Lang Hames
2012-Nov-08 01:31 UTC
[LLVMdev] problem trying to write an LLVM register-allocation pass
Hi Susan, In x86-64 the REX prefix must be used to access an extended register (r8-r15 and their aliases), but cannot be used when accessing the high byte of the ABCD regs (AH, BH, CH, DH). In your test case you have hardcoded %vreg1 to R8B, and %vreg15 to AH, and the test case contains a copy between these registers. The copy simultaneously must have a REX prefix, and cannot have a REX prefix, hence the assertion. The problem is that not all registers in a class are allocable for all vregs. As you can see from the above constraint, which pregs are valid varies dynamically depending on the context that the register is used. The trick is to query the "allocation order" for a class (and as an added headache filter out any reserved registers). I've attached a test-case where I do this somewhat manually. In short: int regClass = MRI->getRegClass(vreg)->getID(); const TargetRegisterClass *trc = TRI->getRegClass(regClass); ArrayRef<uint16_t> rawOrder = trc->getRawAllocationOrder(Fn); ArrayRef<uint16_t>::iterator rItr = rawOrder.begin(); while (reservedRegs.test(*rItr)) ++rItr; preg = *rItr; Alternatively, you could use the AllocationOrder class (lib/CodeGen/AllocationOrder.h). This has the benefit of considering register hints for improved coalescing too. It does, however, require you to use VirtRegMap. Hope this helps! Cheers, Lang. On Wed, Nov 7, 2012 at 2:56 PM, Lang Hames <lhames at gmail.com> wrote:> Hi Susan, > > Sorry for the delayed response. Thanks for the test cases - I'm looking in > to this now. > > - Lang. > > > On Mon, Nov 5, 2012 at 2:58 PM, Susan Horwitz <horwitz at cs.wisc.edu> wrote: > >> Hi Lang, >> >> I looked more into one of the problems I'm now having, and I've attached >> 3 files: >> >> Gcra.cpp is like your version except that for two specific vregs it uses >> hard-coded pregs instead of the first in the corresponding class. >> >> bug1.c is an input that causes the failed assertion for me. If I use the >> non-debug version of LLVM-3.1 I instead get assembler errors like this: >> Error: can't encode register '%ah' in an instruction requiring >> REX prefix. >> >> bug1.bc is my bitcode version of bug1.c. >> >> The problematic vregs are both in register class 0. One is replaced with >> preg 1 and the other with preg 74. Those are both in register class 0, and >> are not aliased. Any idea why using those pregs causes trouble? >> >> Thanks! >> >> Susan >> >> >> On 11/04/2012 06:19 PM, Lang Hames wrote: >> >>> Hi Susan, >>> >>> With your bitcode file I am now able to reproduce the issue you're >>> seeing. It looks like this is a problem with the naive rewriting from >>> virtregs to physregs. It appears that the subreg field of physreg >>> operands is ignored post-register allocation. In your testcase >>> %vreg11:sub32 is being rewritten to RBX:sub32, but the :sub32 part is >>> being quietly dropped when the assembly is written out. If this is >>> expected behaviour, and is still happening in the development branch, >>> then I'll add some sort of verification to catch it. >>> >>> The VirtRegMap::rewrite() method sidesteps this issue by rewriting >>> physreg operands to remove the subreg field. The code for this is in >>> VirtRegMap.cpp, around line 165. In short: >>> >>> PhysReg = MO.getReg(); >>> if (MO.getSubReg() != 0) { >>> PhysReg = TRI->getSubReg(PhysReg, MO.getSubReg()); >>> MO.setSubReg(0); >>> } >>> MO.setReg(PhysReg); >>> >>> Adding this code to Gcra fixes the assembly issue for me. I've attached >>> my updated copy. Hope this helps. >>> >>> Cheers, >>> Lang. >>> >>> >>> On Sun, Nov 4, 2012 at 2:08 PM, Susan Horwitz <horwitz at cs.wisc.edu >>> <mailto:horwitz at cs.wisc.edu>> wrote: >>> >>> My tst.bc is attached. I had to use ssh to copy it from my office >>> machine to my home laptop. In case that corrupts it, I also put a >>> copy here: >>> http://pages.cs.wisc.edu/~**horwitz/LANG/tst.bc<http://pages.cs.wisc.edu/~horwitz/LANG/tst.bc> >>> >>> I created the file like this: >>> >>> clang -emit-llvm -O0 -c tst.c -o tst.bc >>> opt -mem2reg tst.bc > tst.mem2reg >>> mv tst.mem2reg tst.bc >>> >>> >>> Susan >>> >>> >>> On 11/4/2012 3:27 PM, Lang Hames wrote: >>> >>>> Hi Susan, >>>> >>>> I tested the version of Gcra.cpp that I sent you on x86-64 systems >>>> running MacOS 10.8 and Ubuntu 12.04 (Linux 3.2.0). >>>> >>>> Could you send me the bitcode file you're compiling? Different >>>> bitcodes (due to different clang versions or applied >>>> optimizations) could account for the different results we're >>>> seeing. For reference I've attached the *.ll file that I have >>>> tested with, which was compiled from your tst.c file with: >>>> >>>> clang -O0 -emit-llvm -S -o tst.ll tst.c >>>> >>>> My clang version was built from a recent checkout from subversion. >>>> >>>> It's unlikely that there is any fundamental problem with the >>>> register allocation APIs or the code generator that would prevent >>>> you from building a working allocator. The APIs certainly could >>>> have changed in a way that would break existing allocators though. >>>> >>>> - Lang. >>>> >>>> >>>> On Sat, Nov 3, 2012 at 4:34 PM, Susan Horwitz <horwitz at cs.wisc.edu >>>> <mailto:horwitz at cs.wisc.edu>> wrote: >>>> >>>> Lang - >>>> >>>> Your version does NOT work for me (i.e., I still get an error >>>> from the assembler when I run your code on my tst.c) unless I >>>> force compilation and assembly for a 32-bit X86 machine: >>>> >>>> llc -march=x86 -regalloc=gc tst.bc >>>> gcc -m32 tst.s >>>> >>>> My machine is a 64-bit machine. Maybe you are working with a >>>> different architecture and that's why it worked for you? >>>> >>>> I would be happy if the above worked in general, but when I >>>> try other C code (with my "real" register allocator, not the >>>> naive one I sent you) I get assembly that includes >>>> >>>> %r8d >>>> >>>> which seems to be invalid for a 32-bit machine. Sigh. It >>>> looks to me like there's a problem with the LLVM-3.1 API for >>>> register allocation and/or the code-generation phase. What do >>>> you think? >>>> >>>> Susan >>>> >>>> >>>> On 11/1/2012 5:28 PM, Lang Hames wrote: >>>> >>>>> Hi Susan, >>>>> >>>>> Without debugging symbols I can't make much out of that stack >>>>> trace I'm afraid. >>>>> >>>>> I've attached my modified version of Gcra.cpp. I built llvm >>>>> 3.1 by dropping this file into lib/CodeGen, and adding >>>>> references to createGcra to include/lib/CodeGen/Passes.h and >>>>> include/lib/CodeGen/**LinkAllCodeGenComponents.h. (If you >>>>> search for createRegAllocPBQP you'll see where to add the >>>>> declarations). >>>>> >>>>> With that setup, running your allocator on the tst.c file you >>>>> attached previously yielded a sane assembly file. >>>>> >>>>> Cheers, >>>>> Lang. >>>>> >>>>> On Thu, Nov 1, 2012 at 3:13 PM, Susan Horwitz >>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu>> wrote: >>>>> >>>>> I still get a coredump: >>>>> >>>>> 0 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> 0x00007f0158a4e67f >>>>> 1 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> 0x00007f0158a500ca >>>>> 2 libpthread.so.0 0x0000003a86c0f500 >>>>> >>>>> 3 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> 0x00007f01583c346c >>>>> 4 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> 0x00007f0158546349 >>>>> llvm::FPPassManager::**runOnFunction(llvm::Function&) + >>>>> 521 >>>>> 5 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> >>>>> 0x00007f01585463e3 >>>>> llvm::FPPassManager::**runOnModule(llvm::Module&) + 51 >>>>> 6 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> >>>>> 0x00007f0158545fae >>>>> llvm::MPPassManager::**runOnModule(llvm::Module&) + 462 >>>>> 7 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>> >>>>> 0x00007f01585460bd >>>>> llvm::PassManagerImpl::run(**llvm::Module&) + 125 >>>>> 8 llc 0x000000000040b012 main + 5218 >>>>> 9 libc.so.6 0x0000003a8601ecdd __libc_start_main + >>>>> 253 >>>>> 10 llc 0x0000000000407d79 >>>>> Stack dump: >>>>> 0. Program arguments: llc -load Debug/lib/P4.so >>>>> -regalloc=gc tst.bc >>>>> 1. Running pass 'Function Pass Manager' on module >>>>> 'tst.bc'. >>>>> 2. Running pass 'Machine Loop Invariant Code Motion' >>>>> on function '@main' >>>>> make: *** [tst.reg] Segmentation fault (core dumped) >>>>> >>>>> >>>>> >>>>> On 11/01/2012 04:59 PM, Lang Hames wrote: >>>>> >>>>> Hi Susan, >>>>> >>>>> Sorry - I had missed that you're using llvm-3.1, >>>>> rather than the >>>>> development branch. We encourage people to live on >>>>> top-of-tree - it's >>>>> well tested, easier for active developers to offer >>>>> help with, and >>>>> keeping up with incremental changes is often easier >>>>> than porting between >>>>> stable versions. >>>>> >>>>> It also sounds like you were building a Release >>>>> version of LLVM. That >>>>> will not have any asserts enabled (though it will >>>>> have some other >>>>> diagnostics). You will probably want to work with a >>>>> Debug+Asserts >>>>> version (<src>/configure --disable-optimized >>>>> --enable-assertions) while >>>>> you're developing your allocator and watch for any >>>>> asserts that trigger. >>>>> >>>>> In your case the Assertion that is triggering in PEI >>>>> indicates that the >>>>> MachineRegisterInfo object still contained some >>>>> virtregs post >>>>> register-allocation. You need to call >>>>> MRI->clearVirtRegs() at the end of >>>>> your allocator. >>>>> >>>>> Hope this helps! >>>>> >>>>> Cheers, >>>>> Lang. >>>>> >>>>> On Thu, Nov 1, 2012 at 2:41 PM, Susan Horwitz >>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu>>> wrote: >>>>> >>>>> Hi again Lang, >>>>> >>>>> I decided to try the approach you proposed to see >>>>> whether it makes >>>>> the assembly-code problem go away. Again, I >>>>> tried a very simple >>>>> register allocator (attached) that just calls >>>>> vrm.assignVirt2Phys >>>>> for every vreg in each function, mapping the vreg >>>>> to the first preg >>>>> in the register class. I tried two versions: one >>>>> maps *every* vreg, >>>>> and the other only maps those for which >>>>> MRI->reg_empty(vreg) returns >>>>> false. In both cases I get a core dump somewhere >>>>> after my >>>>> reg-allocation pass has run (when I use the >>>>> "tst.c" file that I sent >>>>> last time as input). >>>>> >>>>> Note also that there is no VirtRegMap.h in the >>>>> "include" directory >>>>> of my installed llvm-3.1. I had to copy that >>>>> file from the source >>>>> directory. That seems suspicious. >>>>> >>>>> Any thoughts? >>>>> >>>>> Thanks! >>>>> >>>>> Susan >>>>> >>>>> >>>>> On 10/31/2012 07:51 PM, Lang Hames wrote: >>>>> >>>>> Hi Susan, >>>>> >>>>> I'm having trouble reproducing that error on >>>>> my end, but I think the >>>>> problem is probably that you're not using the >>>>> VirtRegRewriter >>>>> infrastructure. What your allocator needs to >>>>> do is populate the >>>>> virtual >>>>> register mapping (VirtRegMap pass) with your >>>>> allocation, rather than >>>>> rewriting the registers directly through >>>>> MachineRegisterInfo. >>>>> >>>>> Have your allocator require and preserve the >>>>> VirtRegMap pass, >>>>> then in >>>>> your runOnMachineFunction pass grab a >>>>> reference to the pass with: >>>>> >>>>> VirtRegMap &vrm = getAnalysis<VirtRegMap>(); >>>>> >>>>> You can then describe your register >>>>> allocations with: >>>>> >>>>> vrm.assignVirt2Phys(<virtreg>, <physreg>) >>>>> >>>>> The VirtRegRewriter pass (in VirtRegMap.cpp) >>>>> will run after your >>>>> allocator and apply the mapping that you >>>>> described in the >>>>> VirtRegMap. >>>>> >>>>> I hope this helps. Let me know if it doesn't >>>>> fix your issue. >>>>> >>>>> Cheers, >>>>> Lang. >>>>> >>>>> On Wed, Oct 31, 2012 at 3:54 PM, Susan Horwitz >>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu <mailto: >>>>> horwitz at cs.wisc.edu>> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu>>>**> wrote: >>>>> >>>>> Thanks Lang! >>>>> >>>>> Here's another question: I'm trying to >>>>> process this input: >>>>> >>>>> int main() { >>>>> return 0; >>>>> } >>>>> >>>>> but I'm getting an error >>>>> Assertion `!Fn.getRegInfo(). >>>>> getNumVirtRegs() && >>>>> "Regalloc must >>>>> >>>>> assign all vregs"' failed. >>>>> >>>>> At the start of runOnMachineFunction I >>>>> call Fn.getRegInfo(). >>>>> getNumVirtRegs(); >>>>> and find that there is 1 virtual >>>>> register. However, >>>>> MRI->reg_empty(vreg) >>>>> tells me that it is not used or defined. >>>>> So my >>>>> register-allocation >>>>> code never sees it, and thus can't >>>>> allocate a preg for it. >>>>> I tried >>>>> using MRI->replaceRegWith(vreg, preg); >>>>> (where preg is available to vreg's >>>>> register class) but that >>>>> didn't >>>>> work. When I look, the number of vregs >>>>> in the function is >>>>> still 1. >>>>> >>>>> Can you help with this? >>>>> >>>>> Thanks again! >>>>> >>>>> Susan >>>>> >>>>> >>>>> On 10/31/2012 04:55 PM, Lang Hames wrote: >>>>> >>>>> Hi Susan, >>>>> >>>>> The meaning of "addRequired(X)" is >>>>> that your pass needs >>>>> X to be >>>>> run, and >>>>> for X to be preserved by all passes >>>>> that run after X >>>>> and before your >>>>> pass. The PHIElemination and >>>>> TwoAddressInstruction >>>>> passes do not >>>>> preserve each other, hence there's >>>>> no way for the pass >>>>> manager to >>>>> schedule them for you if you >>>>> addRequire(...) them. >>>>> >>>>> The trick is that CodeGen will >>>>> schedule both of these >>>>> passes to >>>>> be run >>>>> before _any_ register allocation >>>>> pass (see Passes.cpp), >>>>> so you >>>>> needn't >>>>> require them explicitly - you can >>>>> just assume they have >>>>> been >>>>> run. If you >>>>> just remove those lines from your >>>>> getAnalysisUsage >>>>> method your pass >>>>> should now run as you expect. >>>>> >>>>> Cheers, >>>>> Lang. >>>>> >>>>> On Wed, Oct 31, 2012 at 1:46 PM, >>>>> Susan Horwitz >>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu <mailto: >>>>> horwitz at cs.wisc.edu>> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu>>> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu <mailto: >>>>> horwitz at cs.wisc.edu>> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu> >>>>> <mailto:horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu>>>**>> wrote: >>>>> >>>>> I'm trying to write a >>>>> MachineFunctionPass to do >>>>> register >>>>> allocation. >>>>> I have code that worked with >>>>> an old version of >>>>> LLVM. It >>>>> does not >>>>> work with llvm-3.1. (or various >>>>> other versions >>>>> that I've >>>>> tried). >>>>> >>>>> The first problem is that >>>>> including this line: >>>>> >>>>> AU.addRequiredID(__ >>>>> TwoAddressInstructionPassID); >>>>> >>>>> >>>>> in method getAnalysisUsage >>>>> causes a runtime error: >>>>> >>>>> Unable to schedule 'Eliminate >>>>> PHI nodes for register >>>>> allocation' >>>>> required by 'Unnamed pass: >>>>> implement >>>>> Pass::getPassName()' >>>>> Unable to schedule pass >>>>> UNREACHABLE executed at ... >>>>> >>>>> I'm invoking the pass like this >>>>> (given input file >>>>> foo.c): >>>>> >>>>> clang -emit-llvm -O0 -c foo.c >>>>> -o foo.bc >>>>> opt -mem2reg foo.bc > foo.ssa >>>>> mv foo.ssa foo.bc >>>>> llc -load Debug/lib/P4.so >>>>> -regalloc=gc foo.bc >>>>> >>>>> >>>>> I've attached my entire file >>>>> (it's very short). >>>>> Any help >>>>> would be >>>>> much appreciated! >>>>> >>>>> Susan Horwitz >>>>> >>>>> ______________________________ >>>>> _________________ >>>>> LLVM Developers mailing list >>>>> LLVMdev at cs.uiuc.edu <mailto:LLVMdev at cs.uiuc.edu> >>>>> <mailto:LLVMdev at cs.uiuc.edu <mailto: >>>>> LLVMdev at cs.uiuc.edu>> >>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>> <mailto:LLVMdev at cs.uiuc.edu> >>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>> <mailto:LLVMdev at cs.uiuc.edu>>> >>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>> <mailto:LLVMdev at cs.uiuc.edu> >>>>> <mailto:LLVMdev at cs.uiuc.edu <mailto: >>>>> LLVMdev at cs.uiuc.edu>> >>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>> <mailto:LLVMdev at cs.uiuc.edu> >>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>> <mailto:LLVMdev at cs.uiuc.edu>>>**> >>>>> >>>>> http://llvm.cs.uiuc.edu >>>>> http://lists.cs.uiuc.edu/ mailman/listinfo/llvmdev >>>>> <http://lists.cs.uiuc.edu/__**mailman/listinfo/llvmdev<http://lists.cs.uiuc.edu/__mailman/listinfo/llvmdev> >>>>> <http://lists.cs.uiuc.edu/**mailman/listinfo/llvmdev<http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev> >>>>> >> >>>>> >>>>> >>>>> >>>>> >>>>> >>>>> >>>>> >>>>> >>>>> >>>> >>>> >>> >>> >> >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20121107/0d1b105c/attachment.html> -------------- next part -------------- A non-text attachment was scrubbed... Name: Gcra.cpp Type: text/x-c++src Size: 6894 bytes Desc: not available URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20121107/0d1b105c/attachment.cpp>
Susan Horwitz
2012-Nov-09 19:15 UTC
[LLVMdev] problem trying to write an LLVM register-allocation pass
Thanks Lang, we are making progress! I no longer get the failed assertion, but the code I'm using for vregs that don't get allocated a preg, and thus need to be spilled and re-loaded is causing assembler errors. I suspect the problem is my code for allocating space in the stack, but I don't know how to fix it. I've attached a new version of the simple register-allocation code, a test program that causes the bad assembler to be produced, and the bc file. (I had to name everything with a .txt extension to copy the files to my laptop.) As always, thank you for your help! Susan On 11/7/2012 7:31 PM, Lang Hames wrote:> Hi Susan, > > In x86-64 the REX prefix must be used to access an extended register > (r8-r15 and their aliases), but cannot be used when accessing the high > byte of the ABCD regs (AH, BH, CH, DH). In your test case you have > hardcoded %vreg1 to R8B, and %vreg15 to AH, and the test case contains > a copy between these registers. The copy simultaneously must have a > REX prefix, and cannot have a REX prefix, hence the assertion. > > The problem is that not all registers in a class are allocable for all > vregs. As you can see from the above constraint, which pregs are valid > varies dynamically depending on the context that the register is used. > The trick is to query the "allocation order" for a class (and as an > added headache filter out any reserved registers). I've attached a > test-case where I do this somewhat manually. In short: > > int regClass = MRI->getRegClass(vreg)->getID(); > const TargetRegisterClass *trc = TRI->getRegClass(regClass); > ArrayRef<uint16_t> rawOrder = trc->getRawAllocationOrder(Fn); > ArrayRef<uint16_t>::iterator rItr = rawOrder.begin(); > while (reservedRegs.test(*rItr)) > ++rItr; > preg = *rItr; > > Alternatively, you could use the AllocationOrder class > (lib/CodeGen/AllocationOrder.h). This has the benefit of considering > register hints for improved coalescing too. It does, however, require > you to use VirtRegMap. > > Hope this helps! > > Cheers, > Lang. > > > > On Wed, Nov 7, 2012 at 2:56 PM, Lang Hames <lhames at gmail.com > <mailto:lhames at gmail.com>> wrote: > > Hi Susan, > > Sorry for the delayed response. Thanks for the test cases - I'm > looking in to this now. > > - Lang. > > > On Mon, Nov 5, 2012 at 2:58 PM, Susan Horwitz <horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> wrote: > > Hi Lang, > > I looked more into one of the problems I'm now having, and > I've attached 3 files: > > Gcra.cpp is like your version except that for two specific > vregs it uses hard-coded pregs instead of the first in the > corresponding class. > > bug1.c is an input that causes the failed assertion for me. > If I use the non-debug version of LLVM-3.1 I instead get > assembler errors like this: > Error: can't encode register '%ah' in an instruction > requiring REX prefix. > > bug1.bc is my bitcode version of bug1.c. > > The problematic vregs are both in register class 0. One is > replaced with preg 1 and the other with preg 74. Those are > both in register class 0, and are not aliased. Any idea why > using those pregs causes trouble? > > Thanks! > > Susan > > > On 11/04/2012 06:19 PM, Lang Hames wrote: > > Hi Susan, > > With your bitcode file I am now able to reproduce the > issue you're > seeing. It looks like this is a problem with the naive > rewriting from > virtregs to physregs. It appears that the subreg field of > physreg > operands is ignored post-register allocation. In your testcase > %vreg11:sub32 is being rewritten to RBX:sub32, but the > :sub32 part is > being quietly dropped when the assembly is written out. If > this is > expected behaviour, and is still happening in the > development branch, > then I'll add some sort of verification to catch it. > > The VirtRegMap::rewrite() method sidesteps this issue by > rewriting > physreg operands to remove the subreg field. The code for > this is in > VirtRegMap.cpp, around line 165. In short: > > PhysReg = MO.getReg(); > if (MO.getSubReg() != 0) { > PhysReg = TRI->getSubReg(PhysReg, MO.getSubReg()); > MO.setSubReg(0); > } > MO.setReg(PhysReg); > > Adding this code to Gcra fixes the assembly issue for me. > I've attached > my updated copy. Hope this helps. > > Cheers, > Lang. > > > On Sun, Nov 4, 2012 at 2:08 PM, Susan Horwitz > <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu>>> > wrote: > > My tst.bc is attached. I had to use ssh to copy it > from my office > machine to my home laptop. In case that corrupts it, > I also put a > copy here: > http://pages.cs.wisc.edu/~horwitz/LANG/tst.bc > <http://pages.cs.wisc.edu/%7Ehorwitz/LANG/tst.bc> > > I created the file like this: > > clang -emit-llvm -O0 -c tst.c -o tst.bc > opt -mem2reg tst.bc > tst.mem2reg > mv tst.mem2reg tst.bc > > > Susan > > > On 11/4/2012 3:27 PM, Lang Hames wrote: > > Hi Susan, > > I tested the version of Gcra.cpp that I sent you > on x86-64 systems > running MacOS 10.8 and Ubuntu 12.04 (Linux 3.2.0). > > Could you send me the bitcode file you're > compiling? Different > bitcodes (due to different clang versions or applied > optimizations) could account for the different > results we're > seeing. For reference I've attached the *.ll file > that I have > tested with, which was compiled from your tst.c > file with: > > clang -O0 -emit-llvm -S -o tst.ll tst.c > > My clang version was built from a recent checkout > from subversion. > > It's unlikely that there is any fundamental > problem with the > register allocation APIs or the code generator > that would prevent > you from building a working allocator. The APIs > certainly could > have changed in a way that would break existing > allocators though. > > - Lang. > > > On Sat, Nov 3, 2012 at 4:34 PM, Susan Horwitz > <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>> wrote: > > Lang - > > Your version does NOT work for me (i.e., I > still get an error > from the assembler when I run your code on my > tst.c) unless I > force compilation and assembly for a 32-bit > X86 machine: > > llc -march=x86 -regalloc=gc tst.bc > gcc -m32 tst.s > > My machine is a 64-bit machine. Maybe you are > working with a > different architecture and that's why it > worked for you? > > I would be happy if the above worked in > general, but when I > try other C code (with my "real" register > allocator, not the > naive one I sent you) I get assembly that includes > > %r8d > > which seems to be invalid for a 32-bit > machine. Sigh. It > looks to me like there's a problem with the > LLVM-3.1 API for > register allocation and/or the code-generation > phase. What do > you think? > > Susan > > > On 11/1/2012 5:28 PM, Lang Hames wrote: > > Hi Susan, > > Without debugging symbols I can't make > much out of that stack > trace I'm afraid. > > I've attached my modified version of > Gcra.cpp. I built llvm > 3.1 by dropping this file into > lib/CodeGen, and adding > references to createGcra to > include/lib/CodeGen/Passes.h and > > include/lib/CodeGen/LinkAllCodeGenComponents.h. > (If you > search for createRegAllocPBQP you'll see > where to add the > declarations). > > With that setup, running your allocator on > the tst.c file you > attached previously yielded a sane > assembly file. > > Cheers, > Lang. > > On Thu, Nov 1, 2012 at 3:13 PM, Susan Horwitz > <horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>> wrote: > > I still get a coredump: > > 0 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > 0x00007f0158a4e67f > 1 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > 0x00007f0158a500ca > 2 libpthread.so.0 0x0000003a86c0f500 > > 3 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > 0x00007f01583c346c > 4 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > 0x00007f0158546349 > > llvm::FPPassManager::runOnFunction(llvm::Function&) + > 521 > 5 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > > 0x00007f01585463e3 > > llvm::FPPassManager::runOnModule(llvm::Module&) + 51 > 6 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > > 0x00007f0158545fae > > llvm::MPPassManager::runOnModule(llvm::Module&) + 462 > 7 libLLVM-3.1.so > <http://libLLVM-3.1.so> <http://libLLVM-3.1.so> > > 0x00007f01585460bd > > llvm::PassManagerImpl::run(llvm::Module&) + 125 > 8 llc 0x000000000040b012 main + 5218 > 9 libc.so.6 0x0000003a8601ecdd > __libc_start_main + 253 > 10 llc 0x0000000000407d79 > Stack dump: > 0. Program arguments: llc -load > Debug/lib/P4.so > -regalloc=gc tst.bc > 1. Running pass 'Function Pass > Manager' on module > 'tst.bc'. > 2. Running pass 'Machine Loop > Invariant Code Motion' > on function '@main' > make: *** [tst.reg] Segmentation fault > (core dumped) > > > > On 11/01/2012 04:59 PM, Lang Hames wrote: > > Hi Susan, > > Sorry - I had missed that you're > using llvm-3.1, > rather than the > development branch. We encourage > people to live on > top-of-tree - it's > well tested, easier for active > developers to offer > help with, and > keeping up with incremental > changes is often easier > than porting between > stable versions. > > It also sounds like you were > building a Release > version of LLVM. That > will not have any asserts enabled > (though it will > have some other > diagnostics). You will probably > want to work with a > Debug+Asserts > version (<src>/configure > --disable-optimized > --enable-assertions) while > you're developing your allocator > and watch for any > asserts that trigger. > > In your case the Assertion that is > triggering in PEI > indicates that the > MachineRegisterInfo object still > contained some > virtregs post > register-allocation. You need to call > MRI->clearVirtRegs() at the end of > your allocator. > > Hope this helps! > > Cheers, > Lang. > > On Thu, Nov 1, 2012 at 2:41 PM, > Susan Horwitz > <horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>>> wrote: > > Hi again Lang, > > I decided to try the approach > you proposed to see > whether it makes > the assembly-code problem go > away. Again, I > tried a very simple > register allocator (attached) > that just calls > vrm.assignVirt2Phys > for every vreg in each > function, mapping the vreg > to the first preg > in the register class. I > tried two versions: one > maps *every* vreg, > and the other only maps those > for which > MRI->reg_empty(vreg) returns > false. In both cases I get a > core dump somewhere > after my > reg-allocation pass has run > (when I use the > "tst.c" file that I sent > last time as input). > > Note also that there is no > VirtRegMap.h in the > "include" directory > of my installed llvm-3.1. I > had to copy that > file from the source > directory. That seems suspicious. > > Any thoughts? > > Thanks! > > Susan > > > On 10/31/2012 07:51 PM, Lang > Hames wrote: > > Hi Susan, > > I'm having trouble > reproducing that error on > my end, but I think the > problem is probably that > you're not using the > VirtRegRewriter > infrastructure. What your > allocator needs to > do is populate the > virtual > register mapping > (VirtRegMap pass) with your > allocation, rather than > rewriting the registers > directly through > MachineRegisterInfo. > > Have your allocator > require and preserve the > VirtRegMap pass, > then in > your runOnMachineFunction > pass grab a > reference to the pass with: > > VirtRegMap &vrm > getAnalysis<VirtRegMap>(); > > You can then describe your > register > allocations with: > > vrm.assignVirt2Phys(<virtreg>, <physreg>) > > The VirtRegRewriter pass > (in VirtRegMap.cpp) > will run after your > allocator and apply the > mapping that you > described in the > VirtRegMap. > > I hope this helps. Let me > know if it doesn't > fix your issue. > > Cheers, > Lang. > > On Wed, Oct 31, 2012 at > 3:54 PM, Susan Horwitz > <horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>>>> wrote: > > Thanks Lang! > > Here's another > question: I'm trying to > process this input: > > int main() { > return 0; > } > > but I'm getting an error > Assertion > `!Fn.getRegInfo(). > getNumVirtRegs() && > "Regalloc must > > assign all vregs"' > failed. > > At the start of > runOnMachineFunction I > call Fn.getRegInfo(). > getNumVirtRegs(); > and find that there > is 1 virtual > register. However, > MRI->reg_empty(vreg) > tells me that it is > not used or defined. > So my > register-allocation > code never sees it, > and thus can't > allocate a preg for it. > I tried > using > MRI->replaceRegWith(vreg, preg); > (where preg is > available to vreg's > register class) but that > didn't > work. When I look, > the number of vregs > in the function is > still 1. > > Can you help with this? > > Thanks again! > > Susan > > > On 10/31/2012 04:55 > PM, Lang Hames wrote: > > Hi Susan, > > The meaning of > "addRequired(X)" is > that your pass needs > X to be > run, and > for X to be > preserved by all passes > that run after X > and before your > pass. The > PHIElemination and > TwoAddressInstruction > passes do not > preserve each other, hence there's > no way for the pass > manager to > schedule them for you if you > addRequire(...) them. > > The trick is that > CodeGen will > schedule both of these > passes to > be run > before _any_ > register allocation > pass (see Passes.cpp), > so you > needn't > require them > explicitly - you can > just assume they have > been > run. If you > just remove those > lines from your > getAnalysisUsage > method your pass > should now run as > you expect. > > Cheers, > Lang. > > On Wed, Oct 31, > 2012 at 1:46 PM, > Susan Horwitz > <horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu> > <mailto:horwitz at cs.wisc.edu > <mailto:horwitz at cs.wisc.edu>>>>>> wrote: > > I'm trying to write a > MachineFunctionPass to do > register > allocation. > I have code that worked with > an old version of > LLVM. It > does not > work with llvm-3.1. (or various > other versions > that I've > tried). > > The first problem is that > including this line: > > AU.addRequiredID(__ > TwoAddressInstructionPassID); > > > in method > getAnalysisUsage > causes a runtime error: > > Unable to schedule 'Eliminate > PHI nodes for register > allocation' > required by 'Unnamed pass: > implement > Pass::getPassName()' > Unable to schedule pass > UNREACHABLE executed at ... > > I'm invoking the pass like this > (given input file > foo.c): > > clang -emit-llvm -O0 -c foo.c > -o foo.bc > opt -mem2reg foo.bc > foo.ssa > mv foo.ssa > foo.bc > llc -load Debug/lib/P4.so > -regalloc=gc foo.bc > > > I've attached my entire file > (it's very short). > Any help > would be > much appreciated! > > Susan Horwitz > > ______________________________ > _________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>>>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu> > <mailto:LLVMdev at cs.uiuc.edu > <mailto:LLVMdev at cs.uiuc.edu>>>>> > > http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/ mailman/listinfo/llvmdev > > <http://lists.cs.uiuc.edu/__mailman/listinfo/llvmdev > > <http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev>> > > > > > > > > > > > > > > >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20121109/898417a3/attachment.html> -------------- next part -------------- //===-- Gcra.cpp - Graph-coloring Register Allocator --------------------===////// The LLVM Compiler Infrastructure//// This file is distributed under the University of Illinois Open Source// License. See LICENSE.TXT for details.////===--------------------------------------------------------------------===////// This file does Graph-coloring Register Allocation, for CS 701 Project 4.////===--------------------------------------------------------------------===//#define DEBUG_TYPE "gcra"#include <map>#include "llvm/CodeGen/Passes.h"#include "llvm/CodeGen/MachineFunctionPass.h"#include "llvm/CodeGen/MachineInstr.h"#include "llvm/CodeGen/MachineLoopInfo.h"#include "llvm/CodeGen/MachineFrameInfo.h"#include "llvm/CodeGen/MachineRegisterInfo.h"#include "llvm/CodeGen/RegAllocRegistry.h"#include "llvm/Target/TargetInstrInfo.h"#include "llvm/Target/TargetMachine.h"#include "llvm/Support/Debug.h"#include "llvm/Support/Compiler.h"#include "llvm/ADT/Statistic.h"#include <stack>#include <queue>#include <iostream>using namespace std;using namespace llvm;namespace { class Gcra : public MachineFunctionPass { private: MachineRegisterInfo *MRI; const TargetRegisterInfo *TRI; MachineFunction *MF; const TargetMachine *TM; const TargetInstrInfo *TII; static const bool DEBUG_VREG = true; map<MachineInstr *, unsigned> InstrToNumMap; public: static char ID; // Pass identification, replacement for typeid //********************************************************************** // constructor //********************************************************************** Gcra() : MachineFunctionPass(ID) { } //********************************************************************** // runOnMachineFunction //********************************************************************** bool runOnMachineFunction(MachineFunction &Fn) { if (DEBUG_VREG) { std::cerr << "START " << Fn.getFunction()->getName().str() << "\n"; } // get pointers to stuff that doesn't change over this fn // e.g., the register info classes MRI = &Fn.getRegInfo(); TRI = Fn.getTarget().getRegisterInfo(); MF = &Fn; TM = &Fn.getTarget(); TII = TM->getInstrInfo(); // STEP 1: get instruction-to-number map doInit(Fn); // STEP 2: get all vregs in this fn std::set<unsigned> vregSet = getAllVreg(Fn); // STEP 3: handle all vregs setAllVreg(Fn, vregSet); return true; } virtual void getAnalysisUsage(AnalysisUsage &AU) const { MachineFunctionPass::getAnalysisUsage(AU); } private: //********************************************************************** // doInit // // fill in // InstrToNumMap: map from instruction to unique # (for debugging) //********************************************************************** void doInit(MachineFunction &Fn) { // iterate over all basic blocks, all instructions in a block, // all operands in an instruction int insNum = 1; for (MachineFunction::iterator MFIt = Fn.begin(), MFendIt = Fn.end(); MFIt != MFendIt; MFIt++) { for (MachineBasicBlock::iterator MBBIt = MFIt->begin(), MBBendIt = MFIt->end(); MBBIt != MBBendIt; MBBIt++) { //*MBBIt is a MachineInstr InstrToNumMap[MBBIt] = insNum; insNum++; } // end iterate over all instructions in 1 basic block } // end iterate over all basic blocks in this fn } // end doInit //********************************************************************** // getAllVreg // // find and return the set of all vregs that occur in instructions // in this function // ********************************************************************** std::set<unsigned> getAllVreg(MachineFunction &Fn) { std::set<unsigned> vregSet; // vregs defined in this fn vregSet.clear(); // iterate over all basic blocks, all instructions in a block, // all operands in an instruction for (MachineFunction::iterator MFIt = Fn.begin(), MFendIt = Fn.end(); MFIt != MFendIt; MFIt++) { for (MachineBasicBlock::iterator MBBIt = MFIt->begin(), MBBendIt = MFIt->end(); MBBIt != MBBendIt; MBBIt++) { int numOp = MBBIt->getNumOperands(); for (int i = 0; i < numOp; i++) { MachineOperand MOp = MBBIt->getOperand(i); if (MOp.isReg() && MOp.getReg()) { unsigned reg = MOp.getReg(); // Here if this operand is // (a) a register // (b) not special reg 0 if (TargetRegisterInfo::isVirtualRegister(reg)) { vregSet.insert(reg); } } // end if operand is a reg } // end iterate over operands } // end iterate over instructions } // end iterate over blocks return vregSet; } //********************************************************************** // setAllVreg // // for each vreg in the given set: // 1. Allocate stackspace // 2. iterate over all instructions in this fn // for each, iterate over all operands // if an operand is a vreg // then set it to an appropriate preg and add a load/spill // depending on whether the vreg was a def or a use //********************************************************************** void setAllVreg(MachineFunction &Fn, std::set<unsigned> vregSet) { for (std::set<unsigned>::iterator it = vregSet.begin(); it != vregSet.end(); it++) { unsigned vreg = *it; // Allocate a new stack object for this vreg const TargetRegisterClass *RC = MRI->getRegClass(vreg); MachineFunction *MF = &Fn; int frameIndex = MF->getFrameInfo()->CreateSpillStackObject(RC->getSize(), RC->getAlignment()); // iterate over all basic blocks, all instructions in a block, // all operands in an instruction for (MachineFunction::iterator MFIt = Fn.begin(), MFendIt = Fn.end(); MFIt != MFendIt; MFIt++) { for (MachineBasicBlock::iterator MBBIt = MFIt->begin(), MBBendIt = MFIt->end(); MBBIt != MBBendIt; MBBIt++) { MachineInstr *oneInst = MBBIt; MachineBasicBlock *parentBlock = oneInst->getParent(); int numOp = MBBIt->getNumOperands(); unsigned preg = -1; // iterate over the operands in this instruction for (int i = 0; i<numOp; i++) { MachineOperand &MOp = MBBIt->getOperand(i); if (MOp.isReg() && (MOp.getReg() == vreg)) { // found an instance of the crrent vreg // replace it with an appropriate preg // then add a load or store depending on whether // it is a use or a def if (preg == -1) { // get an appropriate preg for vreg int regClass = MRI->getRegClass(vreg)->getID(); const TargetRegisterClass *trc = TRI->getRegClass(regClass); TargetRegisterClass::iterator rItr = trc->begin(); preg = *rItr; // remove the sub-register field if (MOp.getSubReg()) { preg = TRI->getSubReg(preg, MOp.getSubReg()); MOp.setSubReg(0); } } // end we didn't have a preg yet for this instruction // replace vreg with preg MOp.setReg(preg); // add a store after curr instruction or a load before if (MOp.isDef()) { MachineBasicBlock::iterator IT = oneInst; IT++; TII->storeRegToStackSlot(*parentBlock, IT, preg, true, frameIndex, RC, TRI); } else { TII->loadRegFromStackSlot(*parentBlock, oneInst, preg, frameIndex, RC, TRI ); } // end if this was a def... else... } // end found an instance of curr vreg } // end iterate over all operands in this instruction } // end iterate over all instructions in 1 basic block } // end iterate over all basic blocks in this fn } // end iterate over all vregs in this fn MRI->clearVirtRegs(); } // end setAllVreg }; // The library-inclusion mechanism requires the following: char Gcra::ID = 0; FunctionPass *createGcra() { return new Gcra(); } static RegisterRegAlloc register_gcra("gc", "graph-coloring register allocator", createGcra);} -------------- next part -------------- /* CAUSES UNREACHABLE executed error */ #include <stdlib.h> int main(int argc, char **argv) { int a, b, c, x, y, z; x = rand(); printf("x: %d\n", x); while (x > 1000) x = x/1000; printf("x: %d\n", x); y = x + 5; z = x * 2 - 1; a = x+y*z; b = a/x - (5+y); c = a+b+x+y+z; printf("a: %d\nb: %d\nc: %d\nx: %d\ny: %d\nz: %d\n", a,b,c,x,y,z); } -------------- next part -------------- BC脌脼! 帽 ?#?A脠I29?? % ?b?EB? 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Lang Hames
2012-Nov-11 06:41 UTC
[LLVMdev] problem trying to write an LLVM register-allocation pass
Hi Susan, It looks like the bitcode you have attached is corrupted. You should make sure to attach it as a binary file. Alternatively you can attach the LLVM assembly as text. You can generate an assembly file from bitcode with: llvm-dis -o <asm file> <bitcode> Regards, Lang. On Fri, Nov 9, 2012 at 11:15 AM, Susan Horwitz <horwitz at cs.wisc.edu> wrote:> Thanks Lang, we are making progress! I no longer get the failed > assertion, but the code I'm using for vregs that don't get allocated a > preg, and thus need to be spilled and re-loaded is causing assembler errors. > > I suspect the problem is my code for allocating space in the stack, but I > don't know how to fix it. > > I've attached a new version of the simple register-allocation code, a test > program that causes the bad assembler to be produced, and the bc file. (I > had to name everything with a .txt extension to copy the files to my > laptop.) > > As always, thank you for your help! > > Susan > > > On 11/7/2012 7:31 PM, Lang Hames wrote: > > Hi Susan, > > In x86-64 the REX prefix must be used to access an extended register > (r8-r15 and their aliases), but cannot be used when accessing the high byte > of the ABCD regs (AH, BH, CH, DH). In your test case you have hardcoded > %vreg1 to R8B, and %vreg15 to AH, and the test case contains a copy between > these registers. The copy simultaneously must have a REX prefix, and cannot > have a REX prefix, hence the assertion. > > The problem is that not all registers in a class are allocable for all > vregs. As you can see from the above constraint, which pregs are valid > varies dynamically depending on the context that the register is used. The > trick is to query the "allocation order" for a class (and as an added > headache filter out any reserved registers). I've attached a test-case > where I do this somewhat manually. In short: > > int regClass = MRI->getRegClass(vreg)->getID(); > const TargetRegisterClass *trc = TRI->getRegClass(regClass); > ArrayRef<uint16_t> rawOrder = trc->getRawAllocationOrder(Fn); > ArrayRef<uint16_t>::iterator rItr = rawOrder.begin(); > while (reservedRegs.test(*rItr)) > ++rItr; > preg = *rItr; > > Alternatively, you could use the AllocationOrder class > (lib/CodeGen/AllocationOrder.h). This has the benefit of considering > register hints for improved coalescing too. It does, however, require you > to use VirtRegMap. > > Hope this helps! > > Cheers, > Lang. > > > > On Wed, Nov 7, 2012 at 2:56 PM, Lang Hames <lhames at gmail.com> wrote: > >> Hi Susan, >> >> Sorry for the delayed response. Thanks for the test cases - I'm looking >> in to this now. >> >> - Lang. >> >> >> On Mon, Nov 5, 2012 at 2:58 PM, Susan Horwitz <horwitz at cs.wisc.edu>wrote: >> >>> Hi Lang, >>> >>> I looked more into one of the problems I'm now having, and I've attached >>> 3 files: >>> >>> Gcra.cpp is like your version except that for two specific vregs it uses >>> hard-coded pregs instead of the first in the corresponding class. >>> >>> bug1.c is an input that causes the failed assertion for me. If I use >>> the non-debug version of LLVM-3.1 I instead get assembler errors like this: >>> Error: can't encode register '%ah' in an instruction requiring >>> REX prefix. >>> >>> bug1.bc is my bitcode version of bug1.c. >>> >>> The problematic vregs are both in register class 0. One is replaced >>> with preg 1 and the other with preg 74. Those are both in register class >>> 0, and are not aliased. Any idea why using those pregs causes trouble? >>> >>> Thanks! >>> >>> Susan >>> >>> >>> On 11/04/2012 06:19 PM, Lang Hames wrote: >>> >>>> Hi Susan, >>>> >>>> With your bitcode file I am now able to reproduce the issue you're >>>> seeing. It looks like this is a problem with the naive rewriting from >>>> virtregs to physregs. It appears that the subreg field of physreg >>>> operands is ignored post-register allocation. In your testcase >>>> %vreg11:sub32 is being rewritten to RBX:sub32, but the :sub32 part is >>>> being quietly dropped when the assembly is written out. If this is >>>> expected behaviour, and is still happening in the development branch, >>>> then I'll add some sort of verification to catch it. >>>> >>>> The VirtRegMap::rewrite() method sidesteps this issue by rewriting >>>> physreg operands to remove the subreg field. The code for this is in >>>> VirtRegMap.cpp, around line 165. In short: >>>> >>>> PhysReg = MO.getReg(); >>>> if (MO.getSubReg() != 0) { >>>> PhysReg = TRI->getSubReg(PhysReg, MO.getSubReg()); >>>> MO.setSubReg(0); >>>> } >>>> MO.setReg(PhysReg); >>>> >>>> Adding this code to Gcra fixes the assembly issue for me. I've attached >>>> my updated copy. Hope this helps. >>>> >>>> Cheers, >>>> Lang. >>>> >>>> >>>> On Sun, Nov 4, 2012 at 2:08 PM, Susan Horwitz <horwitz at cs.wisc.edu >>>> <mailto:horwitz at cs.wisc.edu>> wrote: >>>> >>>> My tst.bc is attached. I had to use ssh to copy it from my office >>>> machine to my home laptop. In case that corrupts it, I also put a >>>> copy here: >>>> http://pages.cs.wisc.edu/~horwitz/LANG/tst.bc >>>> >>>> I created the file like this: >>>> >>>> clang -emit-llvm -O0 -c tst.c -o tst.bc >>>> opt -mem2reg tst.bc > tst.mem2reg >>>> mv tst.mem2reg tst.bc >>>> >>>> >>>> Susan >>>> >>>> >>>> On 11/4/2012 3:27 PM, Lang Hames wrote: >>>> >>>>> Hi Susan, >>>>> >>>>> I tested the version of Gcra.cpp that I sent you on x86-64 systems >>>>> running MacOS 10.8 and Ubuntu 12.04 (Linux 3.2.0). >>>>> >>>>> Could you send me the bitcode file you're compiling? Different >>>>> bitcodes (due to different clang versions or applied >>>>> optimizations) could account for the different results we're >>>>> seeing. For reference I've attached the *.ll file that I have >>>>> tested with, which was compiled from your tst.c file with: >>>>> >>>>> clang -O0 -emit-llvm -S -o tst.ll tst.c >>>>> >>>>> My clang version was built from a recent checkout from subversion. >>>>> >>>>> It's unlikely that there is any fundamental problem with the >>>>> register allocation APIs or the code generator that would prevent >>>>> you from building a working allocator. The APIs certainly could >>>>> have changed in a way that would break existing allocators though. >>>>> >>>>> - Lang. >>>>> >>>>> >>>>> On Sat, Nov 3, 2012 at 4:34 PM, Susan Horwitz <horwitz at cs.wisc.edu >>>>> <mailto:horwitz at cs.wisc.edu>> wrote: >>>>> >>>>> Lang - >>>>> >>>>> Your version does NOT work for me (i.e., I still get an error >>>>> from the assembler when I run your code on my tst.c) unless I >>>>> force compilation and assembly for a 32-bit X86 machine: >>>>> >>>>> llc -march=x86 -regalloc=gc tst.bc >>>>> gcc -m32 tst.s >>>>> >>>>> My machine is a 64-bit machine. Maybe you are working with a >>>>> different architecture and that's why it worked for you? >>>>> >>>>> I would be happy if the above worked in general, but when I >>>>> try other C code (with my "real" register allocator, not the >>>>> naive one I sent you) I get assembly that includes >>>>> >>>>> %r8d >>>>> >>>>> which seems to be invalid for a 32-bit machine. Sigh. It >>>>> looks to me like there's a problem with the LLVM-3.1 API for >>>>> register allocation and/or the code-generation phase. What do >>>>> you think? >>>>> >>>>> Susan >>>>> >>>>> >>>>> On 11/1/2012 5:28 PM, Lang Hames wrote: >>>>> >>>>>> Hi Susan, >>>>>> >>>>>> Without debugging symbols I can't make much out of that stack >>>>>> trace I'm afraid. >>>>>> >>>>>> I've attached my modified version of Gcra.cpp. I built llvm >>>>>> 3.1 by dropping this file into lib/CodeGen, and adding >>>>>> references to createGcra to include/lib/CodeGen/Passes.h and >>>>>> include/lib/CodeGen/LinkAllCodeGenComponents.h. (If you >>>>>> search for createRegAllocPBQP you'll see where to add the >>>>>> declarations). >>>>>> >>>>>> With that setup, running your allocator on the tst.c file you >>>>>> attached previously yielded a sane assembly file. >>>>>> >>>>>> Cheers, >>>>>> Lang. >>>>>> >>>>>> On Thu, Nov 1, 2012 at 3:13 PM, Susan Horwitz >>>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu>> wrote: >>>>>> >>>>>> I still get a coredump: >>>>>> >>>>>> 0 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> 0x00007f0158a4e67f >>>>>> 1 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> 0x00007f0158a500ca >>>>>> 2 libpthread.so.0 0x0000003a86c0f500 >>>>>> >>>>>> 3 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> 0x00007f01583c346c >>>>>> 4 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> 0x00007f0158546349 >>>>>> llvm::FPPassManager::runOnFunction(llvm::Function&) + 521 >>>>>> 5 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> >>>>>> 0x00007f01585463e3 >>>>>> llvm::FPPassManager::runOnModule(llvm::Module&) + 51 >>>>>> 6 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> >>>>>> 0x00007f0158545fae >>>>>> llvm::MPPassManager::runOnModule(llvm::Module&) + 462 >>>>>> 7 libLLVM-3.1.so <http://libLLVM-3.1.so> >>>>>> >>>>>> 0x00007f01585460bd >>>>>> llvm::PassManagerImpl::run(llvm::Module&) + 125 >>>>>> 8 llc 0x000000000040b012 main + 5218 >>>>>> 9 libc.so.6 0x0000003a8601ecdd __libc_start_main + >>>>>> 253 >>>>>> 10 llc 0x0000000000407d79 >>>>>> Stack dump: >>>>>> 0. Program arguments: llc -load Debug/lib/P4.so >>>>>> -regalloc=gc tst.bc >>>>>> 1. Running pass 'Function Pass Manager' on module >>>>>> 'tst.bc'. >>>>>> 2. Running pass 'Machine Loop Invariant Code Motion' >>>>>> on function '@main' >>>>>> make: *** [tst.reg] Segmentation fault (core dumped) >>>>>> >>>>>> >>>>>> >>>>>> On 11/01/2012 04:59 PM, Lang Hames wrote: >>>>>> >>>>>> Hi Susan, >>>>>> >>>>>> Sorry - I had missed that you're using llvm-3.1, >>>>>> rather than the >>>>>> development branch. We encourage people to live on >>>>>> top-of-tree - it's >>>>>> well tested, easier for active developers to offer >>>>>> help with, and >>>>>> keeping up with incremental changes is often easier >>>>>> than porting between >>>>>> stable versions. >>>>>> >>>>>> It also sounds like you were building a Release >>>>>> version of LLVM. That >>>>>> will not have any asserts enabled (though it will >>>>>> have some other >>>>>> diagnostics). You will probably want to work with a >>>>>> Debug+Asserts >>>>>> version (<src>/configure --disable-optimized >>>>>> --enable-assertions) while >>>>>> you're developing your allocator and watch for any >>>>>> asserts that trigger. >>>>>> >>>>>> In your case the Assertion that is triggering in PEI >>>>>> indicates that the >>>>>> MachineRegisterInfo object still contained some >>>>>> virtregs post >>>>>> register-allocation. You need to call >>>>>> MRI->clearVirtRegs() at the end of >>>>>> your allocator. >>>>>> >>>>>> Hope this helps! >>>>>> >>>>>> Cheers, >>>>>> Lang. >>>>>> >>>>>> On Thu, Nov 1, 2012 at 2:41 PM, Susan Horwitz >>>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu>>> wrote: >>>>>> >>>>>> Hi again Lang, >>>>>> >>>>>> I decided to try the approach you proposed to see >>>>>> whether it makes >>>>>> the assembly-code problem go away. Again, I >>>>>> tried a very simple >>>>>> register allocator (attached) that just calls >>>>>> vrm.assignVirt2Phys >>>>>> for every vreg in each function, mapping the vreg >>>>>> to the first preg >>>>>> in the register class. I tried two versions: one >>>>>> maps *every* vreg, >>>>>> and the other only maps those for which >>>>>> MRI->reg_empty(vreg) returns >>>>>> false. In both cases I get a core dump somewhere >>>>>> after my >>>>>> reg-allocation pass has run (when I use the >>>>>> "tst.c" file that I sent >>>>>> last time as input). >>>>>> >>>>>> Note also that there is no VirtRegMap.h in the >>>>>> "include" directory >>>>>> of my installed llvm-3.1. I had to copy that >>>>>> file from the source >>>>>> directory. That seems suspicious. >>>>>> >>>>>> Any thoughts? >>>>>> >>>>>> Thanks! >>>>>> >>>>>> Susan >>>>>> >>>>>> >>>>>> On 10/31/2012 07:51 PM, Lang Hames wrote: >>>>>> >>>>>> Hi Susan, >>>>>> >>>>>> I'm having trouble reproducing that error on >>>>>> my end, but I think the >>>>>> problem is probably that you're not using the >>>>>> VirtRegRewriter >>>>>> infrastructure. What your allocator needs to >>>>>> do is populate the >>>>>> virtual >>>>>> register mapping (VirtRegMap pass) with your >>>>>> allocation, rather than >>>>>> rewriting the registers directly through >>>>>> MachineRegisterInfo. >>>>>> >>>>>> Have your allocator require and preserve the >>>>>> VirtRegMap pass, >>>>>> then in >>>>>> your runOnMachineFunction pass grab a >>>>>> reference to the pass with: >>>>>> >>>>>> VirtRegMap &vrm = getAnalysis<VirtRegMap>(); >>>>>> >>>>>> You can then describe your register >>>>>> allocations with: >>>>>> >>>>>> vrm.assignVirt2Phys(<virtreg>, <physreg>) >>>>>> >>>>>> The VirtRegRewriter pass (in VirtRegMap.cpp) >>>>>> will run after your >>>>>> allocator and apply the mapping that you >>>>>> described in the >>>>>> VirtRegMap. >>>>>> >>>>>> I hope this helps. Let me know if it doesn't >>>>>> fix your issue. >>>>>> >>>>>> Cheers, >>>>>> Lang. >>>>>> >>>>>> On Wed, Oct 31, 2012 at 3:54 PM, Susan Horwitz >>>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu <mailto: >>>>>> horwitz at cs.wisc.edu>> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu>>>> wrote: >>>>>> >>>>>> Thanks Lang! >>>>>> >>>>>> Here's another question: I'm trying to >>>>>> process this input: >>>>>> >>>>>> int main() { >>>>>> return 0; >>>>>> } >>>>>> >>>>>> but I'm getting an error >>>>>> Assertion `!Fn.getRegInfo(). >>>>>> getNumVirtRegs() && >>>>>> "Regalloc must >>>>>> >>>>>> assign all vregs"' failed. >>>>>> >>>>>> At the start of runOnMachineFunction I >>>>>> call Fn.getRegInfo(). >>>>>> getNumVirtRegs(); >>>>>> and find that there is 1 virtual >>>>>> register. However, >>>>>> MRI->reg_empty(vreg) >>>>>> tells me that it is not used or defined. >>>>>> So my >>>>>> register-allocation >>>>>> code never sees it, and thus can't >>>>>> allocate a preg for it. >>>>>> I tried >>>>>> using MRI->replaceRegWith(vreg, preg); >>>>>> (where preg is available to vreg's >>>>>> register class) but that >>>>>> didn't >>>>>> work. When I look, the number of vregs >>>>>> in the function is >>>>>> still 1. >>>>>> >>>>>> Can you help with this? >>>>>> >>>>>> Thanks again! >>>>>> >>>>>> Susan >>>>>> >>>>>> >>>>>> On 10/31/2012 04:55 PM, Lang Hames wrote: >>>>>> >>>>>> Hi Susan, >>>>>> >>>>>> The meaning of "addRequired(X)" is >>>>>> that your pass needs >>>>>> X to be >>>>>> run, and >>>>>> for X to be preserved by all passes >>>>>> that run after X >>>>>> and before your >>>>>> pass. The PHIElemination and >>>>>> TwoAddressInstruction >>>>>> passes do not >>>>>> preserve each other, hence there's >>>>>> no way for the pass >>>>>> manager to >>>>>> schedule them for you if you >>>>>> addRequire(...) them. >>>>>> >>>>>> The trick is that CodeGen will >>>>>> schedule both of these >>>>>> passes to >>>>>> be run >>>>>> before _any_ register allocation >>>>>> pass (see Passes.cpp), >>>>>> so you >>>>>> needn't >>>>>> require them explicitly - you can >>>>>> just assume they have >>>>>> been >>>>>> run. If you >>>>>> just remove those lines from your >>>>>> getAnalysisUsage >>>>>> method your pass >>>>>> should now run as you expect. >>>>>> >>>>>> Cheers, >>>>>> Lang. >>>>>> >>>>>> On Wed, Oct 31, 2012 at 1:46 PM, >>>>>> Susan Horwitz >>>>>> <horwitz at cs.wisc.edu <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu <mailto: >>>>>> horwitz at cs.wisc.edu>> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu>>> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu <mailto: >>>>>> horwitz at cs.wisc.edu>> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu> >>>>>> <mailto:horwitz at cs.wisc.edu >>>>>> <mailto:horwitz at cs.wisc.edu>>>>> wrote: >>>>>> >>>>>> I'm trying to write a >>>>>> MachineFunctionPass to do >>>>>> register >>>>>> allocation. >>>>>> I have code that worked with >>>>>> an old version of >>>>>> LLVM. It >>>>>> does not >>>>>> work with llvm-3.1. (or various >>>>>> other versions >>>>>> that I've >>>>>> tried). >>>>>> >>>>>> The first problem is that >>>>>> including this line: >>>>>> >>>>>> AU.addRequiredID(__ >>>>>> TwoAddressInstructionPassID); >>>>>> >>>>>> >>>>>> in method getAnalysisUsage >>>>>> causes a runtime error: >>>>>> >>>>>> Unable to schedule 'Eliminate >>>>>> PHI nodes for register >>>>>> allocation' >>>>>> required by 'Unnamed pass: >>>>>> implement >>>>>> Pass::getPassName()' >>>>>> Unable to schedule pass >>>>>> UNREACHABLE executed at ... >>>>>> >>>>>> I'm invoking the pass like this >>>>>> (given input file >>>>>> foo.c): >>>>>> >>>>>> clang -emit-llvm -O0 -c foo.c >>>>>> -o foo.bc >>>>>> opt -mem2reg foo.bc > foo.ssa >>>>>> mv foo.ssa foo.bc >>>>>> llc -load Debug/lib/P4.so >>>>>> -regalloc=gc foo.bc >>>>>> >>>>>> >>>>>> I've attached my entire file >>>>>> (it's very short). >>>>>> Any help >>>>>> would be >>>>>> much appreciated! >>>>>> >>>>>> Susan Horwitz >>>>>> >>>>>> ______________________________ >>>>>> _________________ >>>>>> LLVM Developers mailing list >>>>>> LLVMdev at cs.uiuc.edu <mailto:LLVMdev at cs.uiuc.edu> >>>>>> <mailto:LLVMdev at cs.uiuc.edu <mailto: >>>>>> LLVMdev at cs.uiuc.edu>> >>>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>>> <mailto:LLVMdev at cs.uiuc.edu> >>>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>>> <mailto:LLVMdev at cs.uiuc.edu>>> >>>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>>> <mailto:LLVMdev at cs.uiuc.edu> >>>>>> <mailto:LLVMdev at cs.uiuc.edu <mailto: >>>>>> LLVMdev at cs.uiuc.edu>> >>>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>>> <mailto:LLVMdev at cs.uiuc.edu> >>>>>> <mailto:LLVMdev at cs.uiuc.edu >>>>>> <mailto:LLVMdev at cs.uiuc.edu>>>> >>>>>> >>>>>> http://llvm.cs.uiuc.edu >>>>>> http://lists.cs.uiuc.edu/ mailman/listinfo/llvmdev >>>>>> <http://lists.cs.uiuc.edu/__mailman/listinfo/llvmdev >>>>>> <http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev>> >>>>>> >>>>>> >>>>>> >>>>>> >>>>>> >>>>>> >>>>>> >>>>>> >>>>>> >>>>> >>>>> >>>> >>>> >>> >> > >-------------- next part -------------- An HTML attachment was scrubbed... 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- [LLVMdev] problem trying to write an LLVM register-allocation pass
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