On Mon, Jul 21, 2014 at 3:48 PM, Manman Ren <manman.ren at gmail.com> wrote:> > > > On Mon, Jul 21, 2014 at 3:41 PM, David Blaikie <dblaikie at gmail.com> wrote: >> >> On Mon, Jul 21, 2014 at 3:35 PM, Manman Ren <manman.ren at gmail.com> wrote: >> > >> > >> > >> > On Mon, Jul 21, 2014 at 1:14 PM, David Blaikie <dblaikie at gmail.com> >> > wrote: >> >> >> >> On Mon, Jul 21, 2014 at 10:39 AM, Manman Ren <manman.ren at gmail.com> >> >> wrote: >> >> > >> >> > >> >> > >> >> > On Mon, Jul 14, 2014 at 11:32 AM, Manman Ren <manman.ren at gmail.com> >> >> > wrote: >> >> >> >> >> >> >> >> >> We still have access to types via MDNodes directly and the assertion >> >> >> that >> >> >> assumes all accesses to DITypes are accessing the resolved DIType >> >> >> will >> >> >> fire >> >> >> >> >> >> i.e assert(Ty == resolve(Ty.getRef())) >> >> >> >> >> >> One example is the access to DIType via DIArray in SubroutineType. >> >> >> If >> >> >> all >> >> >> elements in the type array are DITypes we can create a DITypeArray >> >> >> and >> >> >> use >> >> >> that for SubroutineType's type array instead. But we currently have >> >> >> unspecified parameter in the type array and it is not a DIType. >> >> > >> >> > >> >> > I am going to work on a patch that adds DITypeArray (each element >> >> > will >> >> > be >> >> > DITypeRef, SubroutineType's type array will be DITypeArray) and adds >> >> > DITrivialType that extends from DIType (unspecified parameter will be >> >> > DITrivialType). >> >> > If you have opinions against it, please let me know, >> >> >> >> We haven't bothered using typed arrays in DebugInfo yet (as you say, >> >> we just have DIArray) so I have two thoughts >> >> >> >> 1) why does this one case need fixing/changing? Is it because we have >> >> things that aren't DIDescriptors inside the DIArray? (the strings that >> >> refer to types). Given how loosely typed DIDescriptor is (it doesn't >> >> check that it's a valid DIDescriptor) I assume this doesn't actually >> >> cause a problem, though it's certainly not nice. So we could just >> >> leave it as-is, pass DIArray's element to "resolve" (it'd implicitly >> >> convert the DIDescriptor back to a raw MDNode*), then perhaps we'd >> >> need to make DITypeRef's ctor public so it could be used here. Not >> >> suggesting that's ideal, though. >> > >> > >> > I should have provided an example to help understanding the issue :) >> > >> > When processing the following type node, we throw an assertion failure >> > assert(Ty == resolve(Ty.getRef())) >> > !{i32 786436, metadata <badref>, null, metadata !"SpuPacketType", i32 >> > 102, >> > i64 32, i64 32, i32 0, i32 0, null, metadata <badref>, i32 0, null, >> > null, >> > metadata !"_ZTS13SpuPacketType"} ; [ DW_TAG_enumeration_type ] >> > [SpuPacketType] [line 102, size 32, align 32, offset 0] [def] [from ] >> > >> > There are two type nodes with the same identifier: >> > !473 = metadata !{i32 786436, metadata !474, null, metadata >> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, metadata >> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ >> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align 32, >> > offset 0] [def] [from ] >> > !6695 = metadata !{i32 786436, metadata !6696, null, metadata >> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, metadata >> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ >> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align 32, >> > offset 0] [def] [from ] >> > >> > The only difference between these two is the file node >> > !474 = metadata !{metadata >> > >> > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/SPUPacket.h", >> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} >> > !6696 = metadata !{metadata >> > >> > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/../SPU/SPUPacket.h", >> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} >> > >> > We have direct access to 473 via 580's type array. >> > !580 = metadata !{i32 786453, i32 0, null, metadata !"", i32 0, i64 0, >> > i64 >> > 0, i64 0, i32 0, null, metadata !581, i32 0, null, null, null} ; [ >> > DW_TAG_subroutine_type ] [line 0, size 0, align 0, offset 0] [from ] >> > !581 = metadata !{metadata !124, metadata !575, metadata !473, metadata >> > !582, metadata !212, metadata !128, metadata !584} >> > >> > MDNode 473 will be resolved to MDNode 6695 and the assertion "assert(Ty >> > =>> > resolve(Ty.getRef()))" will fire. >> > >> > ------------------------------------------------- >> > To fix the problem, we need to remove the direct access to MDNode 473 by >> > replacing MDNode 581 from >> > metadata !{metadata !124, metadata !575, metadata !473, metadata !582, >> > metadata !212, metadata !128, metadata !584} >> > to >> > metadata !{metadata !124, metadata !575, metadata >> > !"_ZTS13SpuPacketType", >> > metadata !582, metadata !212, metadata !128, metadata !584} >> > >> > And treat the field {metadata !"_ZTS13SpuPacketType"} as DITypeRef. >> > >> > ------------------------------------------------- >> > If we have DIDescriptorRef and all elements currently inside DIArray are >> > DIDescirptors, we can make DIArray an array of DIDescriptorRef. >> > I don't think it is a good idea to add DIDescriptorRef (it makes our >> > types >> > loose) and am not sure about the 2nd condition. >> > >> > So I proposed to add DITypeArray (or DITypedArray<DITypeRef> as David >> > suggested, where all elements are DITypeRef), >> > DICompositeType::getTypeArray() will return DITypeArray and >> > DITypeArray::getElement(unsigned) will return DITypeRef. >> > >> > This is actually more complicated than I thought, not all >> > DICompositeType's >> > getTypeArray() can return an array of DITypeRefs. For example, >> > getTypeArray() of ArrayType and VectorType can not return an array of >> > DITypeRefs. >> >> Why can't they? > > > For ArrayType, we create it like this: > SmallVector<llvm::Value *, 8> Subscripts; > ... > Subscripts.push_back(DBuilder.getOrCreateSubrange(0, Count)); > ... > llvm::DIArray SubscriptArray = DBuilder.getOrCreateArray(Subscripts); > > The elements of getTypeArray() are DISubranges, even though the function is > called getTypeArray :)Yeah, that seems pretty bogus. They could use a separate type with its own array handling, perhaps.> >> >> >> > We can fix that by extending DICompositeType to DISubroutineType and >> > only >> > DISubroutineType::getTypeArray() will return DITypeArray.Should it be a composite type at all? (I haven't looked/thought about this much, but figure it's worth asking - since DISubroutineType would still be a DICompositeType and DICompositeType's getTypeArray would still return bogus data, if we did that inheritance - but it's not the worst thing we've got, just still not very nice)>> > Even for SubroutineType, elements of the type array can be unspecified >> > parameters which can't be DITypeRefs. >> >> Again - I'm just missing why this is the case. DITypeRefs can be >> direct references to types (such as file-internal C++ user defined >> types) so there's always a safe fallback, isn't there? > > > If a SubroutineType's getTypeArray() contains unspecified parameter (which > is a DIDescriptor, not a DIType), we can't say > DISubroutineType::getTypeArray() will return DITypeArray, > since we assume DITypeArray (or DITypedArray<DITypeRef>) have all elements > being DITypeRefs.Yeah, I agree with you there - we should just build unspecified parameters as some trivial DIType, most likely. Thanks for all the work/explanations, - David> > Thanks, > Manman >> >> >> > That is why I was thinking about >> > making unspecified parameters trivial DITypes. >> > >> > Thanks a lot, >> > Manman >> > >> >> >> >> >> >> 2) If we're going to fix DIArray apparent type safety (it's not safe - >> >> just convenient), perhaps we could just template it? (to avoid churn, >> >> we could leave DIArray as a typedef of DITypedArray<DIDescriptor> for >> >> example, and then have DITypedArray<DITypeRef> which is your >> >> DITypeArray (again, provided via typedef)). It's so small though, that >> >> I'm not too fussed if we write it out again as you've proposed. >> >> >> >> - David >> >> >> >> > >> >> > Thanks, >> >> > Manman >> >> > >> >> >> >> >> >> What are your thoughts? Suggestions are welcome. >> >> >> >> >> >> Is it a good idea to canonicalize file names (i.e dA/B.h should be >> >> >> equivalent to dA/../dA/B.h)? This will reduce the chance of having >> >> >> two >> >> >> DITypes that should be equivalent with equivalent file names. >> >> >> >> >> >> Thanks, >> >> >> Manman >> >> > >> >> > >> > >> > > >
Oh, and you can probably do some of those parts separately - changing unspecified parameters to a DIType should be a standalone refactoring. As for ArrayType/VectorType/SubroutineType - rather than specializing SubroutineType, it sounds like ArrayType/VectorType are the odd-ones-out, having their composite type arrays not really be types. Perhaps they should be the ones that end up as their own (possibly not even composite? but I'm not sure) types. (again, whichever way that goes, it could be a separate refactoring patch) On Mon, Jul 21, 2014 at 3:54 PM, David Blaikie <dblaikie at gmail.com> wrote:> On Mon, Jul 21, 2014 at 3:48 PM, Manman Ren <manman.ren at gmail.com> wrote: >> >> >> >> On Mon, Jul 21, 2014 at 3:41 PM, David Blaikie <dblaikie at gmail.com> wrote: >>> >>> On Mon, Jul 21, 2014 at 3:35 PM, Manman Ren <manman.ren at gmail.com> wrote: >>> > >>> > >>> > >>> > On Mon, Jul 21, 2014 at 1:14 PM, David Blaikie <dblaikie at gmail.com> >>> > wrote: >>> >> >>> >> On Mon, Jul 21, 2014 at 10:39 AM, Manman Ren <manman.ren at gmail.com> >>> >> wrote: >>> >> > >>> >> > >>> >> > >>> >> > On Mon, Jul 14, 2014 at 11:32 AM, Manman Ren <manman.ren at gmail.com> >>> >> > wrote: >>> >> >> >>> >> >> >>> >> >> We still have access to types via MDNodes directly and the assertion >>> >> >> that >>> >> >> assumes all accesses to DITypes are accessing the resolved DIType >>> >> >> will >>> >> >> fire >>> >> >> >>> >> >> i.e assert(Ty == resolve(Ty.getRef())) >>> >> >> >>> >> >> One example is the access to DIType via DIArray in SubroutineType. >>> >> >> If >>> >> >> all >>> >> >> elements in the type array are DITypes we can create a DITypeArray >>> >> >> and >>> >> >> use >>> >> >> that for SubroutineType's type array instead. But we currently have >>> >> >> unspecified parameter in the type array and it is not a DIType. >>> >> > >>> >> > >>> >> > I am going to work on a patch that adds DITypeArray (each element >>> >> > will >>> >> > be >>> >> > DITypeRef, SubroutineType's type array will be DITypeArray) and adds >>> >> > DITrivialType that extends from DIType (unspecified parameter will be >>> >> > DITrivialType). >>> >> > If you have opinions against it, please let me know, >>> >> >>> >> We haven't bothered using typed arrays in DebugInfo yet (as you say, >>> >> we just have DIArray) so I have two thoughts >>> >> >>> >> 1) why does this one case need fixing/changing? Is it because we have >>> >> things that aren't DIDescriptors inside the DIArray? (the strings that >>> >> refer to types). Given how loosely typed DIDescriptor is (it doesn't >>> >> check that it's a valid DIDescriptor) I assume this doesn't actually >>> >> cause a problem, though it's certainly not nice. So we could just >>> >> leave it as-is, pass DIArray's element to "resolve" (it'd implicitly >>> >> convert the DIDescriptor back to a raw MDNode*), then perhaps we'd >>> >> need to make DITypeRef's ctor public so it could be used here. Not >>> >> suggesting that's ideal, though. >>> > >>> > >>> > I should have provided an example to help understanding the issue :) >>> > >>> > When processing the following type node, we throw an assertion failure >>> > assert(Ty == resolve(Ty.getRef())) >>> > !{i32 786436, metadata <badref>, null, metadata !"SpuPacketType", i32 >>> > 102, >>> > i64 32, i64 32, i32 0, i32 0, null, metadata <badref>, i32 0, null, >>> > null, >>> > metadata !"_ZTS13SpuPacketType"} ; [ DW_TAG_enumeration_type ] >>> > [SpuPacketType] [line 102, size 32, align 32, offset 0] [def] [from ] >>> > >>> > There are two type nodes with the same identifier: >>> > !473 = metadata !{i32 786436, metadata !474, null, metadata >>> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, metadata >>> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ >>> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align 32, >>> > offset 0] [def] [from ] >>> > !6695 = metadata !{i32 786436, metadata !6696, null, metadata >>> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, metadata >>> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ >>> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align 32, >>> > offset 0] [def] [from ] >>> > >>> > The only difference between these two is the file node >>> > !474 = metadata !{metadata >>> > >>> > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/SPUPacket.h", >>> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} >>> > !6696 = metadata !{metadata >>> > >>> > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/../SPU/SPUPacket.h", >>> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} >>> > >>> > We have direct access to 473 via 580's type array. >>> > !580 = metadata !{i32 786453, i32 0, null, metadata !"", i32 0, i64 0, >>> > i64 >>> > 0, i64 0, i32 0, null, metadata !581, i32 0, null, null, null} ; [ >>> > DW_TAG_subroutine_type ] [line 0, size 0, align 0, offset 0] [from ] >>> > !581 = metadata !{metadata !124, metadata !575, metadata !473, metadata >>> > !582, metadata !212, metadata !128, metadata !584} >>> > >>> > MDNode 473 will be resolved to MDNode 6695 and the assertion "assert(Ty >>> > =>>> > resolve(Ty.getRef()))" will fire. >>> > >>> > ------------------------------------------------- >>> > To fix the problem, we need to remove the direct access to MDNode 473 by >>> > replacing MDNode 581 from >>> > metadata !{metadata !124, metadata !575, metadata !473, metadata !582, >>> > metadata !212, metadata !128, metadata !584} >>> > to >>> > metadata !{metadata !124, metadata !575, metadata >>> > !"_ZTS13SpuPacketType", >>> > metadata !582, metadata !212, metadata !128, metadata !584} >>> > >>> > And treat the field {metadata !"_ZTS13SpuPacketType"} as DITypeRef. >>> > >>> > ------------------------------------------------- >>> > If we have DIDescriptorRef and all elements currently inside DIArray are >>> > DIDescirptors, we can make DIArray an array of DIDescriptorRef. >>> > I don't think it is a good idea to add DIDescriptorRef (it makes our >>> > types >>> > loose) and am not sure about the 2nd condition. >>> > >>> > So I proposed to add DITypeArray (or DITypedArray<DITypeRef> as David >>> > suggested, where all elements are DITypeRef), >>> > DICompositeType::getTypeArray() will return DITypeArray and >>> > DITypeArray::getElement(unsigned) will return DITypeRef. >>> > >>> > This is actually more complicated than I thought, not all >>> > DICompositeType's >>> > getTypeArray() can return an array of DITypeRefs. For example, >>> > getTypeArray() of ArrayType and VectorType can not return an array of >>> > DITypeRefs. >>> >>> Why can't they? >> >> >> For ArrayType, we create it like this: >> SmallVector<llvm::Value *, 8> Subscripts; >> ... >> Subscripts.push_back(DBuilder.getOrCreateSubrange(0, Count)); >> ... >> llvm::DIArray SubscriptArray = DBuilder.getOrCreateArray(Subscripts); >> >> The elements of getTypeArray() are DISubranges, even though the function is >> called getTypeArray :) > > Yeah, that seems pretty bogus. They could use a separate type with its > own array handling, perhaps. > >> >>> >>> >>> > We can fix that by extending DICompositeType to DISubroutineType and >>> > only >>> > DISubroutineType::getTypeArray() will return DITypeArray. > > Should it be a composite type at all? (I haven't looked/thought about > this much, but figure it's worth asking - since DISubroutineType would > still be a DICompositeType and DICompositeType's getTypeArray would > still return bogus data, if we did that inheritance - but it's not the > worst thing we've got, just still not very nice) > >>> > Even for SubroutineType, elements of the type array can be unspecified >>> > parameters which can't be DITypeRefs. >>> >>> Again - I'm just missing why this is the case. DITypeRefs can be >>> direct references to types (such as file-internal C++ user defined >>> types) so there's always a safe fallback, isn't there? >> >> >> If a SubroutineType's getTypeArray() contains unspecified parameter (which >> is a DIDescriptor, not a DIType), we can't say >> DISubroutineType::getTypeArray() will return DITypeArray, >> since we assume DITypeArray (or DITypedArray<DITypeRef>) have all elements >> being DITypeRefs. > > Yeah, I agree with you there - we should just build unspecified > parameters as some trivial DIType, most likely. > > Thanks for all the work/explanations, > > - David > >> >> Thanks, >> Manman >>> >>> >>> > That is why I was thinking about >>> > making unspecified parameters trivial DITypes. >>> > >>> > Thanks a lot, >>> > Manman >>> > >>> >> >>> >> >>> >> 2) If we're going to fix DIArray apparent type safety (it's not safe - >>> >> just convenient), perhaps we could just template it? (to avoid churn, >>> >> we could leave DIArray as a typedef of DITypedArray<DIDescriptor> for >>> >> example, and then have DITypedArray<DITypeRef> which is your >>> >> DITypeArray (again, provided via typedef)). It's so small though, that >>> >> I'm not too fussed if we write it out again as you've proposed. >>> >> >>> >> - David >>> >> >>> >> > >>> >> > Thanks, >>> >> > Manman >>> >> > >>> >> >> >>> >> >> What are your thoughts? Suggestions are welcome. >>> >> >> >>> >> >> Is it a good idea to canonicalize file names (i.e dA/B.h should be >>> >> >> equivalent to dA/../dA/B.h)? This will reduce the chance of having >>> >> >> two >>> >> >> DITypes that should be equivalent with equivalent file names. >>> >> >> >>> >> >> Thanks, >>> >> >> Manman >>> >> > >>> >> > >>> > >>> > >> >>
On Mon, Jul 21, 2014 at 3:57 PM, David Blaikie <dblaikie at gmail.com> wrote:> Oh, and you can probably do some of those parts separately - changing > unspecified parameters to a DIType should be a standalone refactoring. >Yes.> > As for ArrayType/VectorType/SubroutineType - rather than specializing > SubroutineType, it sounds like ArrayType/VectorType are the > odd-ones-out, having their composite type arrays not really be types. >Class/Enum/Struct/Union store DIObjcProperty and DISubprogram in the type array. DIObjecProperty and DISubprogram are not DITypes. So out of the 7 possible CompositeTypes, only SubroutineType can have all elements of the array being DITypes. So separating DISubroutineType should be better (easier).> Perhaps they should be the ones that end up as their own (possibly not > even composite? but I'm not sure) types. (again, whichever way that > goes, it could be a separate refactoring patch) >Yes, I will do it incrementally as separate patches. Thanks, Manman> > On Mon, Jul 21, 2014 at 3:54 PM, David Blaikie <dblaikie at gmail.com> wrote: > > On Mon, Jul 21, 2014 at 3:48 PM, Manman Ren <manman.ren at gmail.com> > wrote: > >> > >> > >> > >> On Mon, Jul 21, 2014 at 3:41 PM, David Blaikie <dblaikie at gmail.com> > wrote: > >>> > >>> On Mon, Jul 21, 2014 at 3:35 PM, Manman Ren <manman.ren at gmail.com> > wrote: > >>> > > >>> > > >>> > > >>> > On Mon, Jul 21, 2014 at 1:14 PM, David Blaikie <dblaikie at gmail.com> > >>> > wrote: > >>> >> > >>> >> On Mon, Jul 21, 2014 at 10:39 AM, Manman Ren <manman.ren at gmail.com> > >>> >> wrote: > >>> >> > > >>> >> > > >>> >> > > >>> >> > On Mon, Jul 14, 2014 at 11:32 AM, Manman Ren < > manman.ren at gmail.com> > >>> >> > wrote: > >>> >> >> > >>> >> >> > >>> >> >> We still have access to types via MDNodes directly and the > assertion > >>> >> >> that > >>> >> >> assumes all accesses to DITypes are accessing the resolved DIType > >>> >> >> will > >>> >> >> fire > >>> >> >> > >>> >> >> i.e assert(Ty == resolve(Ty.getRef())) > >>> >> >> > >>> >> >> One example is the access to DIType via DIArray in > SubroutineType. > >>> >> >> If > >>> >> >> all > >>> >> >> elements in the type array are DITypes we can create a > DITypeArray > >>> >> >> and > >>> >> >> use > >>> >> >> that for SubroutineType's type array instead. But we currently > have > >>> >> >> unspecified parameter in the type array and it is not a DIType. > >>> >> > > >>> >> > > >>> >> > I am going to work on a patch that adds DITypeArray (each element > >>> >> > will > >>> >> > be > >>> >> > DITypeRef, SubroutineType's type array will be DITypeArray) and > adds > >>> >> > DITrivialType that extends from DIType (unspecified parameter > will be > >>> >> > DITrivialType). > >>> >> > If you have opinions against it, please let me know, > >>> >> > >>> >> We haven't bothered using typed arrays in DebugInfo yet (as you say, > >>> >> we just have DIArray) so I have two thoughts > >>> >> > >>> >> 1) why does this one case need fixing/changing? Is it because we > have > >>> >> things that aren't DIDescriptors inside the DIArray? (the strings > that > >>> >> refer to types). Given how loosely typed DIDescriptor is (it doesn't > >>> >> check that it's a valid DIDescriptor) I assume this doesn't actually > >>> >> cause a problem, though it's certainly not nice. So we could just > >>> >> leave it as-is, pass DIArray's element to "resolve" (it'd implicitly > >>> >> convert the DIDescriptor back to a raw MDNode*), then perhaps we'd > >>> >> need to make DITypeRef's ctor public so it could be used here. Not > >>> >> suggesting that's ideal, though. > >>> > > >>> > > >>> > I should have provided an example to help understanding the issue :) > >>> > > >>> > When processing the following type node, we throw an assertion > failure > >>> > assert(Ty == resolve(Ty.getRef())) > >>> > !{i32 786436, metadata <badref>, null, metadata !"SpuPacketType", i32 > >>> > 102, > >>> > i64 32, i64 32, i32 0, i32 0, null, metadata <badref>, i32 0, null, > >>> > null, > >>> > metadata !"_ZTS13SpuPacketType"} ; [ DW_TAG_enumeration_type ] > >>> > [SpuPacketType] [line 102, size 32, align 32, offset 0] [def] [from ] > >>> > > >>> > There are two type nodes with the same identifier: > >>> > !473 = metadata !{i32 786436, metadata !474, null, metadata > >>> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, > metadata > >>> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ > >>> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align > 32, > >>> > offset 0] [def] [from ] > >>> > !6695 = metadata !{i32 786436, metadata !6696, null, metadata > >>> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, > metadata > >>> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ > >>> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align > 32, > >>> > offset 0] [def] [from ] > >>> > > >>> > The only difference between these two is the file node > >>> > !474 = metadata !{metadata > >>> > > >>> > > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/SPUPacket.h", > >>> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} > >>> > !6696 = metadata !{metadata > >>> > > >>> > > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/../SPU/SPUPacket.h", > >>> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} > >>> > > >>> > We have direct access to 473 via 580's type array. > >>> > !580 = metadata !{i32 786453, i32 0, null, metadata !"", i32 0, i64 > 0, > >>> > i64 > >>> > 0, i64 0, i32 0, null, metadata !581, i32 0, null, null, null} ; [ > >>> > DW_TAG_subroutine_type ] [line 0, size 0, align 0, offset 0] [from ] > >>> > !581 = metadata !{metadata !124, metadata !575, metadata !473, > metadata > >>> > !582, metadata !212, metadata !128, metadata !584} > >>> > > >>> > MDNode 473 will be resolved to MDNode 6695 and the assertion > "assert(Ty > >>> > => >>> > resolve(Ty.getRef()))" will fire. > >>> > > >>> > ------------------------------------------------- > >>> > To fix the problem, we need to remove the direct access to MDNode > 473 by > >>> > replacing MDNode 581 from > >>> > metadata !{metadata !124, metadata !575, metadata !473, metadata > !582, > >>> > metadata !212, metadata !128, metadata !584} > >>> > to > >>> > metadata !{metadata !124, metadata !575, metadata > >>> > !"_ZTS13SpuPacketType", > >>> > metadata !582, metadata !212, metadata !128, metadata !584} > >>> > > >>> > And treat the field {metadata !"_ZTS13SpuPacketType"} as DITypeRef. > >>> > > >>> > ------------------------------------------------- > >>> > If we have DIDescriptorRef and all elements currently inside DIArray > are > >>> > DIDescirptors, we can make DIArray an array of DIDescriptorRef. > >>> > I don't think it is a good idea to add DIDescriptorRef (it makes our > >>> > types > >>> > loose) and am not sure about the 2nd condition. > >>> > > >>> > So I proposed to add DITypeArray (or DITypedArray<DITypeRef> as David > >>> > suggested, where all elements are DITypeRef), > >>> > DICompositeType::getTypeArray() will return DITypeArray and > >>> > DITypeArray::getElement(unsigned) will return DITypeRef. > >>> > > >>> > This is actually more complicated than I thought, not all > >>> > DICompositeType's > >>> > getTypeArray() can return an array of DITypeRefs. For example, > >>> > getTypeArray() of ArrayType and VectorType can not return an array of > >>> > DITypeRefs. > >>> > >>> Why can't they? > >> > >> > >> For ArrayType, we create it like this: > >> SmallVector<llvm::Value *, 8> Subscripts; > >> ... > >> Subscripts.push_back(DBuilder.getOrCreateSubrange(0, Count)); > >> ... > >> llvm::DIArray SubscriptArray = DBuilder.getOrCreateArray(Subscripts); > >> > >> The elements of getTypeArray() are DISubranges, even though the > function is > >> called getTypeArray :) > > > > Yeah, that seems pretty bogus. They could use a separate type with its > > own array handling, perhaps. > > > >> > >>> > >>> > >>> > We can fix that by extending DICompositeType to DISubroutineType and > >>> > only > >>> > DISubroutineType::getTypeArray() will return DITypeArray. > > > > Should it be a composite type at all? (I haven't looked/thought about > > this much, but figure it's worth asking - since DISubroutineType would > > still be a DICompositeType and DICompositeType's getTypeArray would > > still return bogus data, if we did that inheritance - but it's not the > > worst thing we've got, just still not very nice) > > > >>> > Even for SubroutineType, elements of the type array can be > unspecified > >>> > parameters which can't be DITypeRefs. > >>> > >>> Again - I'm just missing why this is the case. DITypeRefs can be > >>> direct references to types (such as file-internal C++ user defined > >>> types) so there's always a safe fallback, isn't there? > >> > >> > >> If a SubroutineType's getTypeArray() contains unspecified parameter > (which > >> is a DIDescriptor, not a DIType), we can't say > >> DISubroutineType::getTypeArray() will return DITypeArray, > >> since we assume DITypeArray (or DITypedArray<DITypeRef>) have all > elements > >> being DITypeRefs. > > > > Yeah, I agree with you there - we should just build unspecified > > parameters as some trivial DIType, most likely. > > > > Thanks for all the work/explanations, > > > > - David > > > >> > >> Thanks, > >> Manman > >>> > >>> > >>> > That is why I was thinking about > >>> > making unspecified parameters trivial DITypes. > >>> > > >>> > Thanks a lot, > >>> > Manman > >>> > > >>> >> > >>> >> > >>> >> 2) If we're going to fix DIArray apparent type safety (it's not > safe - > >>> >> just convenient), perhaps we could just template it? (to avoid > churn, > >>> >> we could leave DIArray as a typedef of DITypedArray<DIDescriptor> > for > >>> >> example, and then have DITypedArray<DITypeRef> which is your > >>> >> DITypeArray (again, provided via typedef)). It's so small though, > that > >>> >> I'm not too fussed if we write it out again as you've proposed. > >>> >> > >>> >> - David > >>> >> > >>> >> > > >>> >> > Thanks, > >>> >> > Manman > >>> >> > > >>> >> >> > >>> >> >> What are your thoughts? Suggestions are welcome. > >>> >> >> > >>> >> >> Is it a good idea to canonicalize file names (i.e dA/B.h should > be > >>> >> >> equivalent to dA/../dA/B.h)? This will reduce the chance of > having > >>> >> >> two > >>> >> >> DITypes that should be equivalent with equivalent file names. > >>> >> >> > >>> >> >> Thanks, > >>> >> >> Manman > >>> >> > > >>> >> > > >>> > > >>> > > >> > >> >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20140721/d078aed5/attachment.html>
On Mon, Jul 21, 2014 at 3:54 PM, David Blaikie <dblaikie at gmail.com> wrote:> On Mon, Jul 21, 2014 at 3:48 PM, Manman Ren <manman.ren at gmail.com> wrote: > > > > > > > > On Mon, Jul 21, 2014 at 3:41 PM, David Blaikie <dblaikie at gmail.com> > wrote: > >> > >> On Mon, Jul 21, 2014 at 3:35 PM, Manman Ren <manman.ren at gmail.com> > wrote: > >> > > >> > > >> > > >> > On Mon, Jul 21, 2014 at 1:14 PM, David Blaikie <dblaikie at gmail.com> > >> > wrote: > >> >> > >> >> On Mon, Jul 21, 2014 at 10:39 AM, Manman Ren <manman.ren at gmail.com> > >> >> wrote: > >> >> > > >> >> > > >> >> > > >> >> > On Mon, Jul 14, 2014 at 11:32 AM, Manman Ren <manman.ren at gmail.com > > > >> >> > wrote: > >> >> >> > >> >> >> > >> >> >> We still have access to types via MDNodes directly and the > assertion > >> >> >> that > >> >> >> assumes all accesses to DITypes are accessing the resolved DIType > >> >> >> will > >> >> >> fire > >> >> >> > >> >> >> i.e assert(Ty == resolve(Ty.getRef())) > >> >> >> > >> >> >> One example is the access to DIType via DIArray in SubroutineType. > >> >> >> If > >> >> >> all > >> >> >> elements in the type array are DITypes we can create a DITypeArray > >> >> >> and > >> >> >> use > >> >> >> that for SubroutineType's type array instead. But we currently > have > >> >> >> unspecified parameter in the type array and it is not a DIType. > >> >> > > >> >> > > >> >> > I am going to work on a patch that adds DITypeArray (each element > >> >> > will > >> >> > be > >> >> > DITypeRef, SubroutineType's type array will be DITypeArray) and > adds > >> >> > DITrivialType that extends from DIType (unspecified parameter will > be > >> >> > DITrivialType). > >> >> > If you have opinions against it, please let me know, > >> >> > >> >> We haven't bothered using typed arrays in DebugInfo yet (as you say, > >> >> we just have DIArray) so I have two thoughts > >> >> > >> >> 1) why does this one case need fixing/changing? Is it because we have > >> >> things that aren't DIDescriptors inside the DIArray? (the strings > that > >> >> refer to types). Given how loosely typed DIDescriptor is (it doesn't > >> >> check that it's a valid DIDescriptor) I assume this doesn't actually > >> >> cause a problem, though it's certainly not nice. So we could just > >> >> leave it as-is, pass DIArray's element to "resolve" (it'd implicitly > >> >> convert the DIDescriptor back to a raw MDNode*), then perhaps we'd > >> >> need to make DITypeRef's ctor public so it could be used here. Not > >> >> suggesting that's ideal, though. > >> > > >> > > >> > I should have provided an example to help understanding the issue :) > >> > > >> > When processing the following type node, we throw an assertion failure > >> > assert(Ty == resolve(Ty.getRef())) > >> > !{i32 786436, metadata <badref>, null, metadata !"SpuPacketType", i32 > >> > 102, > >> > i64 32, i64 32, i32 0, i32 0, null, metadata <badref>, i32 0, null, > >> > null, > >> > metadata !"_ZTS13SpuPacketType"} ; [ DW_TAG_enumeration_type ] > >> > [SpuPacketType] [line 102, size 32, align 32, offset 0] [def] [from ] > >> > > >> > There are two type nodes with the same identifier: > >> > !473 = metadata !{i32 786436, metadata !474, null, metadata > >> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, > metadata > >> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ > >> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align > 32, > >> > offset 0] [def] [from ] > >> > !6695 = metadata !{i32 786436, metadata !6696, null, metadata > >> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, > metadata > >> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ > >> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align > 32, > >> > offset 0] [def] [from ] > >> > > >> > The only difference between these two is the file node > >> > !474 = metadata !{metadata > >> > > >> > > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/SPUPacket.h", > >> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} > >> > !6696 = metadata !{metadata > >> > > >> > > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/../SPU/SPUPacket.h", > >> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} > >> > > >> > We have direct access to 473 via 580's type array. > >> > !580 = metadata !{i32 786453, i32 0, null, metadata !"", i32 0, i64 0, > >> > i64 > >> > 0, i64 0, i32 0, null, metadata !581, i32 0, null, null, null} ; [ > >> > DW_TAG_subroutine_type ] [line 0, size 0, align 0, offset 0] [from ] > >> > !581 = metadata !{metadata !124, metadata !575, metadata !473, > metadata > >> > !582, metadata !212, metadata !128, metadata !584} > >> > > >> > MDNode 473 will be resolved to MDNode 6695 and the assertion > "assert(Ty > >> > => >> > resolve(Ty.getRef()))" will fire. > >> > > >> > ------------------------------------------------- > >> > To fix the problem, we need to remove the direct access to MDNode 473 > by > >> > replacing MDNode 581 from > >> > metadata !{metadata !124, metadata !575, metadata !473, metadata !582, > >> > metadata !212, metadata !128, metadata !584} > >> > to > >> > metadata !{metadata !124, metadata !575, metadata > >> > !"_ZTS13SpuPacketType", > >> > metadata !582, metadata !212, metadata !128, metadata !584} > >> > > >> > And treat the field {metadata !"_ZTS13SpuPacketType"} as DITypeRef. > >> > > >> > ------------------------------------------------- > >> > If we have DIDescriptorRef and all elements currently inside DIArray > are > >> > DIDescirptors, we can make DIArray an array of DIDescriptorRef. > >> > I don't think it is a good idea to add DIDescriptorRef (it makes our > >> > types > >> > loose) and am not sure about the 2nd condition. > >> > > >> > So I proposed to add DITypeArray (or DITypedArray<DITypeRef> as David > >> > suggested, where all elements are DITypeRef), > >> > DICompositeType::getTypeArray() will return DITypeArray and > >> > DITypeArray::getElement(unsigned) will return DITypeRef. > >> > > >> > This is actually more complicated than I thought, not all > >> > DICompositeType's > >> > getTypeArray() can return an array of DITypeRefs. For example, > >> > getTypeArray() of ArrayType and VectorType can not return an array of > >> > DITypeRefs. > >> > >> Why can't they? > > > > > > For ArrayType, we create it like this: > > SmallVector<llvm::Value *, 8> Subscripts; > > ... > > Subscripts.push_back(DBuilder.getOrCreateSubrange(0, Count)); > > ... > > llvm::DIArray SubscriptArray = DBuilder.getOrCreateArray(Subscripts); > > > > The elements of getTypeArray() are DISubranges, even though the function > is > > called getTypeArray :) > > Yeah, that seems pretty bogus. They could use a separate type with its > own array handling, perhaps. > > > > >> > >> > >> > We can fix that by extending DICompositeType to DISubroutineType and > >> > only > >> > DISubroutineType::getTypeArray() will return DITypeArray. > > Should it be a composite type at all? (I haven't looked/thought about > this much, but figure it's worth asking - since DISubroutineType would > still be a DICompositeType and DICompositeType's getTypeArray would > still return bogus data, if we did that inheritance - but it's not the > worst thing we've got, just still not very nice) >CompositeTypes have TypeArray, RunTimeLang, ContainingType and TemplateParams, if SubroutineType uses these, extending from CompositeType may be better. I agree that it is weird to have both DICompositeType::getTypeArray() returning DIArray and DISubroutineType::getTypeArray() returning DITypeArray. Maybe change DICompositeType::getTypeArray() to DICompositeType::getArray()? If you have a strong preference, let me know, Thanks, Manman> >> > Even for SubroutineType, elements of the type array can be unspecified > >> > parameters which can't be DITypeRefs. > >> > >> Again - I'm just missing why this is the case. DITypeRefs can be > >> direct references to types (such as file-internal C++ user defined > >> types) so there's always a safe fallback, isn't there? > > > > > > If a SubroutineType's getTypeArray() contains unspecified parameter > (which > > is a DIDescriptor, not a DIType), we can't say > > DISubroutineType::getTypeArray() will return DITypeArray, > > since we assume DITypeArray (or DITypedArray<DITypeRef>) have all > elements > > being DITypeRefs. > > Yeah, I agree with you there - we should just build unspecified > parameters as some trivial DIType, most likely. > > Thanks for all the work/explanations, > > - David > > > > > Thanks, > > Manman > >> > >> > >> > That is why I was thinking about > >> > making unspecified parameters trivial DITypes. > >> > > >> > Thanks a lot, > >> > Manman > >> > > >> >> > >> >> > >> >> 2) If we're going to fix DIArray apparent type safety (it's not safe > - > >> >> just convenient), perhaps we could just template it? (to avoid churn, > >> >> we could leave DIArray as a typedef of DITypedArray<DIDescriptor> for > >> >> example, and then have DITypedArray<DITypeRef> which is your > >> >> DITypeArray (again, provided via typedef)). It's so small though, > that > >> >> I'm not too fussed if we write it out again as you've proposed. > >> >> > >> >> - David > >> >> > >> >> > > >> >> > Thanks, > >> >> > Manman > >> >> > > >> >> >> > >> >> >> What are your thoughts? Suggestions are welcome. > >> >> >> > >> >> >> Is it a good idea to canonicalize file names (i.e dA/B.h should be > >> >> >> equivalent to dA/../dA/B.h)? This will reduce the chance of having > >> >> >> two > >> >> >> DITypes that should be equivalent with equivalent file names. > >> >> >> > >> >> >> Thanks, > >> >> >> Manman > >> >> > > >> >> > > >> > > >> > > > > > >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20140721/cbdae8ea/attachment.html>
On Mon, Jul 21, 2014 at 4:55 PM, Manman Ren <manman.ren at gmail.com> wrote:> > > > On Mon, Jul 21, 2014 at 3:54 PM, David Blaikie <dblaikie at gmail.com> wrote: >> >> On Mon, Jul 21, 2014 at 3:48 PM, Manman Ren <manman.ren at gmail.com> wrote: >> > >> > >> > >> > On Mon, Jul 21, 2014 at 3:41 PM, David Blaikie <dblaikie at gmail.com> >> > wrote: >> >> >> >> On Mon, Jul 21, 2014 at 3:35 PM, Manman Ren <manman.ren at gmail.com> >> >> wrote: >> >> > >> >> > >> >> > >> >> > On Mon, Jul 21, 2014 at 1:14 PM, David Blaikie <dblaikie at gmail.com> >> >> > wrote: >> >> >> >> >> >> On Mon, Jul 21, 2014 at 10:39 AM, Manman Ren <manman.ren at gmail.com> >> >> >> wrote: >> >> >> > >> >> >> > >> >> >> > >> >> >> > On Mon, Jul 14, 2014 at 11:32 AM, Manman Ren >> >> >> > <manman.ren at gmail.com> >> >> >> > wrote: >> >> >> >> >> >> >> >> >> >> >> >> We still have access to types via MDNodes directly and the >> >> >> >> assertion >> >> >> >> that >> >> >> >> assumes all accesses to DITypes are accessing the resolved DIType >> >> >> >> will >> >> >> >> fire >> >> >> >> >> >> >> >> i.e assert(Ty == resolve(Ty.getRef())) >> >> >> >> >> >> >> >> One example is the access to DIType via DIArray in >> >> >> >> SubroutineType. >> >> >> >> If >> >> >> >> all >> >> >> >> elements in the type array are DITypes we can create a >> >> >> >> DITypeArray >> >> >> >> and >> >> >> >> use >> >> >> >> that for SubroutineType's type array instead. But we currently >> >> >> >> have >> >> >> >> unspecified parameter in the type array and it is not a DIType. >> >> >> > >> >> >> > >> >> >> > I am going to work on a patch that adds DITypeArray (each element >> >> >> > will >> >> >> > be >> >> >> > DITypeRef, SubroutineType's type array will be DITypeArray) and >> >> >> > adds >> >> >> > DITrivialType that extends from DIType (unspecified parameter will >> >> >> > be >> >> >> > DITrivialType). >> >> >> > If you have opinions against it, please let me know, >> >> >> >> >> >> We haven't bothered using typed arrays in DebugInfo yet (as you say, >> >> >> we just have DIArray) so I have two thoughts >> >> >> >> >> >> 1) why does this one case need fixing/changing? Is it because we >> >> >> have >> >> >> things that aren't DIDescriptors inside the DIArray? (the strings >> >> >> that >> >> >> refer to types). Given how loosely typed DIDescriptor is (it doesn't >> >> >> check that it's a valid DIDescriptor) I assume this doesn't actually >> >> >> cause a problem, though it's certainly not nice. So we could just >> >> >> leave it as-is, pass DIArray's element to "resolve" (it'd implicitly >> >> >> convert the DIDescriptor back to a raw MDNode*), then perhaps we'd >> >> >> need to make DITypeRef's ctor public so it could be used here. Not >> >> >> suggesting that's ideal, though. >> >> > >> >> > >> >> > I should have provided an example to help understanding the issue :) >> >> > >> >> > When processing the following type node, we throw an assertion >> >> > failure >> >> > assert(Ty == resolve(Ty.getRef())) >> >> > !{i32 786436, metadata <badref>, null, metadata !"SpuPacketType", i32 >> >> > 102, >> >> > i64 32, i64 32, i32 0, i32 0, null, metadata <badref>, i32 0, null, >> >> > null, >> >> > metadata !"_ZTS13SpuPacketType"} ; [ DW_TAG_enumeration_type ] >> >> > [SpuPacketType] [line 102, size 32, align 32, offset 0] [def] [from ] >> >> > >> >> > There are two type nodes with the same identifier: >> >> > !473 = metadata !{i32 786436, metadata !474, null, metadata >> >> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, >> >> > metadata >> >> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ >> >> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align >> >> > 32, >> >> > offset 0] [def] [from ] >> >> > !6695 = metadata !{i32 786436, metadata !6696, null, metadata >> >> > !"SpuPacketType", i32 102, i64 32, i64 32, i32 0, i32 0, null, >> >> > metadata >> >> > !475, i32 0, null, null, metadata !"_ZTS13SpuPacketType"} ; [ >> >> > DW_TAG_enumeration_type ] [SpuPacketType] [line 102, size 32, align >> >> > 32, >> >> > offset 0] [def] [from ] >> >> > >> >> > The only difference between these two is the file node >> >> > !474 = metadata !{metadata >> >> > >> >> > >> >> > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/SPUPacket.h", >> >> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} >> >> > !6696 = metadata !{metadata >> >> > >> >> > >> >> > !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71/SPU/../SPU/SPUPacket.h", >> >> > metadata !"/Users/manmanren/swb/rdar_17628609/AppleSPUFirmware-71"} >> >> > >> >> > We have direct access to 473 via 580's type array. >> >> > !580 = metadata !{i32 786453, i32 0, null, metadata !"", i32 0, i64 >> >> > 0, >> >> > i64 >> >> > 0, i64 0, i32 0, null, metadata !581, i32 0, null, null, null} ; [ >> >> > DW_TAG_subroutine_type ] [line 0, size 0, align 0, offset 0] [from ] >> >> > !581 = metadata !{metadata !124, metadata !575, metadata !473, >> >> > metadata >> >> > !582, metadata !212, metadata !128, metadata !584} >> >> > >> >> > MDNode 473 will be resolved to MDNode 6695 and the assertion >> >> > "assert(Ty >> >> > =>> >> > resolve(Ty.getRef()))" will fire. >> >> > >> >> > ------------------------------------------------- >> >> > To fix the problem, we need to remove the direct access to MDNode 473 >> >> > by >> >> > replacing MDNode 581 from >> >> > metadata !{metadata !124, metadata !575, metadata !473, metadata >> >> > !582, >> >> > metadata !212, metadata !128, metadata !584} >> >> > to >> >> > metadata !{metadata !124, metadata !575, metadata >> >> > !"_ZTS13SpuPacketType", >> >> > metadata !582, metadata !212, metadata !128, metadata !584} >> >> > >> >> > And treat the field {metadata !"_ZTS13SpuPacketType"} as DITypeRef. >> >> > >> >> > ------------------------------------------------- >> >> > If we have DIDescriptorRef and all elements currently inside DIArray >> >> > are >> >> > DIDescirptors, we can make DIArray an array of DIDescriptorRef. >> >> > I don't think it is a good idea to add DIDescriptorRef (it makes our >> >> > types >> >> > loose) and am not sure about the 2nd condition. >> >> > >> >> > So I proposed to add DITypeArray (or DITypedArray<DITypeRef> as David >> >> > suggested, where all elements are DITypeRef), >> >> > DICompositeType::getTypeArray() will return DITypeArray and >> >> > DITypeArray::getElement(unsigned) will return DITypeRef. >> >> > >> >> > This is actually more complicated than I thought, not all >> >> > DICompositeType's >> >> > getTypeArray() can return an array of DITypeRefs. For example, >> >> > getTypeArray() of ArrayType and VectorType can not return an array of >> >> > DITypeRefs. >> >> >> >> Why can't they? >> > >> > >> > For ArrayType, we create it like this: >> > SmallVector<llvm::Value *, 8> Subscripts; >> > ... >> > Subscripts.push_back(DBuilder.getOrCreateSubrange(0, Count)); >> > ... >> > llvm::DIArray SubscriptArray = DBuilder.getOrCreateArray(Subscripts); >> > >> > The elements of getTypeArray() are DISubranges, even though the function >> > is >> > called getTypeArray :) >> >> Yeah, that seems pretty bogus. They could use a separate type with its >> own array handling, perhaps. >> >> > >> >> >> >> >> >> > We can fix that by extending DICompositeType to DISubroutineType and >> >> > only >> >> > DISubroutineType::getTypeArray() will return DITypeArray. >> >> Should it be a composite type at all? (I haven't looked/thought about >> this much, but figure it's worth asking - since DISubroutineType would >> still be a DICompositeType and DICompositeType's getTypeArray would >> still return bogus data, if we did that inheritance - but it's not the >> worst thing we've got, just still not very nice) > > > CompositeTypes have TypeArray, RunTimeLang, ContainingType and > TemplateParams, if SubroutineType uses these, > extending from CompositeType may be better. > > I agree that it is weird to have both DICompositeType::getTypeArray() > returning DIArray and DISubroutineType::getTypeArray() returning > DITypeArray. > Maybe change DICompositeType::getTypeArray() to DICompositeType::getArray()?Yep - if, for most composites, this contains things other than types, it seems appropriate to call it something else. Maybe "getMembers" (getArray seems vague, though the array is repurposed for fairly disparate things in the various composite types, as you've mentioned... so maybe getArray is OK too).> If you have a strong preference, let me know,No terribly strong preferences, given the vagaries of the data structure. - David> > Thanks, > Manman > >> >> >> > Even for SubroutineType, elements of the type array can be >> >> > unspecified >> >> > parameters which can't be DITypeRefs. >> >> >> >> Again - I'm just missing why this is the case. DITypeRefs can be >> >> direct references to types (such as file-internal C++ user defined >> >> types) so there's always a safe fallback, isn't there? >> > >> > >> > If a SubroutineType's getTypeArray() contains unspecified parameter >> > (which >> > is a DIDescriptor, not a DIType), we can't say >> > DISubroutineType::getTypeArray() will return DITypeArray, >> > since we assume DITypeArray (or DITypedArray<DITypeRef>) have all >> > elements >> > being DITypeRefs. >> >> Yeah, I agree with you there - we should just build unspecified >> parameters as some trivial DIType, most likely. >> >> Thanks for all the work/explanations, >> >> - David >> >> > >> > Thanks, >> > Manman >> >> >> >> >> >> > That is why I was thinking about >> >> > making unspecified parameters trivial DITypes. >> >> > >> >> > Thanks a lot, >> >> > Manman >> >> > >> >> >> >> >> >> >> >> >> 2) If we're going to fix DIArray apparent type safety (it's not safe >> >> >> - >> >> >> just convenient), perhaps we could just template it? (to avoid >> >> >> churn, >> >> >> we could leave DIArray as a typedef of DITypedArray<DIDescriptor> >> >> >> for >> >> >> example, and then have DITypedArray<DITypeRef> which is your >> >> >> DITypeArray (again, provided via typedef)). It's so small though, >> >> >> that >> >> >> I'm not too fussed if we write it out again as you've proposed. >> >> >> >> >> >> - David >> >> >> >> >> >> > >> >> >> > Thanks, >> >> >> > Manman >> >> >> > >> >> >> >> >> >> >> >> What are your thoughts? Suggestions are welcome. >> >> >> >> >> >> >> >> Is it a good idea to canonicalize file names (i.e dA/B.h should >> >> >> >> be >> >> >> >> equivalent to dA/../dA/B.h)? This will reduce the chance of >> >> >> >> having >> >> >> >> two >> >> >> >> DITypes that should be equivalent with equivalent file names. >> >> >> >> >> >> >> >> Thanks, >> >> >> >> Manman >> >> >> > >> >> >> > >> >> > >> >> > >> > >> > > >