[clang] [CIR][AArch64] Upstream vector-shift-right-and-insert NEON builtins (PR #196776)

[Vicky Nguyen via cfe-commits]

================
@@ -257,6 +257,64 @@ static cir::VectorType 
getNeonPairwiseWidenInputType(cir::VectorType resType,
   return result;
 }
 
+// Derive the LLVM intrinsic's per-operand argument types and its result
+// type for use when emitting the intrinsic call.
+//
+// `modifier` is the TypeModifier bitmask from `ARMVectorIntrinsicInfo`
+// (callers pass `info.TypeModifier`; see AArch64CodeGenUtils.h). It encodes
+// how the intrinsic's argument and return types relate to the builtin's
+// scalar types. For SISD builtins the key flags are:
+//   - VectorizeArgTypes: wrap each arg type into a fixed-width vector
+//   - Use64BitVectors / Use128BitVectors: choose the vector width
+//     (when neither is set the vector has 1 element)
+//   - AddRetType / VectorizeRetType: analogous flags for the return type
+//
+// ARM.cpp lets LLVM resolve the intrinsic's signature (via
+// `CGM.getIntrinsic`) and then walks the resolved Function* formal
+// parameter types. CIR has no LLVMContext here, so we derive the same
+// argument/result types directly from the Clang operand types.
+static std::pair<mlir::Type, llvm::SmallVector<mlir::Type>>
+deriveNeonIntrinsicOperandTypes(CIRGenFunction &cgf, unsigned modifier,
+                                mlir::Type argTy, mlir::Type resultTy,
+                                llvm::ArrayRef<mlir::Value> ops) {
+  int vectorSize = 0;
+  if (modifier & Use64BitVectors)
+    vectorSize = 64;
+  else if (modifier & Use128BitVectors)
+    vectorSize = 128;
+
+  auto wrapAsVector = [&](mlir::Type ty) -> cir::VectorType {
+    unsigned bits = cgf.cgm.getDataLayout().getTypeSizeInBits(ty);
+    unsigned elts = vectorSize ? vectorSize / bits : 1;
+    return cir::VectorType::get(ty, elts);
+  };
+
+  // Determine the vectorized data type.
+  cir::VectorType vecArgTy;
+  if (modifier & VectorizeArgTypes)
+    vecArgTy = wrapAsVector(argTy);
+
+  // Determine the intrinsic result type: `VectorizeRetType` returns a
+  // vector; otherwise, if data args are vectorized and `AddRetType` is
+  // unset, use a vector return with the same shape as those args.
+  mlir::Type funcResTy = resultTy;
+  if (modifier & VectorizeRetType)
+    funcResTy = wrapAsVector(resultTy);
+  else if (vecArgTy && !(modifier & AddRetType))
+    funcResTy = wrapAsVector(resultTy);
+
+  llvm::SmallVector<mlir::Type> argTypes;
+  argTypes.reserve(ops.size());
+  for (mlir::Value op : ops) {
+    if (vecArgTy && op.getType() == argTy)
+      argTypes.push_back(vecArgTy);
+    else
+      argTypes.push_back(op.getType());
+  }
----------------
iamvickynguyen wrote:

Thank you for the comment! That's a good point! I've edited the condition and 
added a comment. Does it look ok to you?

https://github.com/llvm/llvm-project/pull/196776
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