mlir/test/mlir-cpu-runner/unranked_memref.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s -convert-linalg-to-loops             \
 // RUN:             -convert-scf-to-std                  \
 // RUN:             -convert-arith-to-llvm               \
 // RUN:             -convert-linalg-to-llvm              \
 // RUN:             -convert-memref-to-llvm              \
 // RUN:             -convert-std-to-llvm                 \
 // RUN:             -reconcile-unrealized-casts |        \
 // RUN: mlir-cpu-runner -e main -entry-point-result=void \
 // RUN: -shared-libs=%mlir_runner_utils_dir/libmlir_runner_utils%shlibext,%mlir_runner_utils_dir/libmlir_c_runner_utils%shlibext | FileCheck %s

 // CHECK: rank = 2
 // CHECK-SAME: sizes = [10, 3]
 // CHECK-SAME: strides = [3, 1]
 // CHECK-COUNT-10: [10, 10, 10]
 //
 // CHECK: rank = 2
 // CHECK-SAME: sizes = [10, 3]
 // CHECK-SAME: strides = [3, 1]
 // CHECK-COUNT-10: [5, 5, 5]
 //
 // CHECK: rank = 2
 // CHECK-SAME: sizes = [10, 3]
 // CHECK-SAME: strides = [3, 1]
 // CHECK-COUNT-10: [2, 2, 2]
 //
 // CHECK: rank = 0
 // 122 is ASCII for 'z'.
 // CHECK: [z]
 //
 // CHECK: rank = 2
 // CHECK-SAME: sizes = [4, 3]
 // CHECK-SAME: strides = [3, 1]
 // CHECK-COUNT-4: [1, 1, 1]
 //
 // CHECK: rank = 2
 // CHECK-SAME: sizes = [4, 3]
 // CHECK-SAME: strides = [3, 1]
 // CHECK-COUNT-4: [1, 1, 1]
 //
 // CHECK: rank = 2
 // CHECK-SAME: sizes = [4, 3]
 // CHECK-SAME: strides = [3, 1]
 // CHECK-COUNT-4: [1, 1, 1]
 func @main() -> () {
     %A = memref.alloc() : memref<10x3xf32, 0>
     %f2 = arith.constant 2.00000e+00 : f32
     %f5 = arith.constant 5.00000e+00 : f32
     %f10 = arith.constant 10.00000e+00 : f32

     %V = memref.cast %A : memref<10x3xf32, 0> to memref<?x?xf32>
     linalg.fill(%f10, %V) : f32, memref<?x?xf32, 0>
     %U = memref.cast %A : memref<10x3xf32, 0> to memref<*xf32>
     call @print_memref_f32(%U) : (memref<*xf32>) -> ()

     %V2 = memref.cast %U : memref<*xf32> to memref<?x?xf32>
     linalg.fill(%f5, %V2) : f32, memref<?x?xf32, 0>
     %U2 = memref.cast %V2 : memref<?x?xf32, 0> to memref<*xf32>
     call @print_memref_f32(%U2) : (memref<*xf32>) -> ()

     %V3 = memref.cast %V2 : memref<?x?xf32> to memref<*xf32>
     %V4 = memref.cast %V3 : memref<*xf32> to memref<?x?xf32>
     linalg.fill(%f2, %V4) : f32, memref<?x?xf32, 0>
     %U3 = memref.cast %V2 : memref<?x?xf32> to memref<*xf32>
     call @print_memref_f32(%U3) : (memref<*xf32>) -> ()

     // 122 is ASCII for 'z'.
     %i8_z = arith.constant 122 : i8
     %I8 = memref.alloc() : memref<i8>
     memref.store %i8_z, %I8[]: memref<i8>
     %U4 = memref.cast %I8 : memref<i8> to memref<*xi8>
     call @print_memref_i8(%U4) : (memref<*xi8>) -> ()

     memref.dealloc %U4 : memref<*xi8>
     memref.dealloc %A : memref<10x3xf32, 0>

     call @return_var_memref_caller() : () -> ()
     call @return_two_var_memref_caller() : () -> ()
     call @dim_op_of_unranked() : () -> ()
     return
 }

 func private @print_memref_i8(memref<*xi8>) attributes { llvm.emit_c_interface }
 func private @print_memref_f32(memref<*xf32>) attributes { llvm.emit_c_interface }

 func @return_two_var_memref_caller() {
   %0 = memref.alloca() : memref<4x3xf32>
   %c0f32 = arith.constant 1.0 : f32
   linalg.fill(%c0f32, %0) : f32, memref<4x3xf32>
   %1:2 = call @return_two_var_memref(%0) : (memref<4x3xf32>) -> (memref<*xf32>, memref<*xf32>)
   call @print_memref_f32(%1#0) : (memref<*xf32>) -> ()
   call @print_memref_f32(%1#1) : (memref<*xf32>) -> ()
   return
  }

  func @return_two_var_memref(%arg0: memref<4x3xf32>) -> (memref<*xf32>, memref<*xf32>) {
   %0 = memref.cast %arg0 : memref<4x3xf32> to memref<*xf32>
   return %0, %0 : memref<*xf32>, memref<*xf32>
 }

 func @return_var_memref_caller() {
   %0 = memref.alloca() : memref<4x3xf32>
   %c0f32 = arith.constant 1.0 : f32
   linalg.fill(%c0f32, %0) : f32, memref<4x3xf32>
   %1 = call @return_var_memref(%0) : (memref<4x3xf32>) -> memref<*xf32>
   call @print_memref_f32(%1) : (memref<*xf32>) -> ()
   return
 }

 func @return_var_memref(%arg0: memref<4x3xf32>) -> memref<*xf32> {
   %0 = memref.cast %arg0: memref<4x3xf32> to memref<*xf32>
   return %0 : memref<*xf32>
 }

 func private @printU64(index) -> ()
 func private @printNewline() -> ()

 func @dim_op_of_unranked() {
   %ranked = memref.alloca() : memref<4x3xf32>
   %unranked = memref.cast %ranked: memref<4x3xf32> to memref<*xf32>

   %c0 = arith.constant 0 : index
   %dim_0 = memref.dim %unranked, %c0 : memref<*xf32>
   call @printU64(%dim_0) : (index) -> ()
   call @printNewline() : () -> ()
   // CHECK: 4

   %c1 = arith.constant 1 : index
   %dim_1 = memref.dim %unranked, %c1 : memref<*xf32>
   call @printU64(%dim_1) : (index) -> ()
   call @printNewline() : () -> ()
   // CHECK: 3

   return
 }
	// RUN: mlir-opt %s -convert-linalg-to-loops \
	// RUN: -convert-scf-to-std \
	// RUN: -convert-arith-to-llvm \
	// RUN: -convert-linalg-to-llvm \
	// RUN: -convert-memref-to-llvm \
	// RUN: -convert-std-to-llvm \
	// RUN: -reconcile-unrealized-casts \| \
	// RUN: mlir-cpu-runner -e main -entry-point-result=void \
	// RUN: -shared-libs=%mlir_runner_utils_dir/libmlir_runner_utils%shlibext,%mlir_runner_utils_dir/libmlir_c_runner_utils%shlibext \| FileCheck %s

	// CHECK: rank = 2
	// CHECK-SAME: sizes = [10, 3]
	// CHECK-SAME: strides = [3, 1]
	// CHECK-COUNT-10: [10, 10, 10]
	//
	// CHECK: rank = 2
	// CHECK-SAME: sizes = [10, 3]
	// CHECK-SAME: strides = [3, 1]
	// CHECK-COUNT-10: [5, 5, 5]
	//
	// CHECK: rank = 2
	// CHECK-SAME: sizes = [10, 3]
	// CHECK-SAME: strides = [3, 1]
	// CHECK-COUNT-10: [2, 2, 2]
	//
	// CHECK: rank = 0
	// 122 is ASCII for 'z'.
	// CHECK: [z]
	//
	// CHECK: rank = 2
	// CHECK-SAME: sizes = [4, 3]
	// CHECK-SAME: strides = [3, 1]
	// CHECK-COUNT-4: [1, 1, 1]
	//
	// CHECK: rank = 2
	// CHECK-SAME: sizes = [4, 3]
	// CHECK-SAME: strides = [3, 1]
	// CHECK-COUNT-4: [1, 1, 1]
	//
	// CHECK: rank = 2
	// CHECK-SAME: sizes = [4, 3]
	// CHECK-SAME: strides = [3, 1]
	// CHECK-COUNT-4: [1, 1, 1]
	func @main() -> () {
	%A = memref.alloc() : memref<10x3xf32, 0>
	%f2 = arith.constant 2.00000e+00 : f32
	%f5 = arith.constant 5.00000e+00 : f32
	%f10 = arith.constant 10.00000e+00 : f32

	%V = memref.cast %A : memref<10x3xf32, 0> to memref<?x?xf32>
	linalg.fill(%f10, %V) : f32, memref<?x?xf32, 0>
	%U = memref.cast %A : memref<10x3xf32, 0> to memref<*xf32>
	call @print_memref_f32(%U) : (memref<*xf32>) -> ()

	%V2 = memref.cast %U : memref<*xf32> to memref<?x?xf32>
	linalg.fill(%f5, %V2) : f32, memref<?x?xf32, 0>
	%U2 = memref.cast %V2 : memref<?x?xf32, 0> to memref<*xf32>
	call @print_memref_f32(%U2) : (memref<*xf32>) -> ()

	%V3 = memref.cast %V2 : memref<?x?xf32> to memref<*xf32>
	%V4 = memref.cast %V3 : memref<*xf32> to memref<?x?xf32>
	linalg.fill(%f2, %V4) : f32, memref<?x?xf32, 0>
	%U3 = memref.cast %V2 : memref<?x?xf32> to memref<*xf32>
	call @print_memref_f32(%U3) : (memref<*xf32>) -> ()

	// 122 is ASCII for 'z'.
	%i8_z = arith.constant 122 : i8
	%I8 = memref.alloc() : memref<i8>
	memref.store %i8_z, %I8[]: memref<i8>
	%U4 = memref.cast %I8 : memref<i8> to memref<*xi8>
	call @print_memref_i8(%U4) : (memref<*xi8>) -> ()

	memref.dealloc %U4 : memref<*xi8>
	memref.dealloc %A : memref<10x3xf32, 0>

	call @return_var_memref_caller() : () -> ()
	call @return_two_var_memref_caller() : () -> ()
	call @dim_op_of_unranked() : () -> ()
	return
	}

	func private @print_memref_i8(memref<*xi8>) attributes { llvm.emit_c_interface }
	func private @print_memref_f32(memref<*xf32>) attributes { llvm.emit_c_interface }

	func @return_two_var_memref_caller() {
	%0 = memref.alloca() : memref<4x3xf32>
	%c0f32 = arith.constant 1.0 : f32
	linalg.fill(%c0f32, %0) : f32, memref<4x3xf32>
	%1:2 = call @return_two_var_memref(%0) : (memref<4x3xf32>) -> (memref<xf32>, memref<xf32>)
	call @print_memref_f32(%1#0) : (memref<*xf32>) -> ()
	call @print_memref_f32(%1#1) : (memref<*xf32>) -> ()
	return
	}

	func @return_two_var_memref(%arg0: memref<4x3xf32>) -> (memref<xf32>, memref<xf32>) {
	%0 = memref.cast %arg0 : memref<4x3xf32> to memref<*xf32>
	return %0, %0 : memref<xf32>, memref<xf32>
	}

	func @return_var_memref_caller() {
	%0 = memref.alloca() : memref<4x3xf32>
	%c0f32 = arith.constant 1.0 : f32
	linalg.fill(%c0f32, %0) : f32, memref<4x3xf32>
	%1 = call @return_var_memref(%0) : (memref<4x3xf32>) -> memref<*xf32>
	call @print_memref_f32(%1) : (memref<*xf32>) -> ()
	return
	}

	func @return_var_memref(%arg0: memref<4x3xf32>) -> memref<*xf32> {
	%0 = memref.cast %arg0: memref<4x3xf32> to memref<*xf32>
	return %0 : memref<*xf32>
	}

	func private @printU64(index) -> ()
	func private @printNewline() -> ()

	func @dim_op_of_unranked() {
	%ranked = memref.alloca() : memref<4x3xf32>
	%unranked = memref.cast %ranked: memref<4x3xf32> to memref<*xf32>

	%c0 = arith.constant 0 : index
	%dim_0 = memref.dim %unranked, %c0 : memref<*xf32>
	call @printU64(%dim_0) : (index) -> ()
	call @printNewline() : () -> ()
	// CHECK: 4

	%c1 = arith.constant 1 : index
	%dim_1 = memref.dim %unranked, %c1 : memref<*xf32>
	call @printU64(%dim_1) : (index) -> ()
	call @printNewline() : () -> ()
	// CHECK: 3

	return
	}