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Besides the syntactic differences, are the two inherently the same? Are both of them implemented in the core language? or is foreach part of the standard library? And as far as performance, does it make a difference if I choose one over the other?

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2 Answers

up vote 12 down vote accepted

You should always use foreach if possible.

  1. foreach iterate over practically anything (even metadata, like compile-time data types); for can't.

    foreach (Type; TypeTuple!(int, long, short)) { pragma(msg, Type); }
    

    but you can't do that with a for loop.

  2. foreach can be used to perform actions at compile-time (extension of above); for example, if you have a piece of code that repeats 10 times, you can say:

    template Iota(size_t a, size_t b) //All integers in the range [a, b)
    {
        static if (a < b) { alias TypeTuple!(a, Iota!(a + 1, b)) Iota; }
        else { alias TypeTuple!() Iota; }
    }
    
    foreach (i; Iota!(0, 10)) { int[i] arr; } //Not possible with 'for'
    

    and this will occur at compile-time, with i treated as a constant. (This doesn't normally work with for.)

  3. foreach can be overloaded with opApply and also with range constructs, but for can't. This is very handy when iterating a tree structure (like all the folders in a file system), because it actually allows you to use entirely stack-based memory rather than allocating on the heap (because you can use recursion).

  4. foreach is preferred in most situations because it prevents the need for you to type your data explicitly, which is useful in preventing some bugs. For example,

    for (int i = 0; i < n; i++) { arr[i]++; }
    

    is dangerous if n is greater than 2^32 - 1, but

    foreach (i; 0 .. n) { arr[i]++; }
    

    is not, because the compiler automatically chooses the correct type for iteration. This also improves readability.

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The main difference between foreach and for is the higher level of abstraction of a foreach-loop. A foreach-loop is typically lowered to some for-loop by the compiler. This has (at least) four advantages:

  1. Readability: foreach (a; someArray) doSomething(a); is inherently more readable than for (size_t i = 0; i < someArray.length; i++) doSomething(someArray[i]);. This gets even clearer if the type of someArray is not a simple array.
  2. Flexibility: if, at one point in time, you decide that the type of someArray has to be changed from some array to, say, a range or an object (e.g. to implement a parallel loop), foreach stays unchanged whereas the for-loop has to be changed to use either empty, front and popFront (in the case of a range) or opApply or some other mechanism in the case of a class or struct.
  3. Special features, e.g. iterating over type tuples, decoding of UTF-8 and UTF-16 strings.
  4. Performance: the foreach-loop lets the compiler decide how to optimally implement the loop based on the type (iterating over an array, a range, a string, an object ...) and possibly other information (e.g. the size of the type). This allows for efficient implementation for all types and other compiler optimizations without you having to worry too much about implementation details. In reality, the performance of foreach relative to hand-coded for is mixed. foreach(dchar c; someString) {...} (i.e. the decoding of an UTF-8 string while looping) is very fast. But foreach(a; someObject) {...}, where someObject implements opApply, is a tad slower (because the loop body is wrapped into a delegate and opApply typically calls this delegate inside a loop, which generates some overhead). As usual, this won't matter to your code in 99.99% of the cases, as foreach will always yield an (at least) decent implementation.

The main disadvantage (besides, occasionally, speed) is that some things cannot be done with foreach, namely many mutations of the thing being looped over (e.g. resizing of an array within the loop body).

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