82

In C# 3.0, I'm liking this style:

// Write the numbers 1 thru 7
foreach (int index in Enumerable.Range( 1, 7 ))
{
    Console.WriteLine(index);
}

over the traditional for loop:

// Write the numbers 1 thru 7
for (int index = 1; index <= 7; index++)
{
    Console.WriteLine( index );
}

Assuming 'n' is small so performance is not an issue, does anyone object to the new style over the traditional style?

6
  • 1
    Now this question, with the SUMMARY FROM MANY ANSWERS included, is REALLY relevant, almost a good-practices model for questions in SO. It should be framed! Mar 8, 2013 at 17:26
  • 5
    @heltonbiker Wrong---actually including a summary does not fit the SO model. The summary should be removed. SO as a Q&A site separates questions and answers, rather than having a generic idea of a "post". Jun 5, 2013 at 15:10
  • The behaviour of both are different depending on what version of .Net you are compiling with. The for loop version may not always keep the execution context especially if you have a yield statement. Dec 7, 2014 at 3:32
  • There's another advantage using Range(): you can change the value of index inside the loop, and it won't break your loop.
    – Vincent
    May 5, 2016 at 2:42
  • 1
    Looking forward to the addition of new C# 8.0 features to this thread! docs.microsoft.com/en-us/dotnet/csharp/whats-new/…
    – Andrew
    Oct 3, 2019 at 21:58

18 Answers 18

60

I find the latter's "minimum-to-maximum" format a lot clearer than Range's "minimum-count" style for this purpose. Also, I don't think it's really a good practice to make a change like this from the norm that is not faster, not shorter, not more familiar, and not obviously clearer.

That said, I'm not against the idea in general. If you came up to me with syntax that looked something like foreach (int x from 1 to 8) then I'd probably agree that that would be an improvement over a for loop. However, Enumerable.Range is pretty clunky.

6
  • 1
    With C# 4's named arguments feature, we could add an extension method and call it like this (I don't have a good name for it right now): foreach (int x in Enumerable.Range2(from = 1, to = 8)) {} Is that better, or worse ;) May 27, 2009 at 14:25
  • Sorry, that's "(from: 1, to: 8)" May 27, 2009 at 14:26
  • 5
    Personally, that would be too verbose and clunky-looking for me to use (as opposed to a for loop) but I understand that it's to some degree a matter of taste.
    – mqp
    May 27, 2009 at 14:32
  • 1
    @mquander That looks a lot like the syntax of VB: For i = 1 To 8
    – MEMark
    Mar 19, 2012 at 9:37
  • 1
    How about stealing foreach(var x in (1 to 8)) from Scala? It's an Enumerable type. Apr 3, 2016 at 4:07
48

This is just for fun. (I'd just use the standard "for (int i = 1; i <= 10; i++)" loop format myself.)

foreach (int i in 1.To(10))
{
    Console.WriteLine(i);    // 1,2,3,4,5,6,7,8,9,10
}

// ...

public static IEnumerable<int> To(this int from, int to)
{
    if (from < to)
    {
        while (from <= to)
        {
            yield return from++;
        }
    }
    else
    {
        while (from >= to)
        {
            yield return from--;
        }
    }
}

You could also add a Step extension method too:

foreach (int i in 5.To(-9).Step(2))
{
    Console.WriteLine(i);    // 5,3,1,-1,-3,-5,-7,-9
}

// ...

public static IEnumerable<T> Step<T>(this IEnumerable<T> source, int step)
{
    if (step == 0)
    {
        throw new ArgumentOutOfRangeException("step", "Param cannot be zero.");
    }

    return source.Where((x, i) => (i % step) == 0);
}
7
  • public static IEnumerable<int> To(this int from, int to) { return Enumerable.Range(from, to); }
    – THX-1138
    May 27, 2009 at 15:26
  • 3
    @unknown, Enumerable.Range can only count forwards, my version counts backwards too. Your code also produces a different sequence to mine: try "foreach (int i in 5.To(15))".
    – LukeH
    May 27, 2009 at 15:36
  • Very good, this is the sort of thing I wanted to hear when I posted the question! May 27, 2009 at 15:37
  • Step() looks wrong. 5.To(10).Step(2) will result in [ 6, 8, 10 ] when [ 5, 7, 9 ] is expected. Plus, Step() is horrible performance wise. What if step is 10?
    – Vincent
    May 5, 2016 at 2:34
  • 1
    @wooohoh: The Step method works correctly: i is the index, not the value. You're right that the performance isn't great, but this is a proof-of-concept demo, not production code.
    – LukeH
    May 5, 2016 at 9:43
28

In C# 6.0 with the use of

using static System.Linq.Enumerable;

you can simplify it to

foreach (var index in Range(1, 7))
{
    Console.WriteLine(index);
}
2
  • I think that the 7 is the count:public static IEnumerable<int> Range(int start,int count) Oct 10, 2017 at 14:44
  • 1
    at first I didn't understand what is using static. It should mention that more readable to write: Enumerable.Range(1, 7).ToList().ForEach(Console.WriteLine);
    – Yitzchak
    Jul 30, 2018 at 15:35
13

You can actually do this in C# (by providing To and Do as extension methods on int and IEnumerable<T> respectively):

1.To(7).Do(Console.WriteLine);

SmallTalk forever!

6
  • Nice - I assume you'd just create a couple of extension methods for "To" and "Do"? May 27, 2009 at 15:36
  • 1
    I thought that C++ syntax is bad LOL
    – Artyom
    May 27, 2009 at 16:05
  • Hmmm... To and Do does not work for me? What library is this a part of? I am on .Net 4.0.
    – BlueVoodoo
    Mar 29, 2012 at 8:14
  • 2
    @BlueVoodoo they are extension methods that you need to define. Jul 17, 2012 at 16:05
  • 1
    I don't like the Do extension method. It's clearer if this goes inside a foreach loop like others have suggested. Dec 1, 2014 at 5:25
9

I kind of like the idea. It's very much like Python. Here's my version in a few lines:

static class Extensions
{
    public static IEnumerable<int> To(this int from, int to, int step = 1) {
        if (step == 0)
            throw new ArgumentOutOfRangeException("step", "step cannot be zero");
        // stop if next `step` reaches or oversteps `to`, in either +/- direction
        while (!(step > 0 ^ from < to) && from != to) {
            yield return from;
            from += step;
        }
    }
}

It works like Python's:

  • 0.To(4)[ 0, 1, 2, 3 ]
  • 4.To(0)[ 4, 3, 2, 1 ]
  • 4.To(4)[ ]
  • 7.To(-3, -3)[ 7, 4, 1, -2 ]
2
  • So a Python range is end-exclusive like C++ STL and D ranges? I like it. As a beginner, I used to favor first..last (end-inclusive) until working with more complex nested loops and images, finally realizing how elegant end-exclusive (begin end) was by eliminating all those +1's and -1's that dirtied the code. In ordinary English though, "to" tends to mean inclusive, so naming your params "start" / "end" may be clearer than "from" / "to". Jan 26, 2016 at 23:20
  • 1
    !(step > 0 ^ from < to) could be rewritten into step > 0 == from < to. Or even more terse: use a do-while loop with endcondition from += step != to
    – EriF89
    Jan 8, 2018 at 12:29
7

I think the foreach + Enumerable.Range is less error prone (you have less control and less ways to do it wrong, like decreasing the index inside the body so the loop would never end, etc.)

The readability problem is about the Range function semantics, that can change from one language to another (e.g if given just one parameter will it begin from 0 or 1, or is the end included or excluded or is the second parameter a count instead a end value).

About the performance, I think the compiler should be smart enough to optimize both loops so they execute at a similar speed, even with large ranges (I suppose that Range does not create a collection, but of course an iterator).

7

I think Range is useful for working with some range inline:

var squares = Enumerable.Range(1, 7).Select(i => i * i);

You can each over. Requires converting to list but keeps things compact when that's what you want.

Enumerable.Range(1, 7).ToList().ForEach(i => Console.WriteLine(i));

But other than for something like this, I'd use traditional for loop.

2
  • For example, I just did this in my code to build up a set of dynamic parameters for sql var paramList = String.Join(",", Enumerable.Range(0, values.Length).Select(i => "@myparam" + i));
    – mcNux
    May 29, 2014 at 15:24
  • Enumerable.Range(1, 7).ToList().ForEach(Console.WriteLine); BETTER
    – Yitzchak
    Jul 30, 2018 at 15:36
7

It seems like quite a long winded approach to a problem that's already solved. There's a whole state machine behind the Enumerable.Range that isn't really needed.

The traditional format is fundamental to development and familiar to all. I don't really see any advantage to your new style.

2
  • 2
    In some ways. Enumerable.Range becomes just as unreadable when you want to iterate from a min to a max, because the second parameter is a range and needs to be calculated.
    – spender
    May 27, 2009 at 13:47
  • Ah, good point, but that's a different case (that I haven't run into yet). Perhaps an extension method with (start, end) instead of (start, count) would help in that scenario. May 27, 2009 at 13:55
6

I'd like to have the syntax of some other languages like Python, Haskell, etc.

// Write the numbers 1 thru 7
foreach (int index in [1..7])
{
    Console.WriteLine(index);
}

Fortunatly, we got F# now :)

As for C#, I'll have to stick with the Enumerable.Range method.

1
5

@Luke: I reimplemented your To() extension method and used the Enumerable.Range() method to do it. This way it comes out a little shorter and uses as much infrastructure given to us by .NET as possible:

public static IEnumerable<int> To(this int from, int to)
{ 
    return from < to 
            ? Enumerable.Range(from, to - from + 1) 
            : Enumerable.Range(to, from - to + 1).Reverse();
}
1
  • 1
    I think .Reverse() will end up loading the entire collection into memory on reading the first item. (Unless Reverse checks the underlying type of iterator and says "Ah, this is an Enumerator.Range object. I'll emit an backward-counting object instead of my normal behavior.")
    – billpg
    Sep 19, 2013 at 9:59
4

How to use a new syntax today

Because of this question I tried out some things to come up with a nice syntax without waiting for first-class language support. Here's what I have:

using static Enumerizer;

// prints: 0 1 2 3 4 5 6 7 8 9
foreach (int i in 0 <= i < 10)
    Console.Write(i + " ");

Not the difference between <= and <.

I also created a proof of concept repository on GitHub with even more functionality (reversed iteration, custom step size).

A minimal and very limited implementation of the above loop would look something like like this:

public readonly struct Enumerizer
{
    public static readonly Enumerizer i = default;

    public Enumerizer(int start) =>
        Start = start;

    public readonly int Start;

    public static Enumerizer operator <(int start, Enumerizer _) =>
        new Enumerizer(start);

    public static Enumerizer operator >(int _, Enumerizer __) =>
        throw new NotImplementedException();

    public static IEnumerable<int> operator <=(Enumerizer start, int end)
    {
        for (int i = start.Start; i < end; i++)
            yield return i;
    }

    public static IEnumerable<int> operator >=(Enumerizer _, int __) =>
        throw new NotImplementedException();
}
3

I'm sure everybody has their personal preferences (many would prefer the later just because it is familiar over almost all programming languages), but I am like you and starting to like the foreach more and more, especially now that you can define a range.

3

In my opinion the Enumerable.Range() way is more declarative. New and unfamiliar to people? Certainly. But I think this declarative approach yields the same benefits as most other LINQ-related language features.

2

I imagine there could be scenarios where Enumerable.Range(index, count) is clearer when dealing with expressions for the parameters, especially if some of the values in that expression are altered within the loop. In the case of for the expression would be evaluated based on the state after the current iteration, whereas Enumerable.Range() is evaluated up-front.

Other than that, I'd agree that sticking with for would normally be better (more familiar/readable to more people... readable is a very important value in code that needs to be maintained).

2

I agree that in many (or even most cases) foreach is much more readable than a standard for-loop when simply iterating over a collection. However, your choice of using Enumerable.Range(index, count) isn't a strong example of the value of foreach over for.

For a simple range starting from 1, Enumerable.Range(index, count) looks quite readable. However, if the range starts with a different index, it becomes less readable because you have to properly perform index + count - 1 to determine what the last element will be. For example…

// Write the numbers 2 thru 8
foreach (var index in Enumerable.Range( 2, 7 ))
{
    Console.WriteLine(index);
}

In this case, I much prefer the second example.

// Write the numbers 2 thru 8
for (int index = 2; index <= 8; index++)
{
    Console.WriteLine(index);
}
1
  • I agree - similiar to Spender's comment on iterating from min to max. May 27, 2009 at 14:12
1

Strictly speaking, you misuse enumeration.

Enumerator provides the means to access all the objects in a container one-by-one, but it does not guarantee the order.

It is OK to use enumeration to find the biggest number in an array. If you are using it to find, say, first non-zero element, you are relying on the implementation detail you should not know about. In your example, the order seems to be important to you.

Edit: I am wrong. As Luke pointed out (see comments) it is safe to rely on the order when enumerating an array in C#. This is different from, for example, using "for in" for enumerating an array in Javascript .

5
  • Not sure - I mean, the Range method is built to return an incrementing sequence, so I'm not sure how I'm relying on an implementation detail. Can you (or anyone else) elaborate? May 27, 2009 at 16:47
  • I do not think it is promised that the sequence returned is incrementing. Of course, it always is in practice. You can enumerate any collection. For many, there are a lot of orders that make sense, and you may get any of them.
    – buti-oxa
    May 27, 2009 at 18:39
  • 2
    @Marcel, @buti-oxa: The process of enumeration (for example, with foreach) doesn't guarantee any specific ordering in itself, but the ordering is determined by the enumerator used: The built-in enumerator for Array, List<> etc will always iterate in element order; for SortedDictionary<>, SortedList<> etc it'll always iterate in key comparison order; and for Dictionary<>, HashSet<> etc there's no guaranteed ordering. I'm pretty confident that you can rely on Enumerable.Range always iterating in ascending order.
    – LukeH
    May 27, 2009 at 22:45
  • Sure, the enumerator knows the order it provides, so if I write the enumerator, I can rely on order. If compiler/library does is for me, how do I know. Does it say somewhere in spec/documentation that built-in enumerator for array always iterate from 1 to N? I could not find this promise.
    – buti-oxa
    May 28, 2009 at 14:34
  • 2
    @buti-oxa, Take a look at section 8.8.4 (page 240) of the C#3 spec: "For single-dimensional arrays elements are traversed in increasing index order, starting with index 0 and ending with index Length – 1." (download.microsoft.com/download/3/8/8/…)
    – LukeH
    May 28, 2009 at 22:56
1

I do like the foreach + Enumerable.Range approach and use it sometimes.

// does anyone object to the new style over the traditional style?
foreach (var index in Enumerable.Range(1, 7))

I object to the var abuse in your proposal. I appreciate var, but, damn, just write int in this case! ;-)

2
  • Heh, I was wondering when I was going to get dinged for that one :) May 27, 2009 at 14:31
  • I updated my example so as not to deter from the main question. May 27, 2009 at 15:08
0

Just throwing my hat into the ring.

I define this...

namespace CustomRanges {

    public record IntRange(int From, int Thru, int step = 1) : IEnumerable<int> {

        public IEnumerator<int> GetEnumerator() {
            for (var i = From; i <= Thru; i += step)
                yield return i;
        }

        IEnumerator IEnumerable.GetEnumerator()
            => GetEnumerator();
    };

    public static class Definitions {

        public static IntRange FromTo(int from, int to, int step = 1)
            => new IntRange(from, to - 1, step);

        public static IntRange FromThru(int from, int thru, int step = 1)
            => new IntRange(from, thru, step);

        public static IntRange CountFrom(int from, int count)
            => new IntRange(from, from + count - 1);

        public static IntRange Count(int count)
            => new IntRange(0, count);

        // Add more to suit your needs. For instance, you could add in reversing ranges, etc.
    }
}

Then anywhere I want to use it, I add this at the top of the file...

using static CustomRanges.Definitions;

And use it like this...

foreach(var index in FromTo(1, 4))
    Debug.WriteLine(index);
// Prints 1, 2, 3

foreach(var index in FromThru(1, 4))
    Debug.WriteLine(index);
// Prints 1, 2, 3, 4

foreach(var index in FromThru(2, 10, 2))
    Debug.WriteLine(index);
// Prints 2, 4, 6, 8, 10

foreach(var index in CountFrom(7, 4))
    Debug.WriteLine(index);
// Prints 7, 8, 9, 10

foreach(var index in Count(5))
    Debug.WriteLine(index);
// Prints 0, 1, 2, 3, 4

foreach(var _ in Count(4))
    Debug.WriteLine("A");
// Prints A, A, A, A

The nice thing about this approach is by the names, you know exactly if the end is included or not.

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