[SYCL] Add support AOT compilation for Intel GPUs in clang-sycl-linker #1
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jzc
changed the title
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@jzc, could you incorporate the feedback from srividya-sundaram#2 (specifically AOT GPU architecture names, unless they are converted to the |
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Please ping me again for review once Alexey's feedback is addressed, thx :) |
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@bader sorry, can you clarify which feedback to incorporate? For srividya-sundaram#2, by GPU architecture names, are you referring to whatever And what feedback from asudarsa#3? Or were you saying to incorporate changes of adding SPIR-V code gen into this PR? |
jzc
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Mar 14, 2025
`TestReportData.py` is failing on the macOS CI with:
```
Traceback (most recent call last):
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 1784, in test_method
return attrvalue(self)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/packages/Python/lldbsuite/test/decorators.py", line 148, in wrapper
return func(*args, **kwargs)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/test/API/functionalities/asan/TestReportData.py", line 28, in test_libsanitizers_asan
self.asan_tests(libsanitizers=True)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/test/API/functionalities/asan/TestReportData.py", line 60, in asan_tests
self.expect(
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 2490, in expect
self.fail(log_msg)
AssertionError: Ran command:
"thread list"
Got output:
Process 3474 stopped
* thread #1: tid = 0x38b5e9, 0x00007ff80f563b52 libsystem_kernel.dylib`__pthread_kill + 10, queue = 'com.apple.main-thread', stop reason = signal SIGABRT
Expecting sub string: "stopped" (was found)
Expecting sub string: "stop reason = Use of deallocated memory" (was not found)
Process should be stopped due to ASan report
```
There isn't much to go off of in the log, so adding more to help us debug this.
jzc
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that referenced
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Mar 14, 2025
These are macOS tests only and are currently failing on the x86_64 CI and on arm64 on recent versions of macOS/Xcode. The tests are failing because we're stopping in: ``` Process 17458 stopped * thread #1: tid = 0xbda69a, 0x00000002735bd000 libsystem_malloc.dylib`purgeable_print_self.cold.1, stop reason = EXC_BREAKPOINT (code=1, subcode=0x2735bd000) ``` instead of the libsanitizers library. This seems to be related to `-fsanitize-trivial-abi` support Skip these for now until we figure out the root cause.
bader
reviewed
Mar 14, 2025
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| def sycl_backend_compile_options_from_image_EQ : Joined<["--", "-"], "sycl-backend-compile-options-from-image=">, | ||
| Flags<[LinkerOnlyOption]>, | ||
| HelpText<"Compile options that will be transmitted to the SYCL backend compiler">; | ||
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| def sycl_backend_link_options_from_image_EQ : Joined<["--", "-"], "sycl-backend-link-options-from-image=">, | ||
| Flags<[LinkerOnlyOption]>, | ||
| HelpText<"Link options that will be transmitted to the SYCL backend compiler">; |
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- Let's drop SYCL from these options. The tool is called
clang-sycl-linker. The name implies that it works only with SYCL compilation flow*. - Please, extend the help text to cover the meaning of "from-image" part.
* - @sarnex, this statement might be controversial if OpenMP offload is going to use this tool as well.
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Yeah at some point we will have to use this for OpenMP offloading as well
| def gpu_tool_arg_EQ : | ||
| Joined<["--", "-"], "gpu-tool-arg=">, | ||
| Flags<[LinkerOnlyOption]>, | ||
| HelpText<"Options that are passed to the backend of target device compiler for Intel GPU during AOT compilation">; |
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SYCL support non-Intel GPUs as well. Can this option be used to pass options to CUDA/HIP device compilers?
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The CUDA/HIP step is not implemented but in theory this could easily pass to those device compilers. I took all these flags from the intel/llvm version of clang-linker-wrapper as is. However, to me, I don't see why gpu_tool_arg_EQ, cpu_tool_arg_EQ, OPT_sycl_backend_compile_options_from_image_EQ, and OPT_sycl_backend_link_options_from_image_EQ all need to be separate anyways; they are all used in the same way: just passing arguments down to the device compiler. Should we unify this flag into one? @asudarsa
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May be we can call this gen-tool-arg?
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gpu_tool_arg_EQ and cpu_tool_arg_EQ are options that are passed into clang-linker-wrapper by the driver based on command line options specified by user. OPT_sycl_backend_compile_options_from_image_EQ, and OPT_sycl_backend_link_options_from_image_EQ are options that are populated inside clang-linker-wrapper based on what is present inside the device image (in StringMap).
We will need these to be supported inside clang-sycl-linker in a similar fashion.
Thanks
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gpu_tool_arg_EQ and cpu_tool_arg_EQ are options that are passed into clang-linker-wrapper by the driver based on command line options specified by user. OPT_sycl_backend_compile_options_from_image_EQ, and OPT_sycl_backend_link_options_from_image_EQ are options that are populated inside clang-linker-wrapper based on what is present inside the device image (in StringMap). We will need these to be supported inside clang-sycl-linker in a similar fashion.
Thanks
@asudarsa, could you provide an example of commands leading to setting ocloc options via both the driver and device image metadata, please?
If it possible to set ocloc options through both options at the time, clang-linker-wrapper should merge options passed by the driver and extracted from the device code metadata to pass one set to the linker tool.
OPT_sycl_backend_compile_options_from_image_EQ and gpu_tool_arg_EQ are setting options for the same tool - ocloc. Having two separate options for that doesn't make much sense to me.
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Hi @bader
Here is the use case
`
clang++ -fsycl --offload-arch=pvc -Xsycl-target-backend -c1-opt --offload-new-driver test-sycl.cpp -c
(populates device image metadata)
AND
clang++ -fsycl --offload-arch=pvc -Xsycl-target-backend -c2-opt --offload-new-driver test-sycl.o
(Options from driver)
About combining the options, there is a problem. In the latest community version of clang-linker-wrapper, the input files are sent as is to clang driver for purpose of device code linking. So, we do not read the device image. Also, if multiple inputs are to be linked, then we might have different set of options in each device image metadata.
After I wrote this, I see another issue. If module 1 has '-opt1' backend option embedded in its metadata and module 2 has '-opt2' backend option, then we should not 'link' these two modules.
This needs further thought. Adding @mdtoguchi also for discussion here.
Thanks
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About combining the options, there is a problem. In the latest community version of clang-linker-wrapper, the input files are sent as is to clang driver for purpose of device code linking.
In this case, I think clang driver is expected to combine the flags. Anyway, whichever tool extracts device "code" from the device "image" should merge the flags from device image metadata to the flags passed via command line option.
I would expose tool specific flags in the clang-sycl-linker interface for clarity similar to -llvm-spirv-options=. E.g. --ocloc-options=.
Added specific comments inline. I think it might be useful to ask someone from the Codeplay team to review as well to make sure that proposed changes work for non-Intel targets as well. @Naghasan, could you take a look at these changes, please? |
jzc
commented
Mar 17, 2025
| OutputFile = "a.spv"; | ||
| if (Args.hasArg(OPT_o)) | ||
| OutputFile = Args.getLastArgValue(OPT_o); | ||
| IsAOTCompileNeeded = Args.hasArg(OPT_arch); |
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I removed the --target option to align with @asudarsa's PR; now AOT compilation is performed when -arch is supplied.
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| static inline bool IsSYCLSupportedIntelCPUArch(SYCLSupportedIntelArchs Arch) { | ||
| return Arch >= SYCLSupportedIntelArchs::SKYLAKEAVX512 && | ||
| Arch <= SYCLSupportedIntelArchs::GRANITERAPIDS; | ||
| } | ||
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| // Check if the given Arch value is a valid SYCL supported Intel GPU. | ||
| static inline bool IsSYCLSupportedIntelGPUArch(SYCLSupportedIntelArchs Arch) { | ||
| return Arch >= SYCLSupportedIntelArchs::BDW && | ||
| Arch <= SYCLSupportedIntelArchs::LNL_M; | ||
| } |
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In order to detect GPU/CPU AOT compilation, @srividya-sundaram, I used these functions from your PR. FYI I moved them to include/Basic / source/Basic instead of lib/Driver/ToolChains so that they can be used by clang-sycl-linker. I also moved them from clang::driver to just clang. Will this be OK with your PR?
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From a quick glance, I think these changes should be ok.
(I need to update my PR with these changes to be certain that they don't break anything)
Also, FYI, there is some discussion going on with regards to the Intel GPUs and Intel CPUs naming convention.
So some of these Intel AOT target mappings might be updated.
FYI: These changes are in intel/llvm too. When the regular pulldown from LLORG to intel/llvm happens, the files in intel/llvm need to be updated too.
One point to note. We do have non-intel targets supported in the downstream intel/llvm repo. We are just adding this in a phased manner. First add Intel targets. Merge it and then try to add non-intel targets after that. Thanks |
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What additional work is expected to be done in this PR except already left nits? I think you can quickly resolve those nits and we could proceed. |
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@maksimsab I think that's it. I push a commit addressing the remaining open comments. |
@maksimsab, you are the only reviewer who requested changes. You should approve PR to indicate that patch has pass your review. |
maksimsab
reviewed
Mar 20, 2025
| // RUN: | FileCheck %s --check-prefix=DEVLIBSERR2 | ||
| // DEVLIBSERR2: '{{.*}}lib3.bc' SYCL device library file is not found | ||
| // | ||
| // RUN: clang-sycl-linker --dry-run -arch pvc %t_1.bc %t_2.bc -o a.out 2>&1 \ |
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Please, add a text description of what you are intended to test in every case.
jzc
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Mar 27, 2025
… pointers (llvm#132261) Currently, the helpers to get fir::ExtendedValue out of hlfir::Entity use hlfir.declare second result (`#1`) in most cases. This is because this result is the same as the input and matches what FIR was getting before lowering to HLFIR. But this creates odd situations when both hlfir.declare are raw pointers and either result ends-up being used in the IR depending on whether the code was generated by a helper using fir::ExtendedValue, or via "pure HLFIR" helpers using the first result. This will typically prevent simple CSE and easy identification that two operation (e.g load/store) are touching the exact same memory location without using alias analysis or "manual detection" (looking for common hlfir.declare defining op). Hence, when hlfir.declare results are both raw pointers, use `#0` when producing `fir::ExtendedValue`. When `#0` is a fir.box, keep using `#1` because these are not the same. The only code change is in HLFIRTools.cpp and is pretty small, but there is a big test fallout of `#1` to `#0`.
jzc
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Mar 27, 2025
…too. (llvm#132267) Observed in Wine when trying to intercept `ExitThread`, which forwards to `ntdll.RtlExitUserThread`. `gdb` interprets it as `xchg %ax,%ax`. `llvm-mc` outputs simply `nop`. ``` ==Asan-i386-calls-Dynamic-Test.exe==964==interception_win: unhandled instruction at 0x7be27cf0: 66 90 55 89 e5 56 50 8b ``` ``` Wine-gdb> bt #0 0x789a1766 in __interception::GetInstructionSize (address=<optimized out>, rel_offset=<optimized out>) at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/interception/interception_win.cpp:983 #1 0x789ab480 in __sanitizer::SharedPrintfCode(bool, char const*, char*) () at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/sanitizer_common/sanitizer_printf.cpp:311 #2 0x789a18e7 in __interception::OverrideFunctionWithHotPatch (old_func=2078440688, new_func=2023702608, orig_old_func=warning: (Internal error: pc 0x792f1a2c in read in CU, but not in symtab.)warning: (Error: pc 0x792f1a2c in address map, but not in symtab.)0x792f1a2c) at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/interception/interception_win.cpp:1118 #3 0x789a1f34 in __interception::OverrideFunction (old_func=2078440688, new_func=2023702608, orig_old_func=warning: (Internal error: pc 0x792f1a2c in read in CU, but not in symtab.)warning: (Error: pc 0x792f1a2c in address map, but not in symtab.)0x792f1a2c) at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/interception/interception_win.cpp:1224 llvm#4 0x789a24ce in __interception::OverrideFunction (func_name=0x78a0bc43 <vtable for __asan::AsanThreadContext+1163> "ExitThread", new_func=2023702608, orig_old_func=warning: (Internal error: pc 0x792f1a2c in read in CU, but not in symtab.)warning: (Error: pc 0x792f1a2c in address map, but not in symtab.)0x792f1a2c) at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/interception/interception_win.cpp:1369 llvm#5 0x789f40ef in __asan::InitializePlatformInterceptors () at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/asan/asan_win.cpp:190 llvm#6 0x789e0c3c in __asan::InitializeAsanInterceptors () at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/asan/asan_interceptors.cpp:802 llvm#7 0x789ee6b5 in __asan::AsanInitInternal () at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/asan/asan_rtl.cpp:442 llvm#8 0x789eefb0 in __asan::AsanInitFromRtl () at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/asan/asan_rtl.cpp:522 llvm#9 __asan::AsanInitializer::AsanInitializer (this=<optimized out>) at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/asan/asan_rtl.cpp:542 llvm#10 __cxx_global_var_init () at C:/llvm-mingw/llvm-mingw/llvm-project/compiler-rt/lib/asan/asan_rtl.cpp:546 ... Wine-gdb> disassemble /r 2078440688,2078440688+20 Dump of assembler code from 0x7be27cf0 to 0x7be27d04: 0x7be27cf0 <_RtlExitUserThread@4+0>: 66 90 xchg %ax,%ax ... ```
jzc
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Apr 14, 2025
…d A520 (llvm#132246) Inefficient SVE codegen occurs on at least two in-order cores, those being Cortex-A510 and Cortex-A520. For example a simple vector add ``` void foo(float a, float b, float dst, unsigned n) { for (unsigned i = 0; i < n; ++i) dst[i] = a[i] + b[i]; } ``` Vectorizes the inner loop into the following interleaved sequence of instructions. ``` add x12, x1, x10 ld1b { z0.b }, p0/z, [x1, x10] add x13, x2, x10 ld1b { z1.b }, p0/z, [x2, x10] ldr z2, [x12, #1, mul vl] ldr z3, [x13, #1, mul vl] dech x11 add x12, x0, x10 fadd z0.s, z1.s, z0.s fadd z1.s, z3.s, z2.s st1b { z0.b }, p0, [x0, x10] addvl x10, x10, #2 str z1, [x12, #1, mul vl] ``` By adjusting the target features to prefer fixed over scalable if the cost is equal we get the following vectorized loop. ``` ldp q0, q3, [x11, #-16] subs x13, x13, llvm#8 ldp q1, q2, [x10, #-16] add x10, x10, llvm#32 add x11, x11, llvm#32 fadd v0.4s, v1.4s, v0.4s fadd v1.4s, v2.4s, v3.4s stp q0, q1, [x12, #-16] add x12, x12, llvm#32 ``` Which is more efficient.
jzc
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Apr 14, 2025
… A510/A520 (llvm#134606) Recommit. This work was done by llvm#132246 but failed buildbots due to the test introduced needing updates Inefficient SVE codegen occurs on at least two in-order cores, those being Cortex-A510 and Cortex-A520. For example a simple vector add ``` void foo(float a, float b, float dst, unsigned n) { for (unsigned i = 0; i < n; ++i) dst[i] = a[i] + b[i]; } ``` Vectorizes the inner loop into the following interleaved sequence of instructions. ``` add x12, x1, x10 ld1b { z0.b }, p0/z, [x1, x10] add x13, x2, x10 ld1b { z1.b }, p0/z, [x2, x10] ldr z2, [x12, #1, mul vl] ldr z3, [x13, #1, mul vl] dech x11 add x12, x0, x10 fadd z0.s, z1.s, z0.s fadd z1.s, z3.s, z2.s st1b { z0.b }, p0, [x0, x10] addvl x10, x10, #2 str z1, [x12, #1, mul vl] ``` By adjusting the target features to prefer fixed over scalable if the cost is equal we get the following vectorized loop. ``` ldp q0, q3, [x11, #-16] subs x13, x13, llvm#8 ldp q1, q2, [x10, #-16] add x10, x10, llvm#32 add x11, x11, llvm#32 fadd v0.4s, v1.4s, v0.4s fadd v1.4s, v2.4s, v3.4s stp q0, q1, [x12, #-16] add x12, x12, llvm#32 ``` Which is more efficient.
jzc
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Apr 14, 2025
…s=128. (llvm#134068) When compiling with -msve-vector-bits=128 or vscale_range(1, 1) and when the offsets allow it, we can pair SVE LDR/STR instructions into Neon LDP/STP. For example, given: ```cpp #include <arm_sve.h> void foo(double const *ldp, double *stp) { svbool_t pg = svptrue_b64(); svfloat64_t ld1 = svld1_f64(pg, ldp); svfloat64_t ld2 = svld1_f64(pg, ldp+svcntd()); svst1_f64(pg, stp, ld1); svst1_f64(pg, stp+svcntd(), ld2); } ``` When compiled with `-msve-vector-bits=128`, we currently generate: ```gas foo: ldr z0, [x0] ldr z1, [x0, #1, mul vl] str z0, [x1] str z1, [x1, #1, mul vl] ret ``` With this patch, we instead generate: ```gas foo: ldp q0, q1, [x0] stp q0, q1, [x1] ret ``` This is an alternative, more targetted approach to llvm#127500.
jzc
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Apr 14, 2025
…ctor-bits=128." (llvm#134997) Reverts llvm#134068 Caused a stage 2 build failure: https://lab.llvm.org/buildbot/#/builders/41/builds/6016 ``` FAILED: lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o /home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage1.install/bin/clang++ -DGTEST_HAS_RTTI=0 -D_DEBUG -D_GLIBCXX_ASSERTIONS -D_GNU_SOURCE -D__STDC_CONSTANT_MACROS -D__STDC_FORMAT_MACROS -D__STDC_LIMIT_MACROS -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage2/lib/Support -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/lib/Support -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage2/include -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/include -mcpu=neoverse-512tvb -mllvm -scalable-vectorization=preferred -mllvm -treat-scalable-fixed-error-as-warning=false -fPIC -fno-semantic-interposition -fvisibility-inlines-hidden -Werror=date-time -Werror=unguarded-availability-new -Wall -Wextra -Wno-unused-parameter -Wwrite-strings -Wcast-qual -Wmissing-field-initializers -pedantic -Wno-long-long -Wc++98-compat-extra-semi -Wimplicit-fallthrough -Wcovered-switch-default -Wno-noexcept-type -Wnon-virtual-dtor -Wdelete-non-virtual-dtor -Wsuggest-override -Wno-comment -Wstring-conversion -Wmisleading-indentation -Wctad-maybe-unsupported -fdiagnostics-color -ffunction-sections -fdata-sections -Werror=global-constructors -O3 -DNDEBUG -std=c++17 -UNDEBUG -fno-exceptions -funwind-tables -fno-rtti -MD -MT lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o -MF lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o.d -o lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o -c /home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/lib/Support/Caching.cpp Opcode has unknown scale! UNREACHABLE executed at ../llvm/llvm/lib/Target/AArch64/AArch64InstrInfo.cpp:4530! PLEASE submit a bug report to https://github.com/llvm/llvm-project/issues/ and include the crash backtrace, preprocessed source, and associated run script. Stack dump: 0. Program arguments: /home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage1.install/bin/clang++ -DGTEST_HAS_RTTI=0 -D_DEBUG -D_GLIBCXX_ASSERTIONS -D_GNU_SOURCE -D__STDC_CONSTANT_MACROS -D__STDC_FORMAT_MACROS -D__STDC_LIMIT_MACROS -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage2/lib/Support -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/lib/Support -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage2/include -I/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/include -mcpu=neoverse-512tvb -mllvm -scalable-vectorization=preferred -mllvm -treat-scalable-fixed-error-as-warning=false -fPIC -fno-semantic-interposition -fvisibility-inlines-hidden -Werror=date-time -Werror=unguarded-availability-new -Wall -Wextra -Wno-unused-parameter -Wwrite-strings -Wcast-qual -Wmissing-field-initializers -pedantic -Wno-long-long -Wc++98-compat-extra-semi -Wimplicit-fallthrough -Wcovered-switch-default -Wno-noexcept-type -Wnon-virtual-dtor -Wdelete-non-virtual-dtor -Wsuggest-override -Wno-comment -Wstring-conversion -Wmisleading-indentation -Wctad-maybe-unsupported -fdiagnostics-color -ffunction-sections -fdata-sections -Werror=global-constructors -O3 -DNDEBUG -std=c++17 -UNDEBUG -fno-exceptions -funwind-tables -fno-rtti -MD -MT lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o -MF lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o.d -o lib/Support/CMakeFiles/LLVMSupport.dir/Caching.cpp.o -c /home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/lib/Support/Caching.cpp 1. <eof> parser at end of file 2. Code generation 3. Running pass 'Function Pass Manager' on module '/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/llvm/llvm/lib/Support/Caching.cpp'. 4. Running pass 'AArch64 load / store optimization pass' on function '@"_ZNSt17_Function_handlerIFN4llvm8ExpectedISt8functionIFNS1_ISt10unique_ptrINS0_16CachedFileStreamESt14default_deleteIS4_EEEEjRKNS0_5TwineEEEEEjNS0_9StringRefESB_EZNS0_10localCacheESB_SB_SB_S2_IFvjSB_S3_INS0_12MemoryBufferES5_ISH_EEEEE3$_0E9_M_invokeERKSt9_Any_dataOjOSF_SB_"' #0 0x0000b6eae9b67bf0 llvm::sys::PrintStackTrace(llvm::raw_ostream&, int) (/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage1.install/bin/clang+++0x81c7bf0) #1 0x0000b6eae9b65aec llvm::sys::RunSignalHandlers() (/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage1.install/bin/clang+++0x81c5aec) #2 0x0000b6eae9acd5f4 CrashRecoverySignalHandler(int) CrashRecoveryContext.cpp:0:0 #3 0x0000f16c1aff28f8 (linux-vdso.so.1+0x8f8) llvm#4 0x0000f16c1aacf1f0 __pthread_kill_implementation ./nptl/pthread_kill.c:44:76 llvm#5 0x0000f16c1aa8a67c gsignal ./signal/../sysdeps/posix/raise.c:27:6 llvm#6 0x0000f16c1aa77130 abort ./stdlib/abort.c:81:7 llvm#7 0x0000b6eae9ad6628 (/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage1.install/bin/clang+++0x8136628) llvm#8 0x0000b6eae72e95a8 (/home/tcwg-buildbot/worker/clang-aarch64-sve-vla-2stage/stage1.install/bin/clang+++0x59495a8) llvm#9 0x0000b6eae74ca9a8 (anonymous namespace)::AArch64LoadStoreOpt::findMatchingInsn(llvm::MachineInstrBundleIterator<llvm::MachineInstr, false>, (anonymous namespace)::LdStPairFlags&, unsigned int, bool) AArch64LoadStoreOptimizer.cpp:0:0 llvm#10 0x0000b6eae74c85a8 (anonymous namespace)::AArch64LoadStoreOpt::tryToPairLdStInst(llvm::MachineInstrBundleIterator<llvm::MachineInstr, false>&) AArch64LoadStoreOptimizer.cpp:0:0 llvm#11 0x0000b6eae74c624c (anonymous namespace)::AArch64LoadStoreOpt::optimizeBlock(llvm::MachineBasicBlock&, bool) AArch64LoadStoreOptimizer.cpp:0:0 llvm#12 0x0000b6eae74c429c (anonymous namespace)::AArch64LoadStoreOpt::runOnMachineFunction(llvm::MachineFunction&) AArch64LoadStoreOptimizer.cpp:0:0 ```
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Apr 14, 2025
…vailable (llvm#135343) When a frame is inlined, LLDB will display its name in backtraces as follows: ``` * thread #1, queue = 'com.apple.main-thread', stop reason = breakpoint 1.3 * frame #0: 0x0000000100000398 a.out`func() [inlined] baz(x=10) at inline.cpp:1:42 frame #1: 0x0000000100000398 a.out`func() [inlined] bar() at inline.cpp:2:37 frame #2: 0x0000000100000398 a.out`func() at inline.cpp:4:15 frame #3: 0x00000001000003c0 a.out`main at inline.cpp:7:5 frame llvm#4: 0x000000026eb29ab8 dyld`start + 6812 ``` The longer the names get the more confusing this gets because the first function name that appears is the parent frame. My assumption (which may need some more surveying) is that for the majority of cases we only care about the actual frame name (not the parent). So this patch removes all the special logic that prints the parent frame. Another quirk of the current format is that the inlined frame name does not abide by the `${function.name-XXX}` format variables. We always just print the raw demangled name. With this patch, we would format the inlined frame name according to the `frame-format` setting (see the test-cases). If we really want to have the `parentFrame [inlined] inlinedFrame` format, we could expose it through a new `frame-format` variable (e..g., `${function.inlined-at-name}` and let the user decide where to place things.
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Apr 22, 2025
Currently, given:
```cpp
uint64_t incb(uint64_t x) {
return x+svcntb();
}
```
LLVM generates:
```gas
incb:
addvl x0, x0, #1
ret
```
Which is equivalent to:
```gas
incb:
incb x0
ret
```
However, on microarchitectures like the Neoverse V2 and Neoverse V3,
the second form (with INCB) can have significantly better latency and
throughput (according to their SWOG). On the Neoverse V2, for example,
ADDVL has a latency and throughput of 2, whereas some forms of INCB
have a latency of 1 and a throughput of 4. The same applies to DECB.
This patch adds patterns to prefer the cheaper INCB/DECB forms over
ADDVL where applicable.
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Apr 22, 2025
- Avoid dereferencing the end() iterator to get the end pointer, instead calculate it explicitly - Fixes a regression introduced in llvm#136220. - The windows build failure shows the following call stack: ``` | Exception Code: 0x80000003 | #0 0x00007ff74bc05897 std::_Vector_const_iterator<class std::_Vector_val<struct std::_Simple_types<unsigned char>>>::operator*(void) const C:\Program Files\Microsoft Visual Studio\2022\Professional\VC\Tools\MSVC\14.37.32822\include\vector:52:0 | #1 0x00007ff74bbd3d64 `anonymous namespace'::DecoderEmitter::emitTable D:\buildbot\llvm-worker\clang-cmake-x86_64-avx512-win\llvm\llvm\utils\TableGen\DecoderEmitter.cpp:852:0 ```
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May 1, 2025
… collection (llvm#136795) Fix a [test failure](llvm#136236 (comment)) in llvm#136236, apply a minor renaming of statistics, and remerge. See details below. # Changes in llvm#136236 Currently, `DebuggerStats::ReportStatistics()` calls `Module::GetSymtab(/*can_create=*/false)`, but then the latter calls `SymbolFile::GetSymtab()`. This will load symbols if haven't yet. See stacktrace below. The problem is that `DebuggerStats::ReportStatistics` should be read-only. This is especially important because it reports stats for symtab parsing/indexing time, which could be affected by the reporting itself if it's not read-only. This patch fixes this problem by adding an optional parameter `SymbolFile::GetSymtab(bool can_create = true)` and receiving the `false` value passed down from `Module::GetSymtab(/*can_create=*/false)` when the call is initiated from `DebuggerStats::ReportStatistics()`. --- Notes about the following stacktrace: 1. This can be reproduced. Create a helloworld program on **macOS** with dSYM, add `settings set target.preload-symbols false` to `~/.lldbinit`, do `lldb a.out`, then `statistics dump`. 2. `ObjectFile::GetSymtab` has `llvm::call_once`. So the fact that it called into `ObjectFileMachO::ParseSymtab` means that the symbol table is actually being parsed. ``` (lldb) bt * thread #1, queue = 'com.apple.main-thread', stop reason = step over frame #0: 0x0000000124c4d5a0 LLDB`ObjectFileMachO::ParseSymtab(this=0x0000000111504e40, symtab=0x0000600000a05e00) at ObjectFileMachO.cpp:2259:44 * frame #1: 0x0000000124fc50a0 LLDB`lldb_private::ObjectFile::GetSymtab()::$_0::operator()(this=0x000000016d35c858) const at ObjectFile.cpp:761:9 frame llvm#5: 0x0000000124fc4e68 LLDB`void std::__1::__call_once_proxy[abi:v160006]<std::__1::tuple<lldb_private::ObjectFile::GetSymtab()::$_0&&>>(__vp=0x000000016d35c7f0) at mutex:652:5 frame llvm#6: 0x0000000198afb99c libc++.1.dylib`std::__1::__call_once(unsigned long volatile&, void*, void (*)(void*)) + 196 frame llvm#7: 0x0000000124fc4dd0 LLDB`void std::__1::call_once[abi:v160006]<lldb_private::ObjectFile::GetSymtab()::$_0>(__flag=0x0000600003920080, __func=0x000000016d35c858) at mutex:670:9 frame llvm#8: 0x0000000124fc3cb0 LLDB`void llvm::call_once<lldb_private::ObjectFile::GetSymtab()::$_0>(flag=0x0000600003920080, F=0x000000016d35c858) at Threading.h:88:5 frame llvm#9: 0x0000000124fc2bc4 LLDB`lldb_private::ObjectFile::GetSymtab(this=0x0000000111504e40) at ObjectFile.cpp:755:5 frame llvm#10: 0x0000000124fe0a28 LLDB`lldb_private::SymbolFileCommon::GetSymtab(this=0x0000000104865200) at SymbolFile.cpp:158:39 frame llvm#11: 0x0000000124d8fedc LLDB`lldb_private::Module::GetSymtab(this=0x00000001113041a8, can_create=false) at Module.cpp:1027:21 frame llvm#12: 0x0000000125125bdc LLDB`lldb_private::DebuggerStats::ReportStatistics(debugger=0x000000014284d400, target=0x0000000115808200, options=0x000000014195d6d1) at Statistics.cpp:329:30 frame llvm#13: 0x0000000125672978 LLDB`CommandObjectStatsDump::DoExecute(this=0x000000014195d540, command=0x000000016d35d820, result=0x000000016d35e150) at CommandObjectStats.cpp:144:18 frame llvm#14: 0x0000000124f29b40 LLDB`lldb_private::CommandObjectParsed::Execute(this=0x000000014195d540, args_string="", result=0x000000016d35e150) at CommandObject.cpp:832:9 frame llvm#15: 0x0000000124efbd70 LLDB`lldb_private::CommandInterpreter::HandleCommand(this=0x0000000141b22f30, command_line="statistics dump", lazy_add_to_history=eLazyBoolCalculate, result=0x000000016d35e150, force_repeat_command=false) at CommandInterpreter.cpp:2134:14 frame llvm#16: 0x0000000124f007f4 LLDB`lldb_private::CommandInterpreter::IOHandlerInputComplete(this=0x0000000141b22f30, io_handler=0x00000001419b2aa8, line="statistics dump") at CommandInterpreter.cpp:3251:3 frame llvm#17: 0x0000000124d7b5ec LLDB`lldb_private::IOHandlerEditline::Run(this=0x00000001419b2aa8) at IOHandler.cpp:588:22 frame llvm#18: 0x0000000124d1e8fc LLDB`lldb_private::Debugger::RunIOHandlers(this=0x000000014284d400) at Debugger.cpp:1225:16 frame llvm#19: 0x0000000124f01f74 LLDB`lldb_private::CommandInterpreter::RunCommandInterpreter(this=0x0000000141b22f30, options=0x000000016d35e63c) at CommandInterpreter.cpp:3543:16 frame llvm#20: 0x0000000122840294 LLDB`lldb::SBDebugger::RunCommandInterpreter(this=0x000000016d35ebd8, auto_handle_events=true, spawn_thread=false) at SBDebugger.cpp:1212:42 frame llvm#21: 0x0000000102aa6d28 lldb`Driver::MainLoop(this=0x000000016d35ebb8) at Driver.cpp:621:18 frame llvm#22: 0x0000000102aa75b0 lldb`main(argc=1, argv=0x000000016d35f548) at Driver.cpp:829:26 frame llvm#23: 0x0000000198858274 dyld`start + 2840 ``` # Changes in this PR top of the above Fix a [test failure](llvm#136236 (comment)) in `TestStats.py`. The original version of the added test checks that all modules have symbol count zero when `target.preload-symbols == false`. The test failed on macOS. Due to various reasons, on macOS, symbols can be loaded for dylibs even with that setting, but not for the main module. For now, the fix of the test is to limit the assertion to only the main module. The test now passes on macOS. In the future, when we have a way to control a specific list of plug-ins to be loaded, there may be a configuration that this test can use to assert that all modules have symbol count zero. Apply a minor renaming of statistics, per the [suggestion](llvm#136226 (comment)) in llvm#136226 after merge.
jzc
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May 1, 2025
…mbolConjured" (llvm#137304) Reverts llvm#128251 ASAN bots reported some errors: https://lab.llvm.org/buildbot/#/builders/55/builds/10398 Reverting for investigation. ``` Failed Tests (6): Clang :: Analysis/loop-widening-ignore-static-methods.cpp Clang :: Analysis/loop-widening-notes.cpp Clang :: Analysis/loop-widening-preserve-reference-type.cpp Clang :: Analysis/loop-widening.c Clang :: Analysis/loop-widening.cpp Clang :: Analysis/this-pointer.cpp Testing Time: 411.55s Total Discovered Tests: 118563 Skipped : 33 (0.03%) Unsupported : 2015 (1.70%) Passed : 116291 (98.08%) Expectedly Failed: 218 (0.18%) Failed : 6 (0.01%) FAILED: CMakeFiles/check-all /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/CMakeFiles/check-all cd /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan && /usr/bin/python3 /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/./bin/llvm-lit -sv --param USE_Z3_SOLVER=0 /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/utils/mlgo-utils /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/tools/lld/test /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/tools/mlir/test /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/tools/clang/test /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/utils/lit /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/test ninja: build stopped: subcommand failed. ``` ``` /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/bin/clang -cc1 -internal-isystem /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/lib/clang/21/include -nostdsysteminc -analyze -analyzer-constraints=range -setup-static-analyzer -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-max-loop 4 -analyzer-config widen-loops=true -verify -analyzer-config eagerly-assume=false /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/test/Analysis/loop-widening.c # RUN: at line 1 + /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/bin/clang -cc1 -internal-isystem /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/lib/clang/21/include -nostdsysteminc -analyze -analyzer-constraints=range -setup-static-analyzer -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-max-loop 4 -analyzer-config widen-loops=true -verify -analyzer-config eagerly-assume=false /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/test/Analysis/loop-widening.c PLEASE submit a bug report to https://github.com/llvm/llvm-project/issues/ and include the crash backtrace, preprocessed source, and associated run script. Stack dump: 0. Program arguments: /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/bin/clang -cc1 -internal-isystem /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/lib/clang/21/include -nostdsysteminc -analyze -analyzer-constraints=range -setup-static-analyzer -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-max-loop 4 -analyzer-config widen-loops=true -verify -analyzer-config eagerly-assume=false /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/test/Analysis/loop-widening.c 1. <eof> parser at end of file 2. While analyzing stack: #0 Calling nested_loop_inner_widen #0 0x0000c894cca289cc llvm::sys::PrintStackTrace(llvm::raw_ostream&, int) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/lib/Support/Unix/Signals.inc:804:13 #1 0x0000c894cca23324 llvm::sys::RunSignalHandlers() /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/lib/Support/Signals.cpp:106:18 #2 0x0000c894cca29bbc SignalHandler(int, siginfo_t*, void*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/lib/Support/Unix/Signals.inc:0:3 #3 0x0000f6898da4a8f8 (linux-vdso.so.1+0x8f8) llvm#4 0x0000f6898d377608 (/lib/aarch64-linux-gnu/libc.so.6+0x87608) llvm#5 0x0000f6898d32cb3c raise (/lib/aarch64-linux-gnu/libc.so.6+0x3cb3c) llvm#6 0x0000f6898d317e00 abort (/lib/aarch64-linux-gnu/libc.so.6+0x27e00) llvm#7 0x0000c894c5e77fec __sanitizer::Atexit(void (*)()) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/sanitizer_common/sanitizer_posix_libcdep.cpp:168:10 llvm#8 0x0000c894c5e76680 __sanitizer::Die() /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/sanitizer_common/sanitizer_termination.cpp:52:5 llvm#9 0x0000c894c5e69650 Unlock /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/../sanitizer_common/sanitizer_mutex.h:250:16 llvm#10 0x0000c894c5e69650 ~GenericScopedLock /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/../sanitizer_common/sanitizer_mutex.h:386:51 llvm#11 0x0000c894c5e69650 __hwasan::ScopedReport::~ScopedReport() /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/hwasan_report.cpp:54:5 llvm#12 0x0000c894c5e68de0 __hwasan::(anonymous namespace)::BaseReport::~BaseReport() /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/hwasan_report.cpp:476:7 llvm#13 0x0000c894c5e66b74 __hwasan::ReportTagMismatch(__sanitizer::StackTrace*, unsigned long, unsigned long, bool, bool, unsigned long*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/hwasan_report.cpp:1091:1 llvm#14 0x0000c894c5e52cf8 Destroy /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/../sanitizer_common/sanitizer_common.h:532:31 llvm#15 0x0000c894c5e52cf8 ~InternalMmapVector /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/../sanitizer_common/sanitizer_common.h:642:56 llvm#16 0x0000c894c5e52cf8 __hwasan::HandleTagMismatch(__hwasan::AccessInfo, unsigned long, unsigned long, void*, unsigned long*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/hwasan.cpp:245:1 llvm#17 0x0000c894c5e551c8 __hwasan_tag_mismatch4 /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/hwasan/hwasan.cpp:764:1 llvm#18 0x0000c894c5e6a2f8 __interception::InterceptFunction(char const*, unsigned long*, unsigned long, unsigned long) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/compiler-rt/lib/interception/interception_linux.cpp:60:0 llvm#19 0x0000c894d166f664 getBlock /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/include/clang/StaticAnalyzer/Core/PathSensitive/CoreEngine.h:217:45 llvm#20 0x0000c894d166f664 getCFGElementRef /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/include/clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h:230:59 llvm#21 0x0000c894d166f664 clang::ento::ExprEngine::processCFGBlockEntrance(clang::BlockEdge const&, clang::ento::NodeBuilderWithSinks&, clang::ento::ExplodedNode*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Core/ExprEngine.cpp:2570:45 llvm#22 0x0000c894d15f3a1c hasGeneratedNodes /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/include/clang/StaticAnalyzer/Core/PathSensitive/CoreEngine.h:333:37 llvm#23 0x0000c894d15f3a1c clang::ento::CoreEngine::HandleBlockEdge(clang::BlockEdge const&, clang::ento::ExplodedNode*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Core/CoreEngine.cpp:319:20 llvm#24 0x0000c894d15f2c34 clang::ento::CoreEngine::dispatchWorkItem(clang::ento::ExplodedNode*, clang::ProgramPoint, clang::ento::WorkListUnit const&) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Core/CoreEngine.cpp:220:7 llvm#25 0x0000c894d15f2398 operator-> /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/libcxx_install_hwasan/include/c++/v1/__memory/unique_ptr.h:267:101 llvm#26 0x0000c894d15f2398 clang::ento::CoreEngine::ExecuteWorkList(clang::LocationContext const*, unsigned int, llvm::IntrusiveRefCntPtr<clang::ento::ProgramState const>)::$_0::operator()(unsigned int) const /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Core/CoreEngine.cpp:140:12 llvm#27 0x0000c894d15f14b4 clang::ento::CoreEngine::ExecuteWorkList(clang::LocationContext const*, unsigned int, llvm::IntrusiveRefCntPtr<clang::ento::ProgramState const>) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Core/CoreEngine.cpp:165:7 llvm#28 0x0000c894d0ebb9dc release /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/include/llvm/ADT/IntrusiveRefCntPtr.h:232:9 llvm#29 0x0000c894d0ebb9dc ~IntrusiveRefCntPtr /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/include/llvm/ADT/IntrusiveRefCntPtr.h:196:27 llvm#30 0x0000c894d0ebb9dc ExecuteWorkList /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/include/clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h:192:5 llvm#31 0x0000c894d0ebb9dc RunPathSensitiveChecks /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Frontend/AnalysisConsumer.cpp:772:7 llvm#32 0x0000c894d0ebb9dc (anonymous namespace)::AnalysisConsumer::HandleCode(clang::Decl*, unsigned int, clang::ento::ExprEngine::InliningModes, llvm::DenseSet<clang::Decl const*, llvm::DenseMapInfo<clang::Decl const*, void>>*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Frontend/AnalysisConsumer.cpp:741:5 llvm#33 0x0000c894d0eb6ee4 begin /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/include/llvm/ADT/DenseMap.h:0:0 llvm#34 0x0000c894d0eb6ee4 begin /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/include/llvm/ADT/DenseSet.h:187:45 llvm#35 0x0000c894d0eb6ee4 HandleDeclsCallGraph /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Frontend/AnalysisConsumer.cpp:516:29 llvm#36 0x0000c894d0eb6ee4 runAnalysisOnTranslationUnit /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Frontend/AnalysisConsumer.cpp:584:5 llvm#37 0x0000c894d0eb6ee4 (anonymous namespace)::AnalysisConsumer::HandleTranslationUnit(clang::ASTContext&) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/StaticAnalyzer/Frontend/AnalysisConsumer.cpp:647:3 llvm#38 0x0000c894d18a7a38 clang::ParseAST(clang::Sema&, bool, bool) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/Parse/ParseAST.cpp:0:13 llvm#39 0x0000c894ce81ed70 clang::FrontendAction::Execute() /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/Frontend/FrontendAction.cpp:1231:10 llvm#40 0x0000c894ce6f2144 getPtr /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/include/llvm/Support/Error.h:278:42 llvm#41 0x0000c894ce6f2144 operator bool /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/llvm/include/llvm/Support/Error.h:241:16 llvm#42 0x0000c894ce6f2144 clang::CompilerInstance::ExecuteAction(clang::FrontendAction&) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/Frontend/CompilerInstance.cpp:1058:23 llvm#43 0x0000c894cea718cc operator-> /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/libcxx_install_hwasan/include/c++/v1/__memory/shared_ptr.h:635:12 llvm#44 0x0000c894cea718cc getFrontendOpts /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/include/clang/Frontend/CompilerInstance.h:307:12 llvm#45 0x0000c894cea718cc clang::ExecuteCompilerInvocation(clang::CompilerInstance*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/lib/FrontendTool/ExecuteCompilerInvocation.cpp:301:14 llvm#46 0x0000c894c5e9cf28 cc1_main(llvm::ArrayRef<char const*>, char const*, void*) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/tools/driver/cc1_main.cpp:294:15 llvm#47 0x0000c894c5e92a9c ExecuteCC1Tool(llvm::SmallVectorImpl<char const*>&, llvm::ToolContext const&) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/tools/driver/driver.cpp:223:12 llvm#48 0x0000c894c5e902ac clang_main(int, char**, llvm::ToolContext const&) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/tools/driver/driver.cpp:0:12 llvm#49 0x0000c894c5eb2e34 main /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/tools/clang/tools/driver/clang-driver.cpp:17:3 llvm#50 0x0000f6898d3184c4 (/lib/aarch64-linux-gnu/libc.so.6+0x284c4) llvm#51 0x0000f6898d318598 __libc_start_main (/lib/aarch64-linux-gnu/libc.so.6+0x28598) llvm#52 0x0000c894c5e52a30 _start (/home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/bin/clang+0x6512a30) /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/tools/clang/test/Analysis/Output/loop-widening.c.script: line 2: 2870204 Aborted /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/bin/clang -cc1 -internal-isystem /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm_build_hwasan/lib/clang/21/include -nostdsysteminc -analyze -analyzer-constraints=range -setup-static-analyzer -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-max-loop 4 -analyzer-config widen-loops=true -verify -analyzer-config eagerly-assume=false /home/b/sanitizer-aarch64-linux-bootstrap-hwasan/build/llvm-project/clang/test/Analysis/loop-widening.c ```
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May 1, 2025
`clang-repl --cuda` was previously crashing with a segmentation fault, instead of reporting a clean error ``` (base) anutosh491@Anutoshs-MacBook-Air bin % ./clang-repl --cuda #0 0x0000000111da4fbc llvm::sys::PrintStackTrace(llvm::raw_ostream&, int) (/opt/local/libexec/llvm-20/lib/libLLVM.dylib+0x150fbc) #1 0x0000000111da31dc llvm::sys::RunSignalHandlers() (/opt/local/libexec/llvm-20/lib/libLLVM.dylib+0x14f1dc) #2 0x0000000111da5628 SignalHandler(int) (/opt/local/libexec/llvm-20/lib/libLLVM.dylib+0x151628) #3 0x000000019b242de4 (/usr/lib/system/libsystem_platform.dylib+0x180482de4) llvm#4 0x0000000107f638d0 clang::IncrementalCUDADeviceParser::IncrementalCUDADeviceParser(std::__1::unique_ptr<clang::CompilerInstance, std::__1::default_delete<clang::CompilerInstance>>, clang::CompilerInstance&, llvm::IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem>, llvm::Error&, std::__1::list<clang::PartialTranslationUnit, std::__1::allocator<clang::PartialTranslationUnit>> const&) (/opt/local/libexec/llvm-20/lib/libclang-cpp.dylib+0x216b8d0) llvm#5 0x0000000107f638d0 clang::IncrementalCUDADeviceParser::IncrementalCUDADeviceParser(std::__1::unique_ptr<clang::CompilerInstance, std::__1::default_delete<clang::CompilerInstance>>, clang::CompilerInstance&, llvm::IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem>, llvm::Error&, std::__1::list<clang::PartialTranslationUnit, std::__1::allocator<clang::PartialTranslationUnit>> const&) (/opt/local/libexec/llvm-20/lib/libclang-cpp.dylib+0x216b8d0) llvm#6 0x0000000107f6bac8 clang::Interpreter::createWithCUDA(std::__1::unique_ptr<clang::CompilerInstance, std::__1::default_delete<clang::CompilerInstance>>, std::__1::unique_ptr<clang::CompilerInstance, std::__1::default_delete<clang::CompilerInstance>>) (/opt/local/libexec/llvm-20/lib/libclang-cpp.dylib+0x2173ac8) llvm#7 0x000000010206f8a8 main (/opt/local/libexec/llvm-20/bin/clang-repl+0x1000038a8) llvm#8 0x000000019ae8c274 Segmentation fault: 11 ``` The underlying issue was that the `DeviceCompilerInstance` (used for device-side CUDA compilation) was never initialized with a `Sema`, which is required before constructing the `IncrementalCUDADeviceParser`. https://github.com/llvm/llvm-project/blob/89687e6f383b742a3c6542dc673a84d9f82d02de/clang/lib/Interpreter/DeviceOffload.cpp#L32 https://github.com/llvm/llvm-project/blob/89687e6f383b742a3c6542dc673a84d9f82d02de/clang/lib/Interpreter/IncrementalParser.cpp#L31 Unlike the host-side `CompilerInstance` which runs `ExecuteAction` inside the Interpreter constructor (thereby setting up Sema), the device-side CI was passed into the parser uninitialized, leading to an assertion or crash when accessing its internals. To fix this, I refactored the `Interpreter::create` method to include an optional `DeviceCI` parameter. If provided, we know we need to take care of this instance too. Only then do we construct the `IncrementalCUDADeviceParser`.
jzc
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May 1, 2025
This were failing on Windows CI with errors like: ``` 22: (lldb) bt 23: * thread #1, stop reason = breakpoint 1.1 24: frame #0: 0x00007ff7c5e41000 TestFrameFormatFunctionFormattedArgumentsObjC.test.tmp.objc.out`func at main.m:2 25: frame #1: 0x00007ff7c5e4101c TestFrameFormatFunctionFormattedArgumentsObjC.test.tmp.objc.out`bar + 12 at main.m:3 26: frame #2: 0x00007ff7c5e4103c TestFrameFormatFunctionFormattedArgumentsObjC.test.tmp.objc.out`main + 16 at main.m:5 27: custom-frame '()' !~~~~~~~~~~~ error: no match expected 28: custom-frame '(__formal=<unavailable>)' ```
jzc
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May 1, 2025
… without debug-info" (llvm#137757) Reverts llvm#137408 This change broke `lldb/test/Shell/Unwind/split-machine-functions.test`. The test binary has a symbol named `_Z3foov.cold` and the test expects the backtrace to print the name of the cold part of the function like this: ``` # SPLIT: frame #1: {{.*}}`foo() (.cold) + ``` but now it gets ``` frame #1: 0x000055555555514f split-machine-functions.test.tmp`foo() + 12 ```
jzc
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May 5, 2025
…gger memory is updated (llvm#129092)" This reverts commit daa4061. Original PR llvm#129092. I have restricted the test to X86 Windows because it turns out the only reason that `expr x.get()` would change m_memory_id is that on x86 we have to write the return address to the stack in ABIWindows_X86_64::PrepareTrivialCall: ``` // Save return address onto the stack if (!process_sp->WritePointerToMemory(sp, return_addr, error)) return false; ``` This is not required on AArch64 so m_memory_id was not changed: ``` (lldb) expr x.get() (int) $0 = 0 (lldb) process status -d Process 15316 stopped * thread #1, stop reason = Exception 0x80000003 encountered at address 0x7ff764a31034 frame #0: 0x00007ff764a31038 TestProcessModificationIdOnExpr.cpp.tmp`main at TestProcessModificationIdOnExpr.cpp:35 32 __builtin_debugtrap(); 33 __builtin_debugtrap(); 34 return 0; -> 35 } 36 37 // CHECK-LABEL: process status -d 38 // CHECK: m_stop_id: 2 ProcessModID: m_stop_id: 3 m_last_natural_stop_id: 0 m_resume_id: 0 m_memory_id: 0 ``` Really we should find a better way to force a memory write here, but I can't think of one right now.
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