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composable_kernel/include/ck/utility/statically_indexed_array.hpp
Illia Silin e6b8094f94 [rocm-libraries] ROCm/rocm-libraries#5921 (commit 032ac1b) 
[CK] fix clang lifetimebound errors with staging compiler
 (#5921)

## Motivation

The ROCm staging compiler (newer Clang) enforces
`[[clang::lifetimebound]]` annotations on methods that return references
or pointers to internal object data. Without these annotations, the
staging compiler emits compilation errors for container accessor methods
across the CK and CK Tile namespaces.

  ## Technical Details

Adds `[[clang::lifetimebound]]` to all reference/pointer-returning
accessors in core container types:

  **`ck::` namespace:**
  - `Array` -- `At()`, `operator[]`, `operator()`, `begin()`, `end()`
  - `index_array` -- `operator[]`
  - `StaticallyIndexedArray_v2` -- `At()`, `operator[]`, `operator()`
  - `IndexLookupTable` -- `operator[]`

  **`ck_tile::` namespace:**
  - `array` -- `get(i)`, `at()`, `operator[]`, `operator()`
  - `static_array` -- `operator[]`
  - `thread_buffer` -- `get(i)`, `at()`, `operator[]`, `operator()`
  - `make_kernel()` -- parameter pack

Also removes the unused `instance_index` variable from
`batched_gemm_reduce_fp16.cpp` and simplifies its argument parsing
  accordingly.

  ## Test Plan

- Compile with the staging compiler to verify all lifetimebound errors
are resolved
- Existing tests pass unchanged -- the attribute is a compile-time
annotation with no runtime effect

 ## Test Result

<!-- Briefly summarize test outcomes. -->

## Submission Checklist

- [x] Look over the contributing guidelines at
https://github.com/ROCm/ROCm/blob/develop/CONTRIBUTING.md#pull-requests.
2026-03-30 14:20:20 +00:00

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// Copyright (c) Advanced Micro Devices, Inc., or its affiliates.
// SPDX-License-Identifier: MIT
#ifndef CK_STATICALLY_INDEXED_ARRAY_HPP
#define CK_STATICALLY_INDEXED_ARRAY_HPP
#include "functional2.hpp"
#include "tuple.hpp"
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wlifetime-safety-intra-tu-suggestions"
namespace ck {
namespace detail {
template <typename X, typename Y>
struct tuple_concat;
template <typename... Xs, typename... Ys>
struct tuple_concat<Tuple<Xs...>, Tuple<Ys...>>
{
using type = Tuple<Xs..., Ys...>;
};
// StaticallyIndexedArrayImpl uses binary split for O(log N) depth
template <typename T, index_t N>
struct StaticallyIndexedArrayImpl
{
using type =
typename tuple_concat<typename StaticallyIndexedArrayImpl<T, N / 2>::type,
typename StaticallyIndexedArrayImpl<T, N - N / 2>::type>::type;
};
template <typename T>
struct StaticallyIndexedArrayImpl<T, 0>
{
using type = Tuple<>;
};
template <typename T>
struct StaticallyIndexedArrayImpl<T, 1>
{
using type = Tuple<T>;
};
} // namespace detail
template <typename T, index_t N>
using StaticallyIndexedArray = typename detail::StaticallyIndexedArrayImpl<T, N>::type;
template <typename X, typename... Xs>
__host__ __device__ constexpr auto make_statically_indexed_array(const X& x, const Xs&... xs)
{
return StaticallyIndexedArray<X, sizeof...(Xs) + 1>(x, static_cast<X>(xs)...);
}
// make empty StaticallyIndexedArray
template <typename X>
__host__ __device__ constexpr auto make_statically_indexed_array()
{
return StaticallyIndexedArray<X, 0>();
}
template <typename T, index_t N>
struct StaticallyIndexedArray_v2
{
__host__ __device__ constexpr StaticallyIndexedArray_v2() = default;
__host__ __device__ static constexpr index_t Size() { return N; }
// read access
template <index_t I>
__host__ __device__ constexpr const auto& At(Number<I>) const [[clang::lifetimebound]]
{
static_assert(I < N, "wrong! out of range");
return data_[I];
}
// write access
template <index_t I>
__host__ __device__ constexpr auto& At(Number<I>) [[clang::lifetimebound]]
{
static_assert(I < N, "wrong! out of range");
return data_[I];
}
// read access
template <index_t I>
__host__ __device__ constexpr const auto& operator[](Number<I> i) const [[clang::lifetimebound]]
{
return At(i);
}
// write access
template <index_t I>
__host__ __device__ constexpr auto& operator()(Number<I> i) [[clang::lifetimebound]]
{
return At(i);
}
__host__ __device__ static constexpr bool IsStaticBuffer() { return true; }
T data_[N];
};
} // namespace ck
#pragma clang diagnostic pop
#endif
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