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I got a bit of a surprise today when I changed the value of a publicly-visible constant in a static class and then replaced an old copy of the assembly with the newly-compiled version. The surprise was that the existing program that referenced the assembly didn't pick up the new value of the constant. That is, I didn't re-compile the executable but rather just replaced that one assembly.

A full description of my experiment is at How constant is a constant?

I'll admit to being very surprised by this behavior. I understand what's going on, but I don't understand why. Is there a particular technical reason why constants couldn't be picked up at JIT time rather than compile time? Are there cases where doing that would break things?

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This is a behavior discussed in too many books, blog posts, so it is not that surprising in fact :) – Lex Li Dec 10 '10 at 23:56
@Lex: Oddly, I'd never run across a discussion of it before. I still wonder why, though. – Jim Mischel Dec 10 '10 at 23:59
I still don't get what the advantage of baking it into the using assembly is. – CodesInChaos Dec 11 '10 at 10:50

2 Answers 2

up vote 28 down vote accepted

Constants are supposed to be constant. For all time. Constants are things like the value of pi, or the number of protons in a lead atom.

If your constant changes, it wasn't really a constant; use a readonly field instead.

Also see the Framework Design Guidelines, which state:

Use constant fields for constants that will never change. The compiler burns the values of const fields directly into calling code. Therefore const values can never be changed without the risk of breaking compatibility.

Essentially, changing a constant without recompiling everything that depends on it is every bit as broken as changing the signature of a method without recompiling everything that depends on it. The compiler "bakes in" all kinds of assumptions about information about metadata from referenced assemblies when it compiles a dependent assembly. If you make any change, you cannot expect things to simply keep on working.

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@Jim: I don't know. First off, there are a good half dozen or more JIT compilers and I am an expert on none of them. Second, JIT compilers often change their behaviour based on stuff that happens at runtime, like whether a debugger is attached or not. Third, if you are concerned about performance, write the code both ways, run it, and see if you can measure a difference. If the difference is too small to measure then it's probably not a difference you should be worrying about in the first place. – Eric Lippert Dec 10 '10 at 23:45
I heard PI is now exactly 3. – ChaosPandion Dec 10 '10 at 23:48
@ChaosPandion: In a world where hexagons are circles, sure. – Eric Lippert Dec 10 '10 at 23:50
@Eric, I just became recently aware of your work, the more of your stuff that I run into lately, the more awesome I'm finding your stackoverflow posts, keep up the awesome :-P. – Firoso Dec 10 '10 at 23:59
@ChaosPandion - I've been told it's healthier to always have the smaller PI, and I have to admit, I have a problem with my too-large circumference - but I'm sticking with the original, no matter how irrational – Steve314 Dec 11 '10 at 0:21

There is also a third way to declare "constants": a public static property.

public static string ConstString {get{return "First test";}}

This has the versioning semantics of a readonly field, but if the jitter inlines the getter it becomes a jit-time constant. And unlike const it can be used on user defined types.

I think it's a good idea to use static properties for value-types and string, but not for user defined classes, since you don't want to allocate a new instance on each property access.

I used this in my FixedPoint type like this:

public struct FixedPoint
  private int raw;
  private const fracDigits=16;

  private FixedPoint(int raw)

  public static FixedPoint Zero{get{return new FixedPoint();}}
  public static FixedPoint One{get{return new FixedPoint(1<<fracDigits);}}
  public static FixedPoint MaxValue{get{return new FixedPoint(int.MaxValue);}}
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