GEPArg can only be constructed from int32_t and mlir::Value. Explicitly
cast other types (e.g. unsigned, size_t) to int32_t to avoid narrowing
conversion warnings on MSVC. Some recent examples of such are:
```
mlir\lib\Dialect\LLVMIR\Transforms\TypeConsistency.cpp: error C2398:
Element '1': conversion from 'size_t' to 'T' requires a narrowing
conversion
with
[
T=mlir::LLVM::GEPArg
]
mlir\lib\Dialect\LLVMIR\Transforms\TypeConsistency.cpp: error C2398:
Element '1': conversion from 'unsigned int' to 'T' requires a narrowing
conversion
with
[
T=mlir::LLVM::GEPArg
]
```
Co-authored-by: Nikita Kudriavtsev <nikita.kudriavtsev@intel.com>
(cherry picked from commit
89cd345667a5f8f4c37c621fd8abe8d84e85c050)
/*alignment=*/0);
for (auto [index, arg] : llvm::enumerate(args)) {
Value ptr = rewriter.create<LLVM::GEPOp>(
- loc, ptrType, structType, tempAlloc, ArrayRef<LLVM::GEPArg>{0, index});
+ loc, ptrType, structType, tempAlloc,
+ ArrayRef<LLVM::GEPArg>{0, static_cast<int32_t>(index)});
rewriter.create<LLVM::StoreOp>(loc, arg, ptr);
}
std::array<Value, 2> printfArgs = {stringStart, tempAlloc};
auto arrayPtr = builder.create<LLVM::AllocaOp>(
loc, llvmPointerType, llvmPointerType, arraySize, /*alignment=*/0);
for (const auto &en : llvm::enumerate(arguments)) {
+ const auto index = static_cast<int32_t>(en.index());
Value fieldPtr =
builder.create<LLVM::GEPOp>(loc, llvmPointerType, structType, structPtr,
- ArrayRef<LLVM::GEPArg>{0, en.index()});
+ ArrayRef<LLVM::GEPArg>{0, index});
builder.create<LLVM::StoreOp>(loc, en.value(), fieldPtr);
- auto elementPtr = builder.create<LLVM::GEPOp>(
- loc, llvmPointerType, llvmPointerType, arrayPtr,
- ArrayRef<LLVM::GEPArg>{en.index()});
+ auto elementPtr =
+ builder.create<LLVM::GEPOp>(loc, llvmPointerType, llvmPointerType,
+ arrayPtr, ArrayRef<LLVM::GEPArg>{index});
builder.create<LLVM::StoreOp>(loc, fieldPtr, elementPtr);
}
return arrayPtr;
// Other patterns will turn this into a type-consistent GEP.
auto gepOp = rewriter.create<GEPOp>(
loc, address.getType(), rewriter.getI8Type(), address,
- ArrayRef<GEPArg>{storeOffset + index * elementSize});
+ ArrayRef<GEPArg>{
+ static_cast<int32_t>(storeOffset + index * elementSize)});
rewriter.create<StoreOp>(loc, extractOp, gepOp);
}
// We create an `i8` indexed GEP here as that is the easiest (offset is
// already known). Other patterns turn this into a type-consistent GEP.
- auto gepOp =
- rewriter.create<GEPOp>(loc, address.getType(), rewriter.getI8Type(),
- address, ArrayRef<GEPArg>{currentOffset});
+ auto gepOp = rewriter.create<GEPOp>(
+ loc, address.getType(), rewriter.getI8Type(), address,
+ ArrayRef<GEPArg>{static_cast<int32_t>(currentOffset)});
rewriter.create<StoreOp>(loc, valueToStore, gepOp);
// No need to care about padding here since we already checked previously
projects / platform / upstream / llvm.git / commitdiff