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android / platform / external / opencl / llvm-project / ba8077c9ddee
commitba8077c9ddeeb7c8fb6e929f655fa686561a8f6d[log] [tgz]
authorSlava Zakharin <szakharin@nvidia.com>Fri Jun 06 10:45:38 2025 -0700
committerGitHub <noreply@github.com>Fri Jun 06 10:45:38 2025 -0700
treede729258acc688492caad92fe7f01c5e5233bad1
parente16f603351b6d4af93f1e1a1e0b87f0d3bf2f38a [diff]
[flang] Use optimal shape for assign expansion as a loop. (#143050)

During `hlfir.assign` inlining and `ElementalAssignBufferization`
we can deduce the optimal shape from `lhs` and `rhs` shapes.
It is probably better be done in a separate pass that propagates
constant shapes, but I have not seen any benchmarks that would
benefit from this yet. So consider this as a workaround for a bigger
TODO issue.

The `ElementalAssignBufferization` case is from 465.tonto,
but I do not have performance results yet (I do not expect much).
4 files changed
tree: de729258acc688492caad92fe7f01c5e5233bad1
  1. .ci/
  2. .github/
  3. bolt/
  4. clang/
  5. clang-tools-extra/
  6. cmake/
  7. compiler-rt/
  8. cross-project-tests/
  9. flang/
  10. flang-rt/
  11. libc/
  12. libclc/
  13. libcxx/
  14. libcxxabi/
  15. libunwind/
  16. lld/
  17. lldb/
  18. llvm/
  19. llvm-libgcc/
  20. mlir/
  21. offload/
  22. openmp/
  23. polly/
  24. pstl/
  25. runtimes/
  26. third-party/
  27. utils/
  28. .clang-format
  29. .clang-format-ignore
  30. .clang-tidy
  31. .git-blame-ignore-revs
  32. .gitattributes
  33. .gitignore
  34. .mailmap
  35. CODE_OF_CONDUCT.md
  36. CONTRIBUTING.md
  37. LICENSE.TXT
  38. pyproject.toml
  39. README.md
  40. SECURITY.md
README.md

The LLVM Compiler Infrastructure

OpenSSF Scorecard OpenSSF Best Practices libc++

Welcome to the LLVM project!

This repository contains the source code for LLVM, a toolkit for the construction of highly optimized compilers, optimizers, and run-time environments.

The LLVM project has multiple components. The core of the project is itself called “LLVM”. This contains all of the tools, libraries, and header files needed to process intermediate representations and convert them into object files. Tools include an assembler, disassembler, bitcode analyzer, and bitcode optimizer.

C-like languages use the Clang frontend. This component compiles C, C++, Objective-C, and Objective-C++ code into LLVM bitcode -- and from there into object files, using LLVM.

Other components include: the libc++ C++ standard library, the LLD linker, and more.

Getting the Source Code and Building LLVM

Consult the Getting Started with LLVM page for information on building and running LLVM.

For information on how to contribute to the LLVM project, please take a look at the Contributing to LLVM guide.

Getting in touch

Join the LLVM Discourse forums, Discord chat, LLVM Office Hours or Regular sync-ups.

The LLVM project has adopted a code of conduct for participants to all modes of communication within the project.