Here's what I've managed to find after a very limited search through dotnet/corefx repository on github.
[Intrinsic] marks methods, properties and fields that can be potentially replaced/optimized by JIT. Source code comments say something similar (
Calls to methods or references to fields marked with this attribute may be replaced at some call sites with jit intrinsic expansions. Types marked with this attribute may be specially treated by the runtime/compiler.
For core developers,
[Intrinsic] serves at least two purposes:
- it notifies the developer that the code of the marked field, method or property can be replaced by VM. So, if the code changes, the change should probably be introduced in both places;
- it is used as a flag for JIT-optimizer to quickly identify methods that can potentially be optimized.
To give a rough example: JIT-optimizer can replace
Enum.HasFlag with a simple bitwise comparison in some cases and not in the others. To do this it needs to identify the method as
Enum.HasFlag, check some conditions and replace it with a more optimal implementation. The optimizer can identify the method by name, but, for performance reasons, it's better to filter out methods by a simple flag before performing string comparisons.
The attribute is only relevant to core developers. You should only use it in an internal class and only in the case when you want to propose very specific JIT-level optimizations for it.
[Intrinsic] is pretty much restricted to a small set of widely used .Net classes, that, for some reason, can't be optimized by other means.
from the comments: I'm planning to propose a Color struct for .NET Core which needs to behave similarly to other built-in types for consistency.
You should probably not use
[Intrinsic] in your initial proposal. After it passes, you can think about optimization, and if you have a valid scenario when
Color will benefit from low level optimizations, you can suggest using
[Intrinsic] on some of its methods or properties.
How It Works
[Intrinsic] is currently used in core:
it is defined as a well-known attribute (
VM parses it and sets the
IsJitIntrinsic flag to true for a method (
if (bmtProp->fIsHardwareIntrinsic || (S_OK == GetCustomAttribute(pMethod->GetMethodSignature().GetToken(),
this flag is used to set another flag in method attributes (
result |= CORINFO_FLG_JIT_INTRINSIC;
this flag is later used to filter out methods which are obviously not intrinsic (
if ((mflags & (CORINFO_FLG_INTRINSIC | CORINFO_FLG_JIT_INTRINSIC)) != 0)
const bool isTail = canTailCall && (tailCall != 0);
call = impIntrinsic(newobjThis, clsHnd, methHnd, sig, mflags, pResolvedToken->token, readonlyCall, isTail,
pConstrainedResolvedToken, callInfo->thisTransform, &intrinsicID, &isSpecialIntrinsic);
impIntrinsic then calls
lookupNamedIntrinsic to identify (mostly by name) methods that really (not just potentially) should be optimized;
after all of that
importer can perform optimizations based on method. For example, optimization for
GenTree* thisOp = impStackTop(1).val;
GenTree* flagOp = impStackTop(0).val;
GenTree* optTree = gtOptimizeEnumHasFlag(thisOp, flagOp);
if (optTree != nullptr)
// Optimization successful. Pop the stack for real.
retNode = optTree;
// Retry optimizing this during morph.
isSpecial = true;
DISCLAIMER: as far as I can tell, the attribute's behaviour is not properly documented anywhere and, thus, is subject for change. The description above is only relevant to code currently in master, this part of core is actively developed and the whole process can be changed in the future.
Here's a short timeline of
[Intrinsic] based on github repository history:
@jkotas: We should not need the JitIntrinsicAttribute. As far as I know, this attribute was future proofing, never used for anything real. We should delete it, and use the IntrinsicAttribute from CoreLib instead.