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Why is the creation of Lazy type so slow?

Assume the following code:

type T() =
  let v = lazy (0.0)
  member o.a = v.Value

type T2() =
  member o.a = 0.0

#time "on"

for i in 0 .. 10000000 do
  T() |> ignore

#time "on"

for i in 0 .. 10000000 do
  T2() |> ignore

The first loop gives me: Real: 00:00:00.647 whereas the second loop gives me Real: 00:00:00.051. Lazy is 13X slower!!

I have tried to optimize my code in this way and I ended up with simulation code 6X slower. It was then fun to track back where the slow down occurred...

share|improve this question
What did you expect? Lazy to be quicker? Lazy is relying on the System.Lazy class and in there it handles ThreadSafety – rene Aug 20 '12 at 9:10
Lazyness never pays off, right? :) – Hristo Iliev Aug 20 '12 at 10:22
While the Lazy version is slower, it is not significantly slower, you are losing 60 ns per call to Lazy. Unless you are doing something very contrived, you are never going to notice that overhead. – Guvante Aug 20 '12 at 17:58
@OldrichSvec: Contrived was a strong word, I just meant out there. Your performance hit was almost certainly not the construction of the Lazy class. Instead it was from the dereferencing of the Lazy instances. Lazy is a class, so is stored as a reference in an array. In contrast, double is a struct, so is stored in place. This can make an incredible difference when doing large computations, as a single vector could end up on 4 different pages in RAM with Lazy. – Guvante Aug 20 '12 at 19:00
I will note that if you actually test access time + creation time lazy is not so bad - I see about 2x difference rather that 13x – John Palmer Aug 21 '12 at 0:39
up vote 6 down vote accepted

The Lazy version has some significant overhead code -

 60     .method public specialname
 61            instance default float64 get_a ()  cil managed
 62     {
 63         // Method begins at RVA 0x2078
 64     // Code size 14 (0xe)
 65     .maxstack 3
 66     IL_0000:  ldarg.0
 67     IL_0001:  ldfld class [FSharp.Core]System.Lazy`1<float64> Test/T::v
 68     IL_0006:  tail.
 69     IL_0008:  call instance !0 class [FSharp.Core]System.Lazy`1<float64>::get_Value()
 70     IL_000d:  ret
 71     } // end of method T::get_a

Compare this to the direct version

 .method public specialname
130            instance default float64 get_a ()  cil managed
131     {
132         // Method begins at RVA 0x20cc
133     // Code size 10 (0xa)
134     .maxstack 3
135     IL_0000:  ldc.r8 0.
136     IL_0009:  ret
137     } // end of method T2::get_a

So the direct version has a load and then return, whilst the indirect version has a load then a call and then a return.

Since the lazy version has an extra call I would expect it to be significantly slower.

UPDATE: So I wondered if we could create a custom version of lazy which did not require the method calls - I also updated the test to actual call the method rather than just create the objects. Here is the code:

type T() =
  let v = lazy (0.0)
  member o.a() = v.Value

type T2() =
  member o.a() = 0.0

type T3() = 
  let mutable calculated = true
  let mutable value = 0.0
  member o.a() = if calculated then value else failwith "not done";;

#time "on"
let lazy_ = 
  for i in 0 .. 1000000 do
    T().a() |> ignore
  printfn "lazy"
#time "on"
let fakelazy = 
  for i in 0 .. 1000000 do
    T3().a() |> ignore
  printfn "fake lazy"

#time "on"
let direct = 
  for i in 0 .. 1000000 do
    T2().a() |> ignore
  printfn "direct";;

Which gives the following result:

Real: 00:00:03.786, CPU: 00:00:06.443, GC gen0: 7

val lazy_ : unit = ()

--> Timing now on

fake lazy
Real: 00:00:01.627, CPU: 00:00:02.858, GC gen0: 2

val fakelazy : unit = ()

--> Timing now on

Real: 00:00:01.759, CPU: 00:00:02.935, GC gen0: 2

val direct : unit = ()

Here the lazy version is only 2x slower than the direct version and the fake lazy version is even slightly faster than the direct version - this is probably due to a GC happening during the benchmark.

share|improve this answer
You are right. I just did not expect it to be that significantly slower. Now I will be more careful when using 'Lazy' type ;) – Oldrich Svec Aug 20 '12 at 9:24
You may want to add a note about the scale of this, as a random reader may not notice that you are talking about 60 ns per call to Lazy, and only see the 13x. – Guvante Aug 20 '12 at 17:59

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