This solution produces exactly the required syntax. Surprisingly to myself, is fairly fast. Also, is seems to be a good example of using monads, also known as Computation Expressions.

```
// Generic
let inline mOp1<'a> op sample x = op sample x, sample
let inline mOp2<'a> op1 op2 (b, sample) x = op1 b (op2 sample x), sample
// Implementation for (=) and (&&)
let (==) = mOp1 (=)
let (&=) = mOp2 (&&) (=)
// Use
let ret1 = a == b &= c &= d &= e |> fst
```

### How it works

The approach is a very simplified *State monad*. The monadic type is a tuple of `(bool, 'T)`

. The first component is the boolean value of ongoing calculation, and the second is the sample value to compare with.

`(==)`

would initialize the monad, similar to `Delay`

operator.

`(&=)`

is used for all subsequent comparisons. It is similar to `Bind`

operator.

We don't need `Return`

because `fst`

would serve pretty fine.

`mOp1`

and `mOp2`

are abstractions over the logical operations. These allow defining your own operators. Here are examples of `or-equal`

and `and-greater-than`

:

```
let (|=) = mOp2 (||) (=)
let (.>) = mOp1 (>)
let (&>) = mOp2 (&&) (>)
// Use
let ret2 = a == b |= c |= d |= e |> fst // if any of b,c,d,e equals to a
let ret3 = 5 .> 3 &> 4 |> fst // true: 5>3 && 5>4
let ret4 = 5 .> 3 &> 8 &> 4 |> fst // false
```

### Performance

I really enjoyed the beautiful solution by @ildjarn, but constructing `List`

is quite slow, so my primary goal was performance.

Running a chain of 8 comparisons, 10 million times:

- 04972ms
`a=b && a=с && ...`

- 23138ms
`List`

-based
- 12367ms monadic

`a = b && a = c && b = c`

is excessive and could be reduced to`a = b && a = c`

since if`a`

=`b`

and`a`

=`c`

then`b`

must obviously =`c`

. – ildjarn Jul 13 '12 at 20:05`myseq |> Seq.pairwise |> Seq.forall (fun (a, b) -> a = b)`

is simple and painless (or`myseq |> Seq.pairwise |> Seq.forall ((<||) (=))`

if you're a fan of point-free). – ildjarn Jul 13 '12 at 20:11