I have been working on a class-based finite random access range. When performing a few tests on it:

```
auto myRange = /* construct my range */
static assert (isRandomAccessRange!(typeof(myRange))); //
static assert (!isInfinite!(typeof(myRange))); // both pass
auto preamble = myRange[0..128];
assert( all!"a == 0"(preamble)); // check for all zeros
```

I got this compilation error in GDC 4.9.2, regarding the last line in the snippet above: "algorithm.d|4838|error: foreach: cannot make e ref"

The error points to this piece of code in `std.algorithm.find`

(the find_if variant, taking a range and a predicate), which indeed takes a reference to each element with `foreach`

:

```
InputRange find(alias pred, InputRange)(InputRange haystack)
if (isInputRange!InputRange)
{
alias R = InputRange;
alias predFun = unaryFun!pred;
static if (isNarrowString!R)
{
...
}
else static if (!isInfinite!R && hasSlicing!R && is(typeof(haystack[cast(size_t)0 .. $])))
{
size_t i = 0;
foreach (ref e; haystack) // <-- needs a ref
{
if (predFun(e))
return haystack[i .. $];
++i;
}
return haystack[$ .. $];
}
else
{
...
}
}
```

This most likely happens because I have provided an implementation of `opApply`

that does not provide a `ref`

argument (neither does the class provide a `ref`

return type to any other member function).

```
int opApply(int delegate(E) f) {...}
int opApply(int delegate(size_t,E) f) {...}
```

I could change that, but what really bothers me is that right now the range class complies to the preconditions of the function, and `foreach`

iteration should still work with them anyway. Quoting from the documentation:

Iteration over struct and class objects can be done with ranges. For

`foreach`

, this means the following properties and methods must be defined:Properties:

`.empty`

returns true if no more elements`.front`

return the leftmost element of the rangeMethods:

`.popFront()`

move the left edge of the range right by one

All these were provided (otherwise it wouldn't be a random access range), so it should use them. Instead, it might be looking for the alternate iteration method described next:

If the aggregate expression is a struct or class object,

and the range properties do not exist, then the foreach is defined by the special`opApply`

member function and the foreach_reverse behavior is defined by the special`opApplyReverse`

member function. These functions have the type:

`int opApply(int delegate(ref Type [, ...]) dg);`

Which to my interpretation, shouldn't have been looked for.

Also quoting `std.algorithm.all`

, which does not seem to demand iteration for references either:

`bool all(Range)(Range range) if (isInputRange!Range && is(typeof(unaryFun!pred(range.front))));`

Returns true if and only if all values v found in the input range range satisfy the predicate pred. Performs (at most) Ο(range.length) evaluations of pred.

So is this a bug in the Phobos library, and `std.algorithm.find`

should iterate by value in the first place? Or is there something that I have missed?