Are floating point operations in Delphi deterministic?

I.E. will I get the same result from an identical floating point mathematical operation on the same executable compiled with Delphi Win32 compiler as I would with the Win64 compiler, or the OS X compiler, or the iOS compiler, or the Android compiler?

This is a crucial question as I'm implementing multiplayer support in my game engine, and I'm concerned that the predictive results on the client side could very often differ from the definitive (and authoritative) determination of the server.

The consequence of this would be the appearance of "lag" or "jerkiness" on the client side when the authoritative game state data overrules the predictive state on the client side.

Since I don't realistically have the ability to test dozens of different devices on different platforms compiled with the different compilers in anything resembling a "controlled condition", I figure it's best to put this question to the Delphi developers out there to see if anyone has an internal understanding of floating point determinism at a low-level on the compilers.

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    What do you mean by the 'floating point operations'? If you include transcendental functions like sin or cos I don't think you can expect same results. If you limit the question to 4 arithmetic operations on Double or Single type maybe you can achieve the same results but I don't like the idea of relying on it because change of floating operation mode can change result of a floating operation even on a single platform. – kludg Jun 22 '14 at 14:32
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    I don't see why this is a problem to you. Floating point data types and operations are always approximations. – David Heffernan Jun 22 '14 at 18:31
  • Suggested reading, Floating-Point Rounding Issues and Floating point precision control (Delphi for x64). There are so many ways that can go wrong, relying on the result must be equal on all platforms. – LU RD Jun 22 '14 at 18:57
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    @DavidHeffernan: It does for the poster's application; he's wondering whether he can trust client-side floating-point math to reproduce a list of calculations faithfully. Whether two state machines, identical at the Delphi level, could diverge as a result of different platforms handling floating-point differently. – tmyklebu Jun 22 '14 at 20:28
up vote 6 down vote accepted

I think there is no simple answer. Similar task was discussed here. In general, there are two standards for presentation of floating point numbers: IEEE 754-1985 and EEE 754-2008. All modern (and quite old actually) CPUs follow the standards and it guarantees some things:

  • Binary presentation of same standard floating type will be equal
  • Result of some operations (not all, only basic operations!) is guaranteed to be equal, but only if compiler will use same type of the command, i am not sure it is true.

But if you use some extended operations, such as square root, result may vary even for different models of desktop CPUs. You can read this article for some details: http://randomascii.wordpress.com/2013/07/16/floating-point-determinism/

P.S. As tmyklebu mentioned, square root is also defined by IEEE 754, so it is possible to guarantee same result for same input for Add, Subtract, Multiply, Divide and Square root. Few other operations are also defined by IEEE, but for all details it is better to read IEEE.

  • This is what I was presuming (and wanted to be sure). Annoyingly, the physics engine is using virtually all complex floating point operations (including Sine, Cosine, I'm using Tangent to determine which 3D layer to render the sprites onto, and square root). I may need to rely on "smoothing" based on a back-buffer in order to make the gameplay appear smooth on the client-side, while in reality constantly being "adjusted" (even if by only thousandths of a unit) by the authoritative server calculation. Inelegant, but looking to be essential now. – LaKraven Jun 22 '14 at 14:49
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    sqrt is fine. You're playing with fire with trig and exponential functions. The really scary thing is that, on x86-32, it's typical to use the FPU instead of SSE instructions. In order to get any sort of performance out of that, compilers need to generate code that rounds in a different way from what the program specifies. – tmyklebu Jun 22 '14 at 15:16
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    @DavidHeffernan Yes. The 6 basic operations +, -, *, /, sqrt, fma must be correctly rounded. – Pascal Cuoq Jun 22 '14 at 17:01
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    To reiterate, sqrt is completely defined by the IEEE 754 standard and does not “vary for different models of desktop CPUs”. – Pascal Cuoq Jun 22 '14 at 17:12
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    @DavidHeffernan: Yes; look at the opening paragraph of section 5. – tmyklebu Jun 22 '14 at 19:19

Putting aside the standards for floating point calculations for a moment, consider that the 32 and 64 bit compilers compile to use the old FPU vs the newer SSE instructions. I would find it difficult to trust that every calculation would always come out exactly the same on different hardware implementations. Better go the safe route and assume that if its within a small delta pf difference, you evaluate as equal.

  • That's the "best case scenario" I'm hoping for. In an ideal world the values would be precise, but since we know that the world is less than ideal, I'm just hoping that the results of the multiplayer test I'm preparing now will show that the differences between values are so miniscule that the rendered result still comes out the same. – LaKraven Jun 24 '14 at 19:28
  • The standard exists to ensure that results are consistent – David Heffernan Jun 25 '14 at 5:16

From experience I can tell that the results are different: 32-bit works with Extended precision by default, while 64-bit works with double precision by default.

Consider the statement

x,y,z: double; x := y * z;

in Win32 this will execute as "x := double(Extended(y)*Extended(z)); in Win64 this will execute as "x := double(double(y)*double(z));

you put a lot of effort into ensuring that you use the same precision and mode. However whenever you call 3rd party libraries, you need to consider that they may internally change these flags.

  • I'm quite fortunate in that this game engine uses entirely Double values internally, and Single is used by FMX for rendering the sprites only (no complex math performed on Single values, for that matter) Thanks for the info :) – LaKraven Jun 24 '14 at 19:26
  • @La The answer is talking about intermediate values on x87 that you have no control over – David Heffernan Jun 25 '14 at 5:15

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