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This PR adds conversion patterns for MemRef to the `convert-to-spirv` pass, introduced in #95942. Conversions from MemRef memory space to SPIR-V storage class were also included, and would run before the final dialect conversion phase. **Future Plans** - Add tests for ops other than `memref.load` and `memref.store` --------- Co-authored-by: Jakub Kuderski <kubakuderski@gmail.com>
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// RUN: mlir-opt -convert-to-spirv="run-signature-conversion=false run-vector-unrolling=false" -cse %s | FileCheck %s | ||
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module attributes { | ||
spirv.target_env = #spirv.target_env< | ||
#spirv.vce<v1.0, [Shader], [SPV_KHR_storage_buffer_storage_class]>, #spirv.resource_limits<>> | ||
} { | ||
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// CHECK-LABEL: @load_store_float_rank_zero | ||
// CHECK-SAME: %[[ARG0:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<1 x f32, stride=4> [0])>, StorageBuffer>, %[[ARG1:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<1 x f32, stride=4> [0])>, StorageBuffer> | ||
// CHECK: %[[CST0:.*]] = spirv.Constant 0 : i32 | ||
// CHECK: %[[AC0:.*]] = spirv.AccessChain %[[ARG0]][%[[CST0]], %[[CST0]]] : !spirv.ptr<!spirv.struct<(!spirv.array<1 x f32, stride=4> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: %[[LOAD:.*]] = spirv.Load "StorageBuffer" %[[AC0]] : f32 | ||
// CHECK: %[[AC1:.*]] = spirv.AccessChain %[[ARG1]][%[[CST0]], %[[CST0]]] : !spirv.ptr<!spirv.struct<(!spirv.array<1 x f32, stride=4> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: spirv.Store "StorageBuffer" %[[AC1]], %[[LOAD]] : f32 | ||
// CHECK: spirv.Return | ||
func.func @load_store_float_rank_zero(%arg0: memref<f32>, %arg1: memref<f32>) { | ||
%0 = memref.load %arg0[] : memref<f32> | ||
memref.store %0, %arg1[] : memref<f32> | ||
return | ||
} | ||
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// CHECK-LABEL: @load_store_int_rank_one | ||
// CHECK-SAME: %[[ARG0:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<4 x i32, stride=4> [0])>, StorageBuffer>, %[[ARG1:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<4 x i32, stride=4> [0])>, StorageBuffer>, %[[ARG2:.*]]: i32 | ||
// CHECK: %[[CST0:.*]] = spirv.Constant 0 : i32 | ||
// CHECK: %[[AC0:.*]] = spirv.AccessChain %[[ARG0]][%[[CST0]], %[[ARG2]]] : !spirv.ptr<!spirv.struct<(!spirv.array<4 x i32, stride=4> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: %[[LOAD:.*]] = spirv.Load "StorageBuffer" %[[AC0]] : i32 | ||
// CHECK: %[[AC1:.*]] = spirv.AccessChain %[[ARG1]][%[[CST0]], %[[ARG2]]] : !spirv.ptr<!spirv.struct<(!spirv.array<4 x i32, stride=4> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: spirv.Store "StorageBuffer" %[[AC1]], %[[LOAD]] : i32 | ||
// CHECK: spirv.Return | ||
func.func @load_store_int_rank_one(%arg0: memref<4xi32>, %arg1: memref<4xi32>, %arg2 : index) { | ||
%0 = memref.load %arg0[%arg2] : memref<4xi32> | ||
memref.store %0, %arg1[%arg2] : memref<4xi32> | ||
return | ||
} | ||
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// CHECK-LABEL: @load_store_larger_memref | ||
// CHECK-SAME: %[[ARG0:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<8 x i32, stride=4> [0])>, StorageBuffer>, %[[ARG1:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<8 x i32, stride=4> [0])>, StorageBuffer>, %[[ARG2:.*]]: i32 | ||
// CHECK: %[[CST0:.*]] = spirv.Constant 0 : i32 | ||
// CHECK: %[[AC0:.*]] = spirv.AccessChain %[[ARG0]][%[[CST0]], %[[ARG2]]] : !spirv.ptr<!spirv.struct<(!spirv.array<8 x i32, stride=4> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: %[[LOAD:.*]] = spirv.Load "StorageBuffer" %[[AC0]] : i32 | ||
// CHECK: %[[AC1:.*]] = spirv.AccessChain %[[ARG1]][%[[CST0]], %[[ARG2]]] : !spirv.ptr<!spirv.struct<(!spirv.array<8 x i32, stride=4> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: spirv.Store "StorageBuffer" %[[AC1]], %[[LOAD]] : i32 | ||
// CHECK: spirv.Return | ||
func.func @load_store_larger_memref(%arg0: memref<8xi32>, %arg1: memref<8xi32>, %arg2 : index) { | ||
%0 = memref.load %arg0[%arg2] : memref<8xi32> | ||
memref.store %0, %arg1[%arg2] : memref<8xi32> | ||
return | ||
} | ||
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// CHECK-LABEL: @load_store_vector | ||
// CHECK-SAME: %[[ARG0:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<1 x vector<4xi32>, stride=16> [0])>, StorageBuffer>, %[[ARG1:.*]]: !spirv.ptr<!spirv.struct<(!spirv.array<1 x vector<4xi32>, stride=16> [0])>, StorageBuffer> | ||
// CHECK: %[[CST0:.*]] = spirv.Constant 0 : i32 | ||
// CHECK: %[[AC0:.*]] = spirv.AccessChain %[[ARG0]][%[[CST0]], %[[CST0]]] : !spirv.ptr<!spirv.struct<(!spirv.array<1 x vector<4xi32>, stride=16> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: %[[LOAD:.*]] = spirv.Load "StorageBuffer" %[[AC0]] : vector<4xi32> | ||
// CHECK: %[[AC1:.*]] = spirv.AccessChain %[[ARG1]][%[[CST0]], %[[CST0]]] : !spirv.ptr<!spirv.struct<(!spirv.array<1 x vector<4xi32>, stride=16> [0])>, StorageBuffer>, i32, i32 | ||
// CHECK: spirv.Store "StorageBuffer" %[[AC1]], %[[LOAD]] : vector<4xi32> | ||
// CHECK: spirv.Return | ||
func.func @load_store_vector(%arg0: memref<vector<4xi32>>, %arg1: memref<vector<4xi32>>) { | ||
%0 = memref.load %arg0[] : memref<vector<4xi32>> | ||
memref.store %0, %arg1[] : memref<vector<4xi32>> | ||
return | ||
} | ||
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} // end module |
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