mlir/test/Integration/Dialect/SparseTensor/CPU/sparse_conversion_block.mlir - llvm-project - Git at Google

 //--------------------------------------------------------------------------------------------------
 // WHEN CREATING A NEW TEST, PLEASE JUST COPY & PASTE WITHOUT EDITS.
 //
 // Set-up that's shared across all tests in this directory. In principle, this
 // config could be moved to lit.local.cfg. However, there are downstream users that
 //  do not use these LIT config files. Hence why this is kept inline.
 //
 // DEFINE: %{sparsifier_opts} = enable-runtime-library=true
 // DEFINE: %{sparsifier_opts_sve} = enable-arm-sve=true %{sparsifier_opts}
 // DEFINE: %{compile} = mlir-opt %s --sparsifier="%{sparsifier_opts}"
 // DEFINE: %{compile_sve} = mlir-opt %s --sparsifier="%{sparsifier_opts_sve}"
 // DEFINE: %{run_libs} = -shared-libs=%mlir_c_runner_utils,%mlir_runner_utils
 // DEFINE: %{run_libs_sve} = -shared-libs=%native_mlir_runner_utils,%native_mlir_c_runner_utils
 // DEFINE: %{run_opts} = -e main -entry-point-result=void
 // DEFINE: %{run} = mlir-cpu-runner %{run_opts} %{run_libs}
 // DEFINE: %{run_sve} = %mcr_aarch64_cmd --march=aarch64 --mattr="+sve" %{run_opts} %{run_libs_sve}
 //
 // DEFINE: %{env} =
 //--------------------------------------------------------------------------------------------------

 // RUN: %{compile} | %{run} | FileCheck %s
 //
 // Do the same run, but now with direct IR generation.
 // REDEFINE: %{sparsifier_opts} = enable-runtime-library=false enable-buffer-initialization=true
 // RUN: %{compile} | %{run} | FileCheck %s
 //
 // Do the same run, but now with direct IR generation and vectorization.
 // REDEFINE: %{sparsifier_opts} = enable-runtime-library=false enable-buffer-initialization=true vl=2 reassociate-fp-reductions=true enable-index-optimizations=true
 // RUN: %{compile} | %{run} | FileCheck %s
 //
 // Do the same run, but now with direct IR generation and VLA vectorization.
 // RUN: %if mlir_arm_sve_tests %{ %{compile_sve} | %{run_sve} | FileCheck %s %}

 #CSR  = #sparse_tensor.encoding<{
   map = (d0, d1) -> (d0 : dense, d1 : compressed)
 }>

 #CSC  = #sparse_tensor.encoding<{
   map = (d0, d1) -> (d1 : dense, d0 : compressed)
 }>

 #BSR = #sparse_tensor.encoding<{
    map = ( i, j ) ->
       ( i floordiv 2 : dense,
         j floordiv 2 : compressed,
         i mod 2      : dense,
         j mod 2      : dense
       )
 }>


 //
 // Integration test that tests conversions between sparse tensors.
 //
 module {
   //
   // Main driver.
   //
   func.func @main() {
     %c0 = arith.constant 0 : index
     %c1 = arith.constant 1 : index
     %c2 = arith.constant 2 : index

     //
     // Initialize a 2-dim dense tensor.
     //
     %t = arith.constant sparse<[[0, 0], [0, 1], [0, 2], [0, 3],
                                 [1, 0], [1, 1], [1, 2], [1, 3]],
                                 [ 1.0, 2.0, 3.0, 4.0,
                                   5.0, 6.0, 7.0, 8.0 ]> : tensor<2x4xf64>

     %td = arith.constant dense<[[ 1.0, 2.0, 3.0, 4.0 ],
                                 [ 5.0, 6.0, 7.0, 8.0 ]]> : tensor<2x4xf64>

     // constant -> BSR (either from SparseElementAttibutes or DenseElementAttribute)
     %1 = sparse_tensor.convert %t : tensor<2x4xf64> to tensor<2x4xf64, #BSR>
     %2 = sparse_tensor.convert %td : tensor<2x4xf64> to tensor<2x4xf64, #BSR>
     %3 = sparse_tensor.convert %1 : tensor<2x4xf64, #BSR> to tensor<2x4xf64, #CSR>
     %4 = sparse_tensor.convert %1 : tensor<2x4xf64, #BSR> to tensor<2x4xf64, #CSC>

     //
     // CHECK:      ---- Sparse Tensor ----
     // CHECK-NEXT: nse = 8
     // CHECK-NEXT: dim = ( 2, 4 )
     // CHECK-NEXT: lvl = ( 1, 2, 2, 2 )
     // CHECK-NEXT: pos[1] : ( 0, 2 )
     // CHECK-NEXT: crd[1] : ( 0, 1 )
     // CHECK-NEXT: values : ( 1, 2, 5, 6, 3, 4, 7, 8 )
     // CHECK-NEXT: ----
     //
     // CHECK:      ---- Sparse Tensor ----
     // CHECK-NEXT: nse = 8
     // CHECK-NEXT: dim = ( 2, 4 )
     // CHECK-NEXT: lvl = ( 1, 2, 2, 2 )
     // CHECK-NEXT: pos[1] : ( 0, 2 )
     // CHECK-NEXT: crd[1] : ( 0, 1 )
     // CHECK-NEXT: values : ( 1, 2, 5, 6, 3, 4, 7, 8 )
     // CHECK-NEXT: ----
     //
     // CHECK:      ---- Sparse Tensor ----
     // CHECK-NEXT: nse = 8
     // CHECK-NEXT: dim = ( 2, 4 )
     // CHECK-NEXT: lvl = ( 2, 4 )
     // CHECK-NEXT: pos[1] : ( 0, 4, 8 )
     // CHECK-NEXT: crd[1] : ( 0, 1, 2, 3, 0, 1, 2, 3 )
     // CHECK-NEXT: values : ( 1, 2, 3, 4, 5, 6, 7, 8 )
     // CHECK-NEXT: ----
     //
     // CHECK:      ---- Sparse Tensor ----
     // CHECK-NEXT: nse = 8
     // CHECK-NEXT: dim = ( 2, 4 )
     // CHECK-NEXT: lvl = ( 4, 2 )
     // CHECK-NEXT: pos[1] : ( 0, 2, 4, 6, 8 )
     // CHECK-NEXT: crd[1] : ( 0, 1, 0, 1, 0, 1, 0, 1 )
     // CHECK-NEXT: values : ( 1, 5, 2, 6, 3, 7, 4, 8 )
     // CHECK-NEXT: ----
     //
     sparse_tensor.print %1 : tensor<2x4xf64, #BSR>
     sparse_tensor.print %2 : tensor<2x4xf64, #BSR>
     sparse_tensor.print %3 : tensor<2x4xf64, #CSR>
     sparse_tensor.print %4 : tensor<2x4xf64, #CSC>

     // TODO: Fix memory leaks.
     bufferization.dealloc_tensor %1 : tensor<2x4xf64, #BSR>
     bufferization.dealloc_tensor %2 : tensor<2x4xf64, #BSR>
     bufferization.dealloc_tensor %3 : tensor<2x4xf64, #CSR>
     bufferization.dealloc_tensor %4 : tensor<2x4xf64, #CSC>

     return
   }
 }
	//--------------------------------------------------------------------------------------------------
	// WHEN CREATING A NEW TEST, PLEASE JUST COPY & PASTE WITHOUT EDITS.
	//
	// Set-up that's shared across all tests in this directory. In principle, this
	// config could be moved to lit.local.cfg. However, there are downstream users that
	// do not use these LIT config files. Hence why this is kept inline.
	//
	// DEFINE: %{sparsifier_opts} = enable-runtime-library=true
	// DEFINE: %{sparsifier_opts_sve} = enable-arm-sve=true %{sparsifier_opts}
	// DEFINE: %{compile} = mlir-opt %s --sparsifier="%{sparsifier_opts}"
	// DEFINE: %{compile_sve} = mlir-opt %s --sparsifier="%{sparsifier_opts_sve}"
	// DEFINE: %{run_libs} = -shared-libs=%mlir_c_runner_utils,%mlir_runner_utils
	// DEFINE: %{run_libs_sve} = -shared-libs=%native_mlir_runner_utils,%native_mlir_c_runner_utils
	// DEFINE: %{run_opts} = -e main -entry-point-result=void
	// DEFINE: %{run} = mlir-cpu-runner %{run_opts} %{run_libs}
	// DEFINE: %{run_sve} = %mcr_aarch64_cmd --march=aarch64 --mattr="+sve" %{run_opts} %{run_libs_sve}
	//
	// DEFINE: %{env} =
	//--------------------------------------------------------------------------------------------------

	// RUN: %{compile} \| %{run} \| FileCheck %s
	//
	// Do the same run, but now with direct IR generation.
	// REDEFINE: %{sparsifier_opts} = enable-runtime-library=false enable-buffer-initialization=true
	// RUN: %{compile} \| %{run} \| FileCheck %s
	//
	// Do the same run, but now with direct IR generation and vectorization.
	// REDEFINE: %{sparsifier_opts} = enable-runtime-library=false enable-buffer-initialization=true vl=2 reassociate-fp-reductions=true enable-index-optimizations=true
	// RUN: %{compile} \| %{run} \| FileCheck %s
	//
	// Do the same run, but now with direct IR generation and VLA vectorization.
	// RUN: %if mlir_arm_sve_tests %{ %{compile_sve} \| %{run_sve} \| FileCheck %s %}

	#CSR = #sparse_tensor.encoding<{
	map = (d0, d1) -> (d0 : dense, d1 : compressed)
	}>

	#CSC = #sparse_tensor.encoding<{
	map = (d0, d1) -> (d1 : dense, d0 : compressed)
	}>

	#BSR = #sparse_tensor.encoding<{
	map = ( i, j ) ->
	( i floordiv 2 : dense,
	j floordiv 2 : compressed,
	i mod 2 : dense,
	j mod 2 : dense
	)
	}>


	//
	// Integration test that tests conversions between sparse tensors.
	//
	module {
	//
	// Main driver.
	//
	func.func @main() {
	%c0 = arith.constant 0 : index
	%c1 = arith.constant 1 : index
	%c2 = arith.constant 2 : index

	//
	// Initialize a 2-dim dense tensor.
	//
	%t = arith.constant sparse<[[0, 0], [0, 1], [0, 2], [0, 3],
	[1, 0], [1, 1], [1, 2], [1, 3]],
	[ 1.0, 2.0, 3.0, 4.0,
	5.0, 6.0, 7.0, 8.0 ]> : tensor<2x4xf64>

	%td = arith.constant dense<[[ 1.0, 2.0, 3.0, 4.0 ],
	[ 5.0, 6.0, 7.0, 8.0 ]]> : tensor<2x4xf64>

	// constant -> BSR (either from SparseElementAttibutes or DenseElementAttribute)
	%1 = sparse_tensor.convert %t : tensor<2x4xf64> to tensor<2x4xf64, #BSR>
	%2 = sparse_tensor.convert %td : tensor<2x4xf64> to tensor<2x4xf64, #BSR>
	%3 = sparse_tensor.convert %1 : tensor<2x4xf64, #BSR> to tensor<2x4xf64, #CSR>
	%4 = sparse_tensor.convert %1 : tensor<2x4xf64, #BSR> to tensor<2x4xf64, #CSC>

	//
	// CHECK: ---- Sparse Tensor ----
	// CHECK-NEXT: nse = 8
	// CHECK-NEXT: dim = ( 2, 4 )
	// CHECK-NEXT: lvl = ( 1, 2, 2, 2 )
	// CHECK-NEXT: pos[1] : ( 0, 2 )
	// CHECK-NEXT: crd[1] : ( 0, 1 )
	// CHECK-NEXT: values : ( 1, 2, 5, 6, 3, 4, 7, 8 )
	// CHECK-NEXT: ----
	//
	// CHECK: ---- Sparse Tensor ----
	// CHECK-NEXT: nse = 8
	// CHECK-NEXT: dim = ( 2, 4 )
	// CHECK-NEXT: lvl = ( 1, 2, 2, 2 )
	// CHECK-NEXT: pos[1] : ( 0, 2 )
	// CHECK-NEXT: crd[1] : ( 0, 1 )
	// CHECK-NEXT: values : ( 1, 2, 5, 6, 3, 4, 7, 8 )
	// CHECK-NEXT: ----
	//
	// CHECK: ---- Sparse Tensor ----
	// CHECK-NEXT: nse = 8
	// CHECK-NEXT: dim = ( 2, 4 )
	// CHECK-NEXT: lvl = ( 2, 4 )
	// CHECK-NEXT: pos[1] : ( 0, 4, 8 )
	// CHECK-NEXT: crd[1] : ( 0, 1, 2, 3, 0, 1, 2, 3 )
	// CHECK-NEXT: values : ( 1, 2, 3, 4, 5, 6, 7, 8 )
	// CHECK-NEXT: ----
	//
	// CHECK: ---- Sparse Tensor ----
	// CHECK-NEXT: nse = 8
	// CHECK-NEXT: dim = ( 2, 4 )
	// CHECK-NEXT: lvl = ( 4, 2 )
	// CHECK-NEXT: pos[1] : ( 0, 2, 4, 6, 8 )
	// CHECK-NEXT: crd[1] : ( 0, 1, 0, 1, 0, 1, 0, 1 )
	// CHECK-NEXT: values : ( 1, 5, 2, 6, 3, 7, 4, 8 )
	// CHECK-NEXT: ----
	//
	sparse_tensor.print %1 : tensor<2x4xf64, #BSR>
	sparse_tensor.print %2 : tensor<2x4xf64, #BSR>
	sparse_tensor.print %3 : tensor<2x4xf64, #CSR>
	sparse_tensor.print %4 : tensor<2x4xf64, #CSC>

	// TODO: Fix memory leaks.
	bufferization.dealloc_tensor %1 : tensor<2x4xf64, #BSR>
	bufferization.dealloc_tensor %2 : tensor<2x4xf64, #BSR>
	bufferization.dealloc_tensor %3 : tensor<2x4xf64, #CSR>
	bufferization.dealloc_tensor %4 : tensor<2x4xf64, #CSC>

	return
	}
	}