LLVM 15.0.7 Release Notes¶
Introduction¶
This document contains the release notes for the LLVM Compiler Infrastructure, release 15.0.7. Here we describe the status of LLVM, including major improvements from the previous release, improvements in various subprojects of LLVM, and some of the current users of the code. All LLVM releases may be downloaded from the LLVM releases web site.
For more information about LLVM, including information about the latest release, please check out the main LLVM web site. If you have questions or comments, the LLVM Developer’s Mailing List is a good place to send them.
Note that if you are reading this file from a Git checkout or the main LLVM web page, this document applies to the next release, not the current one. To see the release notes for a specific release, please see the releases page.
Non-comprehensive list of changes in this release¶
…
Update on required toolchains to build LLVM¶
With LLVM 15.x we will raise the version requirements of the toolchain used to build LLVM. The new requirements are as follows:
GCC >= 7.1
Clang >= 5.0
Apple Clang >= 9.3
Visual Studio 2019 >= 16.7
In LLVM 15.x these requirements will be “soft” requirements and the version
check can be skipped by passing -DLLVM_TEMPORARILY_ALLOW_OLD_TOOLCHAIN=ON
to CMake.
With the release of LLVM 16.x these requirements will be hard and LLVM developers can start using C++17 features, making it impossible to build with older versions of these toolchains.
Changes to the LLVM IR¶
LLVM now uses opaque pointers. This means that different pointer types like
i8*
,i32*
orvoid()**
are now represented as a singleptr
type. See the linked document for migration instructions.Renamed
llvm.experimental.vector.extract
intrinsic tollvm.vector.extract
.Renamed
llvm.experimental.vector.insert
intrinsic tollvm.vector.insert
.The constant expression variants of the following instructions have been removed:
extractvalue
insertvalue
udiv
sdiv
urem
srem
fadd
fsub
fmul
fdiv
frem
Added the support for
fmax
andfmin
inatomicrmw
instruction. The comparison is expected to match the behavior ofllvm.maxnum.*
andllvm.minnum.*
respectively.callbr
instructions no longer useblockaddress
arguments for labels. Instead, label constraints starting with!
refer directly to entries in thecallbr
indirect destination list.
; Old representation
%res = callbr i32 asm "", "=r,r,i"(i32 %x, i8 *blockaddress(@foo, %indirect))
to label %fallthrough [label %indirect]
; New representation
%res = callbr i32 asm "", "=r,r,!i"(i32 %x)
to label %fallthrough [label %indirect]
Changes to building LLVM¶
Omitting
CMAKE_BUILD_TYPE
when using a single configuration generator is now an error. You now have to pass-DCMAKE_BUILD_TYPE=<type>
in order to configure LLVM. This is done to help new users of LLVM select the correct type: since building LLVM in Debug mode is very resource intensive, we want to make sure that new users make the choice that lines up with their usage. We have also improved documentation around this setting that should help new users. You can find this documentation here.
Changes to TableGen¶
Changes to Loop Optimizations¶
Loop interchange legality and cost model improvements
Changes to the AArch64 Backend¶
Changes to the AMDGPU Backend¶
8 and 16-bit atomic loads and stores are now supported
Changes to the ARM Backend¶
Added support for the Armv9-A, Armv9.1-A and Armv9.2-A architectures.
Added support for the Armv8.1-M PACBTI-M extension.
Added support for the Armv9-A, Armv9.1-A and Armv9.2-A architectures.
Added support for the Armv8.1-M PACBTI-M extension.
Removed the deprecation of ARMv8-A T32 Complex IT blocks. No deprecation warnings will be generated and -mrestrict-it is now always off by default. Previously it was on by default for Armv8 and off for all other architecture versions.
Added a pass to workaround Cortex-A57 Erratum 1742098 and Cortex-A72 Erratum 1655431. This is enabled by default when targeting either CPU.
Implemented generation of Windows SEH unwind information.
Switched the MinGW target to use SEH instead of DWARF for unwind information.
Added support for the Cortex-M85 CPU.
Added support for a new
-mframe-chain=(none|aapcs|aapcs+leaf)
command-line option, which controls the generation of AAPCS-compliant Frame Records.
Changes to the AVR Backend¶
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Changes to the DirectX Backend¶
DirectX has been added as an experimental target. Specify
-DLLVM_EXPERIMENTAL_TARGETS_TO_BUILD=DirectX
in your CMake configuration to enable it. The target is not packaged in pre-built binaries.The DirectX backend supports the
dxil
architecture which is based on LLVM 3.6 IR encoded as bitcode and is the format used for DirectX GPU Shader programs.
Changes to the Hexagon Backend¶
…
Changes to the MIPS Backend¶
…
Changes to the PowerPC Backend¶
Common PowerPC improvements: * Add a new post instruction selection pass to generate CTR loops. * Add SSE4 and BMI compatible intrinsics implementation. * Supported 16-byte lock free atomics on PowerPC8 and up. * Supported atomic load/store for pointer types. * Supported stack size larger than 2G * Add __builtin_min/__builtin_max/__abs builtins. * Code generation improvements for splat load/vector shuffle/mulli, etc. * Emit VSX instructions for vector loads and stores regardless of alignment. * The mcpu=future has its own ISA now (FutureISA). * Added the ppc-set-dscr option to set the Data Stream Control Register (DSCR). * Bug fixes.
AIX improvements: * Supported 64 bit XCOFF for integrated-as path. * Supported X86-compatible vector intrinsics. * Program code csect default alignment now is 32-byte. * Supported auxiliary header in integrated-as path. * Improved alias symbol handling.
Changes to the RISC-V Backend¶
A RISCVRedundantCopyElimination pass was added to remove unnecessary zero copies.
A RISC-V specific CodeGenPrepare pass was added.
The machine outliner was enabled by default for RISC-V at
-Oz
. Additionally, the newly introduced RISCVMakeCompressible pass will make modify instructions prior to emission at-Oz
in order to increase opportunities for the compression with the RISC-V C extension.Various bug fixes and improvements to code generation for the RISC-V vector extensions.
Various improvements were made to RISC-V specific optimisation passes such as RISCVSExtWRemoval and RISCVMergeBaseOffset.
llc now computes the target ABI based on the target architecture using the same logic as Clang if not explicit ABI is given.
generic
is now recognized as a valid CPU name and is mapped togeneric-rv32
orgeneric-rv64
depending on the target triple.Support for the experimental Zvfh extension was added, enabling half-precision floating point in vectors.
Support for the Zihintpause (Pause Hint) extension.
Assembler and disassembler support for the Zfinx and Zdinx (float / double in integer register) extensions.
Assembler and disassembler support for the Zicbom, Zicboz, and Zicbop cache management operation extensions.
Support for the Zmmul extension (a subextension of the M extension, adding multiplication instructions only).
Assembler and disassembler support for the hypervisor extension and for the Sinval supervisor memory-management extension.
Changes to the WebAssembly Backend¶
…
Changes to the SystemZ Backend¶
Support z16 processor name.
Machine scheduler description for z16.
Add support for inline assembly address operands (“p”) as well as for SystemZ specific address operands (“ZQ”, “ZR”, “ZS” and “ZT”).
Efficient handling of small memcpy/memset operations up to 32 bytes.
Tuning of the inliner.
Fixing emission of library calls so that narrow integer arguments are sign or zero extended per the SystemZ ABI.
Support added for libunwind.
Various minor improvements and bugfixes.
Changes to the X86 Backend¶
Support
half
type on SSE2 and above targets following X86 psABI.Support
rdpru
instruction on Zen2 and above targets.
During this release, half
type has an ABI breaking change to provide the
support for the ABI of _Float16
type on SSE2 and above following X86 psABI.
(D107082)
The change may affect the current use of half
includes (but is not limited
to):
Frontends generating
half
type in function passing and/or returning arguments.Downstream runtimes providing any
half
conversion builtins assuming the old ABI.Projects built with LLVM 15.0 but using early versions of compiler-rt.
When you find failures with half
type, check the calling conversion of the
code and switch it to the new ABI.
Changes to the OCaml bindings¶
Changes to the C API¶
Add
LLVMGetCastOpcode
function to aid users ofLLVMBuildCast
in resolving the best cast operation given a source value and destination type. This function is a direct wrapper ofCastInst::getCastOpcode
.Add
LLVMGetAggregateElement
function as a wrapper forConstant::getAggregateElement
, which can be used to fetch an element of a constant struct, array or vector, independently of the underlying representation. TheLLVMGetElementAsConstant
function is deprecated in favor of the new function, which works on all constant aggregates, rather than only instances ofConstantDataSequential
.The following functions for creating constant expressions have been removed, because the underlying constant expressions are no longer supported. Instead, an instruction should be created using the
LLVMBuildXYZ
APIs, which will constant fold the operands if possible and create an instruction otherwise:LLVMConstExtractValue
LLVMConstInsertValue
LLVMConstUDiv
LLVMConstExactUDiv
LLVMConstSDiv
LLVMConstExactSDiv
LLVMConstURem
LLVMConstSRem
LLVMConstFAdd
LLVMConstFSub
LLVMConstFMul
LLVMConstFDiv
LLVMConstFRem
Add
LLVMDeleteInstruction
function which allows deleting instructions that are not inserted into a basic block.As part of the opaque pointer migration, the following APIs are deprecated and will be removed in the next release:
LLVMBuildLoad
->LLVMBuildLoad2
LLVMBuildCall
->LLVMBuildCall2
LLVMBuildInvoke
->LLVMBuildInvoke2
LLVMBuildGEP
->LLVMBuildGEP2
LLVMBuildInBoundsGEP
->LLVMBuildInBoundsGEP2
LLVMBuildStructGEP
->LLVMBuildStructGEP2
LLVMBuildPtrDiff
->LLVMBuildPtrDiff2
LLVMConstGEP
->LLVMConstGEP2
LLVMConstInBoundsGEP
->LLVMConstInBoundsGEP2
LLVMAddAlias
->LLVMAddAlias2
Refactor compression namespaces across the project, making way for a possible introduction of alternatives to zlib compression in the llvm toolchain. Changes are as follows:
Relocate the
llvm::zlib
namespace tollvm::compression::zlib
.Remove crc32 from zlib compression namespace, people should use the
llvm::crc32
instead.
Changes to the Go bindings¶
Changes to the FastISel infrastructure¶
…
Changes to the DAG infrastructure¶
Changes to the Metadata Info¶
Add Module Flags Metadata
stack-protector-guard-symbol
which specify a symbol for addressing the stack-protector guard.
Changes to the Debug Info¶
During this release …
Changes to the LLVM tools¶
(Experimental) llvm-symbolizer now has
--filter-markup
to filter Symbolizer Markup into human-readable form.llvm-objcopy has removed support for the legacy
zlib-gnu
format.llvm-objcopy now allows
--set-section-flags src=... --rename-section src=tst
.--add-section=.foo1=... --rename-section=.foo1=.foo2
now adds.foo1
instead of.foo2
.New features supported on AIX for
llvm-ar
:New options supported for
llvm-nm
:The LLVM gold plugin now ignores bitcode from the
.llvmbc
section of ELF files when doing LTO. https://github.com/llvm/llvm-project/issues/47216llvm-objcopy now supports 32 bit XCOFF.
llvm-objdump: improved assembly printing for XCOFF.
llc now parses code-model attribute from input file.
Changes to LLDB¶
The “memory region” command now has a “–all” option to list all memory regions (including unmapped ranges). This is the equivalent of using address 0 then repeating the command until all regions have been listed.
Added “–show-tags” option to the “memory find” command. This is off by default. When enabled, if the target value is found in tagged memory, the tags for that memory will be shown inline with the memory contents.
Various memory related parts of LLDB have been updated to handle non-address bits (such as AArch64 pointer signatures):
“memory read”, “memory write” and “memory find” can now be used with addresses with non-address bits.
All the read and write memory methods on SBProccess and SBTarget can be used with addreses with non-address bits.
When printing a pointer expression, LLDB can now dereference the result even if it has non-address bits.
The memory cache now ignores non-address bits when looking up memory locations. This prevents us reading locations multiple times, or not writing out new values if the addresses have different non-address bits.
LLDB now supports reading memory tags from AArch64 Linux core files.
LLDB now supports the gnu debuglink section for reading debug information from a separate file on Windows
LLDB now allows selecting the C++ ABI to use on Windows (between Itanium, used for MingW, and MSVC) via the
plugin.object-file.pe-coff.abi
setting. In Windows builds of LLDB, this defaults to the style used for LLVM’s default target.
Changes to Sanitizers¶
Other Changes¶
The code for the LLVM Visual Studio integration has been removed. This had been obsolete and abandoned since Visual Studio started including an integration by default in 2019.
Added the unwinder, personality, and helper functions for exception handling on AIX. (D100132) (D100504)
PGO on AIX: A new implementation that requires linker support (__start_SECTION/__stop_SECTION symbols) available on AIX 7.2 TL5 SP4 and AIX 7.3 TL0 SP2.
External Open Source Projects Using LLVM 15¶
A project…
Additional Information¶
A wide variety of additional information is available on the LLVM web page, in particular in the documentation section. The web page also contains versions of the
API documentation which is up-to-date with the Git version of the source
code. You can access versions of these documents specific to this release by
going into the llvm/docs/
directory in the LLVM tree.
If you have any questions or comments about LLVM, please feel free to contact us via the mailing lists.