mlir/test/Conversion/MemRefToSPIRV/memref-to-spirv.mlir

// RUN: mlir-opt --split-input-file --convert-memref-to-spirv="bool-num-bits=8" --cse %s | FileCheck %s

// Check that with proper compute and storage extensions, we don't need to
// perform special tricks.

module attributes {
  spirv.target_env = #spirv.target_env<
    #spirv.vce<v1.5,
      [
        Shader, Int8, Int16, Int64, Float16, Float64,
        StorageBuffer16BitAccess, StorageUniform16, StoragePushConstant16,
        StorageBuffer8BitAccess, UniformAndStorageBuffer8BitAccess, StoragePushConstant8,
        PhysicalStorageBufferAddresses
      ],
      [SPV_KHR_16bit_storage, SPV_KHR_8bit_storage, SPV_KHR_storage_buffer_storage_class, SPV_KHR_physical_storage_buffer]>,
      #spirv.resource_limits<>>
} {

// CHECK-LABEL: @load_store_zero_rank_float
func.func @load_store_zero_rank_float(%arg0: memref<f32, #spirv.storage_class<StorageBuffer>>, %arg1: memref<f32, #spirv.storage_class<StorageBuffer>>) {
  //      CHECK: [[ARG0:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<f32, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.array<1 x f32, stride=4> [0])>, StorageBuffer>
  //      CHECK: [[ARG1:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<f32, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.array<1 x f32, stride=4> [0])>, StorageBuffer>
  //      CHECK: [[ZERO:%.*]] = spirv.Constant 0 : i32
  //      CHECK: spirv.AccessChain [[ARG0]][
  // CHECK-SAME: [[ZERO]], [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Load "StorageBuffer" %{{.*}} : f32
  %0 = memref.load %arg0[] : memref<f32, #spirv.storage_class<StorageBuffer>>
  //      CHECK: spirv.AccessChain [[ARG1]][
  // CHECK-SAME: [[ZERO]], [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Store "StorageBuffer" %{{.*}} : f32
  memref.store %0, %arg1[] : memref<f32, #spirv.storage_class<StorageBuffer>>
  return
}

// CHECK-LABEL: @load_store_zero_rank_int
func.func @load_store_zero_rank_int(%arg0: memref<i32, #spirv.storage_class<StorageBuffer>>, %arg1: memref<i32, #spirv.storage_class<StorageBuffer>>) {
  //      CHECK: [[ARG0:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<i32, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.array<1 x i32, stride=4> [0])>, StorageBuffer>
  //      CHECK: [[ARG1:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<i32, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.array<1 x i32, stride=4> [0])>, StorageBuffer>
  //      CHECK: [[ZERO:%.*]] = spirv.Constant 0 : i32
  //      CHECK: spirv.AccessChain [[ARG0]][
  // CHECK-SAME: [[ZERO]], [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Load "StorageBuffer" %{{.*}} : i32
  %0 = memref.load %arg0[] : memref<i32, #spirv.storage_class<StorageBuffer>>
  //      CHECK: spirv.AccessChain [[ARG1]][
  // CHECK-SAME: [[ZERO]], [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Store "StorageBuffer" %{{.*}} : i32
  memref.store %0, %arg1[] : memref<i32, #spirv.storage_class<StorageBuffer>>
  return
}

// CHECK-LABEL: func @load_store_unknown_dim
func.func @load_store_unknown_dim(%i: index, %source: memref<?xi32, #spirv.storage_class<StorageBuffer>>, %dest: memref<?xi32, #spirv.storage_class<StorageBuffer>>) {
  // CHECK: %[[SRC:.+]] = builtin.unrealized_conversion_cast {{.+}} : memref<?xi32, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.rtarray<i32, stride=4> [0])>, StorageBuffer>
  // CHECK: %[[DST:.+]] = builtin.unrealized_conversion_cast {{.+}} : memref<?xi32, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.rtarray<i32, stride=4> [0])>, StorageBuffer>
  // CHECK: %[[AC0:.+]] = spirv.AccessChain %[[SRC]]
  // CHECK: spirv.Load "StorageBuffer" %[[AC0]]
  %0 = memref.load %source[%i] : memref<?xi32, #spirv.storage_class<StorageBuffer>>
  // CHECK: %[[AC1:.+]] = spirv.AccessChain %[[DST]]
  // CHECK: spirv.Store "StorageBuffer" %[[AC1]]
  memref.store %0, %dest[%i]: memref<?xi32, #spirv.storage_class<StorageBuffer>>
  return
}

// CHECK-LABEL: func @load_i1
//  CHECK-SAME: (%[[SRC:.+]]: memref<4xi1, #spirv.storage_class<StorageBuffer>>, %[[IDX:.+]]: index)
func.func @load_i1(%src: memref<4xi1, #spirv.storage_class<StorageBuffer>>, %i : index) -> i1 {
  // CHECK-DAG: %[[SRC_CAST:.+]] = builtin.unrealized_conversion_cast %[[SRC]] : memref<4xi1, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.array<4 x i8, stride=1> [0])>, StorageBuffer>
  // CHECK-DAG: %[[IDX_CAST:.+]] = builtin.unrealized_conversion_cast %[[IDX]]
  // CHECK: %[[ZERO:.*]] = spirv.Constant 0 : i32
  // CHECK: %[[ADDR:.+]] = spirv.AccessChain %[[SRC_CAST]][%[[ZERO]], %[[IDX_CAST]]]
  // CHECK: %[[VAL:.+]] = spirv.Load "StorageBuffer" %[[ADDR]] : i8
  // CHECK: %[[ONE_I8:.+]] = spirv.Constant 1 : i8
  // CHECK: %[[BOOL:.+]] = spirv.IEqual %[[VAL]], %[[ONE_I8]] : i8
  %0 = memref.load %src[%i] : memref<4xi1, #spirv.storage_class<StorageBuffer>>
  // CHECK: return %[[BOOL]]
  return %0: i1
}

// CHECK-LABEL: func @store_i1
//  CHECK-SAME: %[[DST:.+]]: memref<4xi1, #spirv.storage_class<StorageBuffer>>,
//  CHECK-SAME: %[[IDX:.+]]: index
func.func @store_i1(%dst: memref<4xi1, #spirv.storage_class<StorageBuffer>>, %i: index) {
  %true = arith.constant true
  // CHECK-DAG: %[[DST_CAST:.+]] = builtin.unrealized_conversion_cast %[[DST]] : memref<4xi1, #spirv.storage_class<StorageBuffer>> to !spirv.ptr<!spirv.struct<(!spirv.array<4 x i8, stride=1> [0])>, StorageBuffer>
  // CHECK-DAG: %[[IDX_CAST:.+]] = builtin.unrealized_conversion_cast %[[IDX]]
  // CHECK: %[[ZERO:.*]] = spirv.Constant 0 : i32
  // CHECK: %[[ADDR:.+]] = spirv.AccessChain %[[DST_CAST]][%[[ZERO]], %[[IDX_CAST]]]
  // CHECK: %[[ONE_I8:.+]] = spirv.Constant 1 : i8
  // CHECK: spirv.Store "StorageBuffer" %[[ADDR]], %[[ONE_I8]] : i8
  memref.store %true, %dst[%i]: memref<4xi1, #spirv.storage_class<StorageBuffer>>
  return
}

// CHECK-LABEL: @load_i16
func.func @load_i16(%arg0: memref<i16, #spirv.storage_class<StorageBuffer>>) {
  // CHECK-NOT: spirv.SDiv
  //     CHECK: spirv.Load
  // CHECK-NOT: spirv.ShiftRightArithmetic
  %0 = memref.load %arg0[] : memref<i16, #spirv.storage_class<StorageBuffer>>
  return
}

// CHECK-LABEL: @store_i16
func.func @store_i16(%arg0: memref<10xi16, #spirv.storage_class<StorageBuffer>>, %index: index, %value: i16) {
  //     CHECK: spirv.Store
  // CHECK-NOT: spirv.AtomicAnd
  // CHECK-NOT: spirv.AtomicOr
  memref.store %value, %arg0[%index] : memref<10xi16, #spirv.storage_class<StorageBuffer>>
  return
}

// CHECK-LABEL: @load_store_i32_physical
func.func @load_store_i32_physical(%arg0: memref<i32, #spirv.storage_class<PhysicalStorageBuffer>>) {
  //     CHECK: spirv.Load "PhysicalStorageBuffer" %{{.+}} ["Aligned", 4] : i32
  //     CHECK: spirv.Store "PhysicalStorageBuffer" %{{.+}}, %{{.+}} ["Aligned", 4] : i32
  %0 = memref.load %arg0[] : memref<i32, #spirv.storage_class<PhysicalStorageBuffer>>
  memref.store %0, %arg0[] : memref<i32, #spirv.storage_class<PhysicalStorageBuffer>>
  return
}

// CHECK-LABEL: @load_store_i8_physical
func.func @load_store_i8_physical(%arg0: memref<i8, #spirv.storage_class<PhysicalStorageBuffer>>) {
  //     CHECK: spirv.Load "PhysicalStorageBuffer" %{{.+}} ["Aligned", 1] : i8
  //     CHECK: spirv.Store "PhysicalStorageBuffer" %{{.+}}, %{{.+}} ["Aligned", 1] : i8
  %0 = memref.load %arg0[] : memref<i8, #spirv.storage_class<PhysicalStorageBuffer>>
  memref.store %0, %arg0[] : memref<i8, #spirv.storage_class<PhysicalStorageBuffer>>
  return
}

// CHECK-LABEL: @load_store_i1_physical
func.func @load_store_i1_physical(%arg0: memref<i1, #spirv.storage_class<PhysicalStorageBuffer>>) {
  //     CHECK: spirv.Load "PhysicalStorageBuffer" %{{.+}} ["Aligned", 1] : i8
  //     CHECK: spirv.Store "PhysicalStorageBuffer" %{{.+}}, %{{.+}} ["Aligned", 1] : i8
  %0 = memref.load %arg0[] : memref<i1, #spirv.storage_class<PhysicalStorageBuffer>>
  memref.store %0, %arg0[] : memref<i1, #spirv.storage_class<PhysicalStorageBuffer>>
  return
}

// CHECK-LABEL: @load_store_f32_physical
func.func @load_store_f32_physical(%arg0: memref<f32, #spirv.storage_class<PhysicalStorageBuffer>>) {
  //     CHECK: spirv.Load "PhysicalStorageBuffer" %{{.+}} ["Aligned", 4] : f32
  //     CHECK: spirv.Store "PhysicalStorageBuffer" %{{.+}}, %{{.+}} ["Aligned", 4] : f32
  %0 = memref.load %arg0[] : memref<f32, #spirv.storage_class<PhysicalStorageBuffer>>
  memref.store %0, %arg0[] : memref<f32, #spirv.storage_class<PhysicalStorageBuffer>>
  return
}

// CHECK-LABEL: @load_store_f16_physical
func.func @load_store_f16_physical(%arg0: memref<f16, #spirv.storage_class<PhysicalStorageBuffer>>) {
  //     CHECK: spirv.Load "PhysicalStorageBuffer" %{{.+}} ["Aligned", 2] : f16
  //     CHECK: spirv.Store "PhysicalStorageBuffer" %{{.+}}, %{{.+}} ["Aligned", 2] : f16
  %0 = memref.load %arg0[] : memref<f16, #spirv.storage_class<PhysicalStorageBuffer>>
  memref.store %0, %arg0[] : memref<f16, #spirv.storage_class<PhysicalStorageBuffer>>
  return
}

} // end module

// -----

// Check for Kernel capability, that with proper compute and storage extensions, we don't need to
// perform special tricks.

module attributes {
  spirv.target_env = #spirv.target_env<
    #spirv.vce<v1.0,
      [
        Kernel, Addresses, Int8, Int16, Int64, Float16, Float64], []>, #spirv.resource_limits<>>
} {

// CHECK-LABEL: @load_store_zero_rank_float
func.func @load_store_zero_rank_float(%arg0: memref<f32, #spirv.storage_class<CrossWorkgroup>>, %arg1: memref<f32, #spirv.storage_class<CrossWorkgroup>>) {
  //      CHECK: [[ARG0:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<f32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<!spirv.array<1 x f32>, CrossWorkgroup>
  //      CHECK: [[ARG1:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<f32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<!spirv.array<1 x f32>, CrossWorkgroup>
  //      CHECK: [[ZERO:%.*]] = spirv.Constant 0 : i32
  //      CHECK: spirv.AccessChain [[ARG0]][
  // CHECK-SAME: [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Load "CrossWorkgroup" %{{.*}} : f32
  %0 = memref.load %arg0[] : memref<f32, #spirv.storage_class<CrossWorkgroup>>
  //      CHECK: spirv.AccessChain [[ARG1]][
  // CHECK-SAME: [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Store "CrossWorkgroup" %{{.*}} : f32
  memref.store %0, %arg1[] : memref<f32, #spirv.storage_class<CrossWorkgroup>>
  return
}

// CHECK-LABEL: @load_store_zero_rank_int
func.func @load_store_zero_rank_int(%arg0: memref<i32, #spirv.storage_class<CrossWorkgroup>>, %arg1: memref<i32, #spirv.storage_class<CrossWorkgroup>>) {
  //      CHECK: [[ARG0:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<i32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<!spirv.array<1 x i32>, CrossWorkgroup>
  //      CHECK: [[ARG1:%.*]] = builtin.unrealized_conversion_cast {{.+}} : memref<i32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<!spirv.array<1 x i32>, CrossWorkgroup>
  //      CHECK: [[ZERO:%.*]] = spirv.Constant 0 : i32
  //      CHECK: spirv.AccessChain [[ARG0]][
  // CHECK-SAME: [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Load "CrossWorkgroup" %{{.*}} : i32
  %0 = memref.load %arg0[] : memref<i32, #spirv.storage_class<CrossWorkgroup>>
  //      CHECK: spirv.AccessChain [[ARG1]][
  // CHECK-SAME: [[ZERO]]
  // CHECK-SAME: ] :
  //      CHECK: spirv.Store "CrossWorkgroup" %{{.*}} : i32
  memref.store %0, %arg1[] : memref<i32, #spirv.storage_class<CrossWorkgroup>>
  return
}

// CHECK-LABEL: func @load_store_unknown_dim
func.func @load_store_unknown_dim(%i: index, %source: memref<?xi32, #spirv.storage_class<CrossWorkgroup>>, %dest: memref<?xi32, #spirv.storage_class<CrossWorkgroup>>) {
  // CHECK: %[[SRC:.+]] = builtin.unrealized_conversion_cast {{.+}} : memref<?xi32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<i32, CrossWorkgroup>
  // CHECK: %[[DST:.+]] = builtin.unrealized_conversion_cast {{.+}} : memref<?xi32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<i32, CrossWorkgroup>
  // CHECK: %[[AC0:.+]] = spirv.PtrAccessChain %[[SRC]]
  // CHECK: spirv.Load "CrossWorkgroup" %[[AC0]]
  %0 = memref.load %source[%i] : memref<?xi32, #spirv.storage_class<CrossWorkgroup>>
  // CHECK: %[[AC1:.+]] = spirv.PtrAccessChain %[[DST]]
  // CHECK: spirv.Store "CrossWorkgroup" %[[AC1]]
  memref.store %0, %dest[%i]: memref<?xi32, #spirv.storage_class<CrossWorkgroup>>
  return
}

// CHECK-LABEL: func @load_i1
//  CHECK-SAME: (%[[SRC:.+]]: memref<4xi1, #spirv.storage_class<CrossWorkgroup>>, %[[IDX:.+]]: index)
func.func @load_i1(%src: memref<4xi1, #spirv.storage_class<CrossWorkgroup>>, %i : index) -> i1 {
  // CHECK-DAG: %[[SRC_CAST:.+]] = builtin.unrealized_conversion_cast %[[SRC]] : memref<4xi1, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<!spirv.array<4 x i8>, CrossWorkgroup>
  // CHECK-DAG: %[[IDX_CAST:.+]] = builtin.unrealized_conversion_cast %[[IDX]]
  // CHECK: %[[ADDR:.+]] = spirv.AccessChain %[[SRC_CAST]][%[[IDX_CAST]]]
  // CHECK: %[[VAL:.+]] = spirv.Load "CrossWorkgroup" %[[ADDR]] : i8
  // CHECK: %[[ONE_I8:.+]] = spirv.Constant 1 : i8
  // CHECK: %[[BOOL:.+]] = spirv.IEqual %[[VAL]], %[[ONE_I8]] : i8
  %0 = memref.load %src[%i] : memref<4xi1, #spirv.storage_class<CrossWorkgroup>>
  // CHECK: return %[[BOOL]]
  return %0: i1
}

// CHECK-LABEL: func @store_i1
//  CHECK-SAME: %[[DST:.+]]: memref<4xi1, #spirv.storage_class<CrossWorkgroup>>,
//  CHECK-SAME: %[[IDX:.+]]: index
func.func @store_i1(%dst: memref<4xi1, #spirv.storage_class<CrossWorkgroup>>, %i: index) {
  %true = arith.constant true
  // CHECK-DAG: %[[DST_CAST:.+]] = builtin.unrealized_conversion_cast %[[DST]] : memref<4xi1, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<!spirv.array<4 x i8>, CrossWorkgroup>
  // CHECK-DAG: %[[IDX_CAST:.+]] = builtin.unrealized_conversion_cast %[[IDX]]
  // CHECK: %[[ADDR:.+]] = spirv.AccessChain %[[DST_CAST]][%[[IDX_CAST]]]
  // CHECK: %[[ONE_I8:.+]] = spirv.Constant 1 : i8
  // CHECK: spirv.Store "CrossWorkgroup" %[[ADDR]], %[[ONE_I8]] : i8
  memref.store %true, %dst[%i]: memref<4xi1, #spirv.storage_class<CrossWorkgroup>>
  return
}

} // end module

// -----

// Check address space casts

module attributes {
  spirv.target_env = #spirv.target_env<
    #spirv.vce<v1.0,
      [
        Kernel, Addresses, GenericPointer], []>, #spirv.resource_limits<>>
} {

// CHECK-LABEL: func.func @memory_space_cast
func.func @memory_space_cast(%arg: memref<4xf32, #spirv.storage_class<CrossWorkgroup>>)
    -> memref<4xf32, #spirv.storage_class<Function>> {
  // CHECK: %[[ARG_CAST:.+]] = builtin.unrealized_conversion_cast {{.*}} to !spirv.ptr<!spirv.array<4 x f32>, CrossWorkgroup>
  // CHECK: %[[TO_GENERIC:.+]] = spirv.PtrCastToGeneric %[[ARG_CAST]] : !spirv.ptr<!spirv.array<4 x f32>, CrossWorkgroup> to !spirv.ptr<!spirv.array<4 x f32>, Generic>
  // CHECK: %[[TO_PRIVATE:.+]] = spirv.GenericCastToPtr %[[TO_GENERIC]] : !spirv.ptr<!spirv.array<4 x f32>, Generic> to !spirv.ptr<!spirv.array<4 x f32>, Function>
  // CHECK: %[[RET:.+]] = builtin.unrealized_conversion_cast %[[TO_PRIVATE]]
  // CHECK: return %[[RET]]
  %ret = memref.memory_space_cast %arg : memref<4xf32, #spirv.storage_class<CrossWorkgroup>>
    to memref<4xf32, #spirv.storage_class<Function>>
  return %ret : memref<4xf32, #spirv.storage_class<Function>>
}

} // end module

// -----

// Check that casts are properly inserted if the corresponding **compute**
// capability is allowed.
module attributes {
  spirv.target_env = #spirv.target_env<
    #spirv.vce<v1.0, [Shader, Int8, Int16], [
      SPV_KHR_8bit_storage, SPV_KHR_16bit_storage, SPV_KHR_storage_buffer_storage_class
      ]>, #spirv.resource_limits<>>
} {

// CHECK-LABEL: @load_i1
func.func @load_i1(%arg0: memref<i1, #spirv.storage_class<StorageBuffer>>) -> i1 {
  //     CHECK: %[[ONE:.+]] = spirv.Constant 1 : i32
  //     CHECK: %[[RES:.+]]  = spirv.IEqual %{{.+}}, %[[ONE]] : i32
  //     CHECK: return %[[RES]]
  %0 = memref.load %arg0[] : memref<i1, #spirv.storage_class<StorageBuffer>>
  return %0 : i1
}

// CHECK-LABEL: @load_i8
func.func @load_i8(%arg0: memref<i8, #spirv.storage_class<StorageBuffer>>) -> i8 {
  //     CHECK: %[[RES:.+]] = spirv.UConvert %{{.+}} : i32 to i8
  //     CHECK: return %[[RES]]
  %0 = memref.load %arg0[] : memref<i8, #spirv.storage_class<StorageBuffer>>
  return %0 : i8
}

// CHECK-LABEL: @load_i16
func.func @load_i16(%arg0: memref<10xi16, #spirv.storage_class<StorageBuffer>>, %index : index) -> i16 {
  //     CHECK: %[[RES:.+]] = spirv.UConvert %{{.+}} : i32 to i16
  //     CHECK: return %[[RES]]
  %0 = memref.load %arg0[%index] : memref<10xi16, #spirv.storage_class<StorageBuffer>>
  return %0: i16
}

} // end module

// -----

// Check reinterpret_casts

module attributes {
  spirv.target_env = #spirv.target_env<
    #spirv.vce<v1.0,
      [Kernel, Addresses, GenericPointer], []>, #spirv.resource_limits<>>
} {

// CHECK-LABEL: func.func @reinterpret_cast
//  CHECK-SAME:  (%[[MEM:.*]]: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>, %[[OFF:.*]]: index)
func.func @reinterpret_cast(%arg: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>, %arg1: index) -> memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] = builtin.unrealized_conversion_cast %[[MEM]] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<f32, CrossWorkgroup>
//       CHECK:  %[[OFF1:.*]] = builtin.unrealized_conversion_cast %[[OFF]] : index to i32
//       CHECK:  %[[RET:.*]] = spirv.InBoundsPtrAccessChain %[[MEM1]][%[[OFF1]]] : !spirv.ptr<f32, CrossWorkgroup>, i32
//       CHECK:  %[[RET1:.*]] = builtin.unrealized_conversion_cast %[[RET]] : !spirv.ptr<f32, CrossWorkgroup> to memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[RET1]]
  %ret = memref.reinterpret_cast %arg to offset: [%arg1], sizes: [10], strides: [1] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
}

// CHECK-LABEL: func.func @reinterpret_cast_0
//  CHECK-SAME:  (%[[MEM:.*]]: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>)
func.func @reinterpret_cast_0(%arg: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>) -> memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] = builtin.unrealized_conversion_cast %[[MEM]] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<f32, CrossWorkgroup>
//       CHECK:  %[[RET:.*]] = builtin.unrealized_conversion_cast %[[MEM1]] : !spirv.ptr<f32, CrossWorkgroup> to memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[RET]]
  %ret = memref.reinterpret_cast %arg to offset: [0], sizes: [10], strides: [1] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
}

// CHECK-LABEL: func.func @reinterpret_cast_5
//  CHECK-SAME:  (%[[MEM:.*]]: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>)
func.func @reinterpret_cast_5(%arg: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>) -> memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] = builtin.unrealized_conversion_cast %[[MEM]] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<f32, CrossWorkgroup>
//       CHECK:  %[[OFF:.*]] = spirv.Constant 5 : i32
//       CHECK:  %[[RET:.*]] = spirv.InBoundsPtrAccessChain %[[MEM1]][%[[OFF]]] : !spirv.ptr<f32, CrossWorkgroup>, i32
//       CHECK:  %[[RET1:.*]] = builtin.unrealized_conversion_cast %[[RET]] : !spirv.ptr<f32, CrossWorkgroup> to memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[RET1]]
  %ret = memref.reinterpret_cast %arg to offset: [5], sizes: [10], strides: [1] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<?xf32, strided<[1], offset: ?>, #spirv.storage_class<CrossWorkgroup>>
}

} // end module


// -----

// Check casts

module attributes {
  spirv.target_env = #spirv.target_env<
    #spirv.vce<v1.0,
      [Kernel, Addresses, GenericPointer], []>, #spirv.resource_limits<>>
} {

// CHECK-LABEL: func.func @cast
//  CHECK-SAME:  (%[[MEM:.*]]: memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>>)
func.func @cast(%arg: memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>>) -> memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] = builtin.unrealized_conversion_cast %[[MEM]] : memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>> to !spirv.ptr<f32, CrossWorkgroup>
//       CHECK:  %[[MEM2:.*]] = builtin.unrealized_conversion_cast %[[MEM1]] : !spirv.ptr<f32, CrossWorkgroup> to memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[MEM2]]
  %ret = memref.cast %arg : memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>>
}

// TODO: Not supported yet
// CHECK-LABEL: func.func @cast_from_static
//  CHECK-SAME:  (%[[MEM:.*]]: memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>>)
func.func @cast_from_static(%arg: memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>>) -> memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] =  memref.cast %[[MEM]] : memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>> to memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[MEM1]]
  %ret = memref.cast %arg : memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>> to memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<?x4xf32, #spirv.storage_class<CrossWorkgroup>>
}

// TODO: Not supported yet
// CHECK-LABEL: func.func @cast_to_static
//  CHECK-SAME:  (%[[MEM:.*]]: memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>>)
func.func @cast_to_static(%arg: memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>>) -> memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] =  memref.cast %[[MEM]] : memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[MEM1]]
  %ret = memref.cast %arg : memref<4x?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<4x4xf32, #spirv.storage_class<CrossWorkgroup>>
}

// TODO: Not supported yet
// CHECK-LABEL: func.func @cast_to_static_zero_elems
//  CHECK-SAME:  (%[[MEM:.*]]: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>)
func.func @cast_to_static_zero_elems(%arg: memref<?xf32, #spirv.storage_class<CrossWorkgroup>>) -> memref<0xf32, #spirv.storage_class<CrossWorkgroup>> {
//       CHECK:  %[[MEM1:.*]] =  memref.cast %[[MEM]] : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<0xf32, #spirv.storage_class<CrossWorkgroup>>
//       CHECK:  return %[[MEM1]]
  %ret = memref.cast %arg : memref<?xf32, #spirv.storage_class<CrossWorkgroup>> to memref<0xf32, #spirv.storage_class<CrossWorkgroup>>
  return %ret : memref<0xf32, #spirv.storage_class<CrossWorkgroup>>
}

}

// -----

// Check nontemporal attribute

module attributes {
  spirv.target_env = #spirv.target_env<#spirv.vce<v1.0, [
    Shader,
    PhysicalStorageBufferAddresses
  ], [
    SPV_KHR_storage_buffer_storage_class,
    SPV_KHR_physical_storage_buffer
  ]>, #spirv.resource_limits<>>
} {
  func.func @load_nontemporal(%arg0: memref<f32, #spirv.storage_class<StorageBuffer>>) {
    %0 = memref.load %arg0[] {nontemporal = true} : memref<f32, #spirv.storage_class<StorageBuffer>>
//       CHECK:  spirv.Load "StorageBuffer" %{{.+}} ["Nontemporal"] : f32
    memref.store %0, %arg0[] {nontemporal = true} : memref<f32, #spirv.storage_class<StorageBuffer>>
//       CHECK:  spirv.Store "StorageBuffer" %{{.+}}, %{{.+}} ["Nontemporal"] : f32
    return
  }

  func.func @load_nontemporal_aligned(%arg0: memref<f32, #spirv.storage_class<PhysicalStorageBuffer>>) {
    %0 = memref.load %arg0[] {nontemporal = true} : memref<f32, #spirv.storage_class<PhysicalStorageBuffer>>
//       CHECK:  spirv.Load "PhysicalStorageBuffer" %{{.+}} ["Aligned|Nontemporal", 4] : f32
    memref.store %0, %arg0[] {nontemporal = true} : memref<f32, #spirv.storage_class<PhysicalStorageBuffer>>
//       CHECK:  spirv.Store "PhysicalStorageBuffer" %{{.+}}, %{{.+}} ["Aligned|Nontemporal", 4] : f32
    return
  }
}