Vedant Kumar via llvm-dev
2015-Oct-10 02:20 UTC
[llvm-dev] [RFC] Clean up the way we store optional Function data
Function's have three kinds of optional data: prefix data, prologue data, and personalities. We don't have a consistent way of storing this data, IMO. This RFC discusses a new way of managing optional data that makes llvm::Function cleaner, more consistent, and a little smaller. What do we do currently? ======================= Prefix and prologue data are attached to Functions via DenseMaps in LLVMContextImpl: typedef DenseMap<const Function *, ReturnInst *> FunctionDataMapTy; FunctionDataMapTy PrefixDataMap; FunctionDataMapTy PrologueDataMap; To attach prefix data to a Function, we create an orphan ReturnInst: RI = ReturnInst::Create(F->getContext(), PrefixData); PrefixDataMap[F] = RI; Personalities are stored as ``optional`` Function operands. We actually always allocate the space for this ``optional`` operand: there's a FIXME in the destructor for Function about this. What's wrong with this? ====================== 1. Functions without personalities pay the space-cost for them. 2. We handle personalities differently from prefix and prologue data. 3. Suppose N functions share the same prefix or prologue data. We create N different ReturnInsts to point to the same thing. I think that's wasteful. 4. These hidden ReturnInsts effectively make a Function an indirect user of its optional data. This relationship should be made explicit to avoid bugs. Proposal: Introduce a new Constant, llvm::IndirectUser ===================================================== This is my take on Duncan's proposed solution to PR24755 [1]. It involves creating a new type of Constant. A sketch: struct llvm::IndirectUser : llvm::Constant { Constant *Data; // Operand 0 unsigned RefCount; // Metadata (not an operand) /// Get or create an IndirectUser for C. static IndirectUser *GetOrCreateIndirectUser(Constant *C); /// Drop a reference to C's IndirectUser. static void ReleaseIndirectUser(Constant *C); }; Here's how to attach prefix data to a Function: IU = IndirectUser::GetOrCreateIndirectUser(PrefixData); PrefixDataMap[F] = IU; Prologue data and personality functions work the same way (though we'll need to add a PersonalityFnMap). If two functions share prefix/prologue data, or personalities, they get the same IndirectUser (with a bumped refcount). This addresses all the points in the previous section. Implementation details ===================== When an IndirectUser is constructed, it adds itself to its Constant's users list. When the IndirectUser's refcount hits 0, we can invoke destroyConstant(). The only tricky part is handling ReplaceAllUsesWith. There are two RAUW cases. Case 1 is easy: <IndirectUser 1> = { Data = A, RefCount = X } RAUW(A, B) Result: <IndirectUser 1> = { Data = B, RefCount = X } Case 2 is a bit more involved: <IndirectUser 1> = { Data = A, RefCount = X } <IndirectUser 2> = { Data = B, RefCount = Y } RAUW(A, B) Result: <IndirectUser 2> = { Data = B, RefCount = X + Y } <IndirectUser 1> = { Data = <IndirectUser 2>, RefCount = 0 } I've left out a sub-case where <IndirectUser 2> is already part of a daisy chain. There are strict asserts in place to keep the daisy-chaining sane. I have this mostly working. There's just one outstanding issue in clang. The PersonalityHasOnlyCXXUses() routine needs to look up all the Function objects which refer to a particular personality function. I plan on supporting this by defining a ``Function::getPersonalityFnUsers(Fn)`` routine. I'm hoping to have patches out for review by Monday. I thought I'd send this out now to get feedback on my approach -- plus, I didn't want to send stuff in out of the blue. Let me know what you think! vedant [1] https://llvm.org/bugs/show_bug.cgi?id=24755
Sanjoy Das via llvm-dev
2015-Oct-10 06:07 UTC
[llvm-dev] [RFC] Clean up the way we store optional Function data
I don't know how prologue and prefix data is used -- is it correct to say that you're basically trying to give `llvm::Function` s some "optional" operands, and that you know during construction of an `llvm::Function` how many optional operands the `llvm::Function` will need[1]? If so, you might want to consider using the "descriptor" functionality that was added recently[2]. It allows classes deriving from `llvm::User` to allocate an arbitrary number of bookkeeping bytes before the normal `Use &` array. Instructions with operand bundles use these bytes to remember which where the individual operand bundles start and end, and an `llvm::Function` could easily use the extra storage to remember if / where optional operands like the personality function are in the `Use &` array. And by making the operands part of the regular `Use &` array, functionality like RAUW that use Def-Use chains should Just Work(TM). Keep in mind, I'm biased here, so take with a grain of salt! :) [1]: I see there are methods like `setPrologueData`, but they're only used from files that I'd expect to be creating `llvm::Function` instances from scratch. [2]: See `DescBytes` in `User::User` -- Sanjoy Vedant Kumar wrote: > Function's have three kinds of optional data: prefix data, prologue data, and > personalities. We don't have a consistent way of storing this data, IMO. This > RFC discusses a new way of managing optional data that makes llvm::Function > cleaner, more consistent, and a little smaller. > > > What do we do currently? > ======================= > > Prefix and prologue data are attached to Functions via DenseMaps in > LLVMContextImpl: > > typedef DenseMap<const Function *, ReturnInst *> FunctionDataMapTy; > FunctionDataMapTy PrefixDataMap; > FunctionDataMapTy PrologueDataMap; > > To attach prefix data to a Function, we create an orphan ReturnInst: > > RI = ReturnInst::Create(F->getContext(), PrefixData); > PrefixDataMap[F] = RI; > > Personalities are stored as ``optional`` Function operands. We actually always > allocate the space for this ``optional`` operand: there's a FIXME in the > destructor for Function about this. > > > What's wrong with this? > ====================== > > 1. Functions without personalities pay the space-cost for them. > > 2. We handle personalities differently from prefix and prologue data. > > 3. Suppose N functions share the same prefix or prologue data. We create N > different ReturnInsts to point to the same thing. I think that's wasteful. > > 4. These hidden ReturnInsts effectively make a Function an indirect user of > its optional data. This relationship should be made explicit to avoid bugs. > > > Proposal: Introduce a new Constant, llvm::IndirectUser > ===================================================== > > This is my take on Duncan's proposed solution to PR24755 [1]. > > It involves creating a new type of Constant. A sketch: > > struct llvm::IndirectUser : llvm::Constant { > Constant *Data; // Operand 0 > unsigned RefCount; // Metadata (not an operand) > > /// Get or create an IndirectUser for C. > static IndirectUser *GetOrCreateIndirectUser(Constant *C); > > /// Drop a reference to C's IndirectUser. > static void ReleaseIndirectUser(Constant *C); > }; > > Here's how to attach prefix data to a Function: > > IU = IndirectUser::GetOrCreateIndirectUser(PrefixData); > PrefixDataMap[F] = IU; > > Prologue data and personality functions work the same way (though we'll need to > add a PersonalityFnMap). > > If two functions share prefix/prologue data, or personalities, they get the > same IndirectUser (with a bumped refcount). > > This addresses all the points in the previous section. > > > Implementation details > ===================== > > When an IndirectUser is constructed, it adds itself to its Constant's users > list. When the IndirectUser's refcount hits 0, we can invoke destroyConstant(). > The only tricky part is handling ReplaceAllUsesWith. > > There are two RAUW cases. Case 1 is easy: > > <IndirectUser 1> = { Data = A, RefCount = X } > RAUW(A, B) > > Result: > > <IndirectUser 1> = { Data = B, RefCount = X } > > Case 2 is a bit more involved: > > <IndirectUser 1> = { Data = A, RefCount = X } > <IndirectUser 2> = { Data = B, RefCount = Y } > RAUW(A, B) > > Result: > > <IndirectUser 2> = { Data = B, RefCount = X + Y } > <IndirectUser 1> = { Data =<IndirectUser 2>, RefCount = 0 } > > I've left out a sub-case where<IndirectUser 2> is already part of a daisy > chain. There are strict asserts in place to keep the daisy-chaining sane. > > I have this mostly working. There's just one outstanding issue in clang. The > PersonalityHasOnlyCXXUses() routine needs to look up all the Function objects > which refer to a particular personality function. I plan on supporting this by > defining a ``Function::getPersonalityFnUsers(Fn)`` routine. > > I'm hoping to have patches out for review by Monday. I thought I'd send this > out now to get feedback on my approach -- plus, I didn't want to send stuff in > out of the blue. > > Let me know what you think! > > vedant > > [1] https://llvm.org/bugs/show_bug.cgi?id=24755
Vedant Kumar via llvm-dev
2015-Oct-12 16:01 UTC
[llvm-dev] [RFC] Clean up the way we store optional Function data
Hi Sanjoy,> I don't know how prologue and prefix data is used -- is it correct to > say that you're basically trying to give `llvm::Function` s some > "optional" operands, and that you know during construction of an > `llvm::Function` how many optional operands the `llvm::Function` will > need[1]?Yep. Though not operands exactly, since they wouldn't be in Function's use list.> If so, you might want to consider using the "descriptor" > functionality that was added recently[2]. It allows classes deriving > from `llvm::User` to allocate an arbitrary number of bookkeeping bytes > before the normal `Use &` array. Instructions with operand bundles > use these bytes to remember which where the individual operand bundles > start and end, and an `llvm::Function` could easily use the extra > storage to remember if / where optional operands like the personality > function are in the `Use &` array. And by making the operands part of > the regular `Use &` array, functionality like RAUW that use Def-Use > chains should Just Work(TM).That's a neat idea. To summarize: make Function have 3 optional operands. (For context -- Function currently has 1 optional operand, and my proposal is to move to 0.) Could someone else chime in on what they'd like to see? vedant
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