Alex L
2015-Apr-28 18:18 UTC
[LLVMdev] RFC: Machine Level IR text-based serialization format
2015-04-28 10:15 GMT-07:00 Hal Finkel <hfinkel at anl.gov>:> > ------------------------------ > > *From: *"Alex L" <arphaman at gmail.com> > *To: *"LLVM Developers Mailing List" <llvmdev at cs.uiuc.edu> > *Sent: *Tuesday, April 28, 2015 11:56:42 AM > *Subject: *[LLVMdev] RFC: Machine Level IR text-based serialization format > > > Hi all, > > > I would like to propose a text-based, human readable format that will be used to > > serialize the machine level IR. The major goal of this format is to allow LLVM > > to save the machine level IR after any code generation pass and then to load > > it again and continue running passes on the machine level IR. The primary use case > > of this format is to enable easier testing process for the code generation passes, > > by allowing the developers to write tests that load the IR, then invoke just a > > specific code gen pass and then inspect the output of that pass by checking the > > printed out IR. > > > > The proposed format has a number of key features: > > - It stores the machine level IR and the optional LLVM IR in one text file. > > - The connections between the machine level IR and the LLVM IR are preserved. > > - The format uses a YAML based container for most of the data structures. The LLVM > > IR is embedded in the YAML container. > > - The format also uses a new, text-based syntax to serialize the machine instructions. > > The instructions are embedded in YAML. > > > This is an incomplete example of a YAML file containing the LLVM IR, the machine level IR > > and the instructions: > > > --- > > ir: | > > define i32 @fact(i32 %n) { > > %1 = alloca i32, align 4 > > store i32 %n, i32* %1, align 4 > > %2 = load i32, i32* %1, align 4 > > %3 = icmp eq i32 %2, 0 > > br i1 %3, label %10, label %4 > > > ; <label>:4 ; preds = %0 > > %5 = load i32, i32* %1, align 4 > > %6 = sub nsw i32 %5, 1 > > %7 = call i32 @fact(i32 %6) > > %8 = load i32, i32* %1, align 4 > > %9 = mul nsw i32 %7, %8 > > br label %10 > > > ; <label>:10 ; preds = %0, %4 > > %11 = phi i32 [ %9, %4 ], [ 1, %0 ] > > ret i32 %11 > > } > > > ... > > --- > > number: 0 > > name: fact > > alignment: 4 > > regInfo: > > .... > > frameInfo: > > .... > > body: > > - bb: 0 > > llbb: '%0' > > successors: [ 'bb#2', 'bb#1' ] > > liveIns: [ '%edi' ] > > instructions: > > - 'push64r undef %rax, %rsp, %rsp' > > - 'mov32mr %rsp, 1, %noreg, 4, %noreg, %edi' > > > Hi Alex, > > I think this looks promising. What are the 1 an 4 above? How are you > proposing to serialize operand flags (dead, etc.)? > > -Hal >Hi Hal, The 1 and 4 above are constants that are specific to x86 memory addressing, I believe they basically compute the address RSP + 1 * 0 + 4. I haven't settled on a final version of the operand flags (for registers) syntax, but at the moment I'm thinking of something like this: - The IsDef flag is implied by the use of the register before the '=', unless it's implicit. - TiedTo and IsEarlyClobber aren't not serialized, as they are defined by the instruction description. (I believe that's true in all cases, but I'm not 100% sure). - IsUndef, IsImp, IsKill, IsDead, IsInternalRead, IsDebug - keywords like 'implicit', 'undef', 'kill', 'dead' are used before the register e.g. 'undef %rax', 'implicit-def kill %eflags'. I don't have a syntax for the SubReg_TargetFlags at the moment. Alex> > - .... > > .... > > - bb: 1 > > llbb: '%4' > > successors: [ 'bb#2' ] > > instructions: > > - '%edi = mov32rm %rsp, 1, %noreg, 4, %noreg' > > - .... > > .... > > - .... > > .... > > ... > > > The example above shows a YAML file with two YAML documents (delimited by `---` > > and `...`) containing the LLVM IR and the machine function information for the function `fact`. > > > > When a specific format is chosen, I'll start with patches that serialize the > > embedded LLVM IR. Then I'll add support for things like machine functions and > > machine basic blocks, and I think that an intrusive implementation will work best > > for data structures like these. After that I will continue adding support for > > serialization of the remaining data structures. > > > > Thanks for reading through the proposal. What are you thoughts about this format? > > > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > > > > > -- > Hal Finkel > Assistant Computational Scientist > Leadership Computing Facility > Argonne National Laboratory >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20150428/0ef63547/attachment.html>
Bevin Hansson
2015-Apr-28 21:08 UTC
[LLVMdev] RFC: Machine Level IR text-based serialization format
On 2015-04-28 20:18, Alex L wrote:> 2015-04-28 10:15 GMT-07:00 Hal Finkel <hfinkel at anl.gov>: > Hi Alex, > > I think this looks promising. What are the 1 an 4 above? How are you > proposing to serialize operand flags (dead, etc.)? > > -Hal > > > Hi Hal, > > The 1 and 4 above are constants that are specific to x86 memory > addressing, > I believe they basically compute the address RSP + 1 * 0 + 4. > I haven't settled on a final version of the operand flags (for > registers) > syntax, but at the moment I'm thinking of something like this: > - The IsDef flag is implied by the use of the register before the '=', > unless it's implicit. > - TiedTo and IsEarlyClobber aren't not serialized, as they are defined > by > the instruction description. (I believe that's true in all cases, but > I'm > not 100% sure). > - IsUndef, IsImp, IsKill, IsDead, IsInternalRead, IsDebug - keywords > like > 'implicit', 'undef', 'kill', 'dead' are used before the register e.g. > 'undef %rax', 'implicit-def kill %eflags'. > > I don't have a syntax for the SubReg_TargetFlags at the moment. >Since the instruction format is partially based on the machine dump format, you could use something similar to that, like '%reg:subreg'. On an tangential note, IIRC the machine dumps store the virtual register information (register class, mainly) in-band at the end of the instruction. Based on the format you described, I'm assuming this is what would be stored out-of-band in 'regInfo'. / Bevin
Matthias Braun
2015-Apr-28 23:26 UTC
[LLVMdev] RFC: Machine Level IR text-based serialization format
To get this out first: I'd love to have a way to serialize machine-IR! I often spend a lot of time trying to create .ll files in a way that the machine-IR still looks a certain way when it finally hits the relevant passes in codegen. It would be so much easier to just specify the machine IR immediately before the pass I'm interested in. For that use case it is worth keeping the following things in mind: - Please try to keep the output of the various dump functions, esp. MachineInstr::dump(), MachineOperand::dump(), MachineBasicBlock::dump() as close as possible to the format you use for serializing. It would be unnecessary confusing to have the dump()s while I debug different from what I can read in a textfile. Having said that you don't necessarily have to change your serialization format to be like the dump() functions, you may just as well adjust the dump() functions - just avoid them being different without reason. I can also imagine that the serialization shows a bit less information in cases where the information which is obvious in a serialization context but not when dump()ing a piece in isolation. - Design the format in a way that makes it easy for humans to create it. If the only way to produce these files reliably is by dumping existing machine-ir I will have a hard time designing minimal and easy to understand testcases. By that I mean mostly the possibility to leave out information that can be inferred or guessed, so the resulting test is compact and shows what it is about. Just looking at your example below there is a lot of information that is redundant or which could be filled in by sensible defaults: the function "number", the basic block number, predecessors and successors of a basic block, maybe allowing to leave out the llvm IR (though that probably is not allowed by CodeGen at the moment). - Matthias> On Apr 28, 2015, at 2:08 PM, Bevin Hansson <bevinh at sics.se> wrote: > > On 2015-04-28 20:18, Alex L wrote: >> 2015-04-28 10:15 GMT-07:00 Hal Finkel <hfinkel at anl.gov>: >> Hi Alex, >> I think this looks promising. What are the 1 an 4 above? How are you >> proposing to serialize operand flags (dead, etc.)? >> -Hal >> Hi Hal, >> The 1 and 4 above are constants that are specific to x86 memory addressing, >> I believe they basically compute the address RSP + 1 * 0 + 4. >> I haven't settled on a final version of the operand flags (for registers) >> syntax, but at the moment I'm thinking of something like this: >> - The IsDef flag is implied by the use of the register before the '=', >> unless it's implicit. >> - TiedTo and IsEarlyClobber aren't not serialized, as they are defined by >> the instruction description. (I believe that's true in all cases, but I'm >> not 100% sure). >> - IsUndef, IsImp, IsKill, IsDead, IsInternalRead, IsDebug - keywords like >> 'implicit', 'undef', 'kill', 'dead' are used before the register e.g. >> 'undef %rax', 'implicit-def kill %eflags'. >> I don't have a syntax for the SubReg_TargetFlags at the moment. > > Since the instruction format is partially based on the machine dump format, > you could use something similar to that, like '%reg:subreg'. > > On an tangential note, IIRC the machine dumps store the virtual register > information (register class, mainly) in-band at the end of the instruction. > Based on the format you described, I'm assuming this is what would be stored > out-of-band in 'regInfo'. > > / Bevin > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
Maybe Matching Threads
- [LLVMdev] RFC: Machine Level IR text-based serialization format
- [LLVMdev] RFC: Machine Level IR text-based serialization format
- [LLVMdev] RFC: Machine Level IR text-based serialization format
- [LLVMdev] RFC: Machine Level IR text-based serialization format
- [LLVMdev] load instruction memory operands value null