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[CIR] Add static_local attribute to GlobalOp and GetGlobalOp

This attribute marks function-local static variables that require
guarded initialization (e.g., C++ static local variables with
non-constant initializers). It is used by CIRGen to communicate
to LoweringPrepare which globals need guard variable emission.

[CIR][LoweringPrepare] Emit guard variables for static local initialization

This implements the lowering of static local variables with the Itanium C++ ABI
guard variable pattern in LoweringPrepare.

When a GlobalOp has the static_local attribute and a ctor region, this pass:
1. Creates a guard variable global (mangled name from AST)
2. Inserts the guard check pattern at each GetGlobalOp use site:
   - Load guard byte with acquire ordering
   - If zero, call __cxa_guard_acquire
   - If acquire returns non-zero, inline the ctor region code
   - Call __cxa_guard_release
3. Clears the static_local attribute and ctor region from the GlobalOp

[CIR] Add CIRGen support for static local variables with non-constant initializers

This adds CIRGen infrastructure for C++ function-local static variables
that require guarded initialization (Itanium C++ ABI).

Changes:
- Add ASTVarDeclAttr to carry VarDecl AST through the pipeline
- Add emitGuardedInit() to CIRGenCXXABI for guarded initialization
- Add emitCXXGuardedInit() to CIRGenFunction
- Replace NYI in addInitializerToStaticVarDecl() with ctor region emission
- Set static_local attribute on GlobalOp and GetGlobalOp

The global's ctor region contains the initialization code, which will be
lowered by LoweringPrepare to emit the actual guard variable pattern with
__cxa_guard_acquire/__cxa_guard_release calls.

[CIR] Add ASTVarDeclInterface for AST attribute access

Add the ASTVarDeclInterface which provides methods to access clang AST
VarDecl information from CIR attributes. This interface enables:
- mangleStaticGuardVariable: Mangle guard variable names using clang's
  MangleContext
- isLocalVarDecl: Check if a variable is function-local
- getTLSKind: Get thread-local storage kind
- isInline: Check if the variable is inline
- getTemplateSpecializationKind: Get template specialization info
- getVarDecl: Direct access to the underlying VarDecl pointer

This infrastructure is needed for proper handling of static local
variables with guard variables in LoweringPrepare.

[mlir][gpu][pipeline] Add missing passes in XeGPU to XeVM pipeline (#179320)

[msan][NFCI] Remove redundant tests from aarch64-bf16-dotprod-intrinsics.ll (#178832)

https://github.com/llvm/llvm-project/pull/178510#discussion_r2739401507
requested simplifying test cases by using parameters directly for the
intrinsic calls. Doing that reduces the test case to duplicates of
existing tests, thus this patch deletes the redundant tests.

[msan] Add intermediate verbosity instruction dump (#178771)

This patch does not change MSan's instrumentation.

-msan-dump-{heuristic,strict}-instructions currently prints out two
lines per instruction:
1) instruction name only e.g., `call llvm.aarch64.neon.uqsub.v16i8`
2) the full instruction, including actual variables e.g., `%vqsubq_v.i15
= call noundef <16 x i8> @llvm.aarch64.neon.uqsub.v16i8(<16 x i8>
%vext21.i, <16 x i8> splat (i8 1)), !dbg !66`

Option 1) is too sparse for some uses, because it does not contain the
return types or parameter types (although `.v16i8` is part of the
function name in this example, in general, the function name does not
describe the types completely; e.g., `<16 x float>
llvm.x86.avx512.mask.scalef.ps.512(<16 x float>, <16 x float>, <16 x
float>, i16, i32)`). OTOH option 2) can be too verbose because it
contains the actual variables.


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[CIR][NFC] Cleanup some stale missing features markers (#179822)

This deletes a few missing features markers where the missing code had
actually been implemented and deletes a handful that were not being used
anywhere.

InstCombine: Propagate profile metadata in symmetric select folding

[InstCombine][profcheck] Fix missing profdata for zext/sext transform and update tests

[InstCombine][profcheck] Fix missing profdata for zext transform.

InstCombine: Propagate profile metadata in logical op creation and select folding

InstCombine: Set unknown profile metadata in lshr-to-select folding

InstCombine: Propagate profile metadata in clamp folds and fix verifier errors

InstCombine: Propagate profile metadata in nested select folding

InstCombine: Comprehensive fix for missing profile metadata in libcall simplifications

InstCombine: Propagate profile metadata in select factorization folding

InstCombine: Propagate profile metadata in shift-of-select folding

InstCombine: Set unknown profile metadata in memchr-to-select folding

InstCombine: Propagate profile metadata in select(ldexp) and ldexp(select) folding

InstCombine: Set unknown profile metadata in logic-to-select folding

InstCombine: Propagate profile metadata in ldexp(zext) folding

InstCombine: Propagate profile metadata in fneg(select) folding

InstCombine: Propagate profile metadata in fabs(select) folding

InstCombine: Propagate profile metadata in mul(select) folding

InstCombine: Propagate profile metadata in SimplifyLibCalls for FFS

InstCombine: Propagate profile metadata in objectsize lowering to select

InstCombine: Propagate profile metadata in clamp canonicalization

InstCombine: Propagate profile metadata in bitreverse to select

[InstCombine] Propagate profile metadata when factoring logic operations

When factoring logic operations involving logical AND/OR (represented as selects), InstCombine creates new select instructions. This patch ensures that these new instructions receive 'unknown' profile metadata if the function has profile data, satisfying profile verification requirements.

This fixes profile verification failures in .