looks like a good solution. I'll try it. At least I had an introduction to map which I hadn't had to use previously. –  Brian Oh Apr 13 '13 at 14:56

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