1. Remove the trailing comma for the last element of memref and add closing parenthesis. 2. Change integration tests to use the new format.
132 lines
4.8 KiB
MLIR
132 lines
4.8 KiB
MLIR
//--------------------------------------------------------------------------------------------------
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// WHEN CREATING A NEW TEST, PLEASE JUST COPY & PASTE WITHOUT EDITS.
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//
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// Set-up that's shared across all tests in this directory. In principle, this
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// config could be moved to lit.local.cfg. However, there are downstream users that
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// do not use these LIT config files. Hence why this is kept inline.
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//
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// DEFINE: %{sparsifier_opts} = enable-runtime-library=true
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// DEFINE: %{sparsifier_opts_sve} = enable-arm-sve=true %{sparsifier_opts}
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// DEFINE: %{compile} = mlir-opt %s --sparsifier="%{sparsifier_opts}"
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// DEFINE: %{compile_sve} = mlir-opt %s --sparsifier="%{sparsifier_opts_sve}"
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// DEFINE: %{run_libs} = -shared-libs=%mlir_c_runner_utils,%mlir_runner_utils
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// DEFINE: %{run_opts} = -e main -entry-point-result=void
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// DEFINE: %{run} = mlir-cpu-runner %{run_opts} %{run_libs}
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// DEFINE: %{run_sve} = %mcr_aarch64_cmd --march=aarch64 --mattr="+sve" %{run_opts} %{run_libs}
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//
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// DEFINE: %{env} =
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//--------------------------------------------------------------------------------------------------
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// RUN: %{compile} | %{run} | FileCheck %s
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//
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// Do the same run, but now with direct IR generation.
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// REDEFINE: %{sparsifier_opts} = enable-runtime-library=false enable-buffer-initialization=true
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// RUN: %{compile} | %{run} | FileCheck %s
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//
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// Do the same run, but now with vectorization.
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// REDEFINE: %{sparsifier_opts} = enable-runtime-library=false vl=4 enable-buffer-initialization=true
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// RUN: %{compile} | %{run} | FileCheck %s
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//
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// Do the same run, but now with VLA vectorization.
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// RUN: %if mlir_arm_sve_tests %{ %{compile_sve} | %{run_sve} | FileCheck %s %}
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#SparseVector = #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed) }>
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#trait_op = {
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indexing_maps = [
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affine_map<(i) -> (i)>, // a
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affine_map<(i) -> (i)> // x (out)
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],
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iterator_types = ["parallel"],
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doc = "x(i) = OP a(i)"
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}
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module {
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// Performs sign operation (using semi-ring unary op)
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// with semantics that
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// > 0 : +1.0
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// < 0 : -1.0
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// +Inf: +1.0
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// -Inf: -1.0
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// +NaN: +NaN
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// -NaN: -NaN
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// +0.0: +0.0
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// -0.0: -0.0
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func.func @sparse_sign(%arg0: tensor<?xf64, #SparseVector>)
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-> tensor<?xf64, #SparseVector> {
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%c0 = arith.constant 0 : index
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%d = tensor.dim %arg0, %c0 : tensor<?xf64, #SparseVector>
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%xin = tensor.empty(%d) : tensor<?xf64, #SparseVector>
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%0 = linalg.generic #trait_op
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ins(%arg0: tensor<?xf64, #SparseVector>)
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outs(%xin: tensor<?xf64, #SparseVector>) {
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^bb0(%a: f64, %x: f64) :
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%result = sparse_tensor.unary %a : f64 to f64
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present={
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^bb1(%s: f64):
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%z = arith.constant 0.0 : f64
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%1 = arith.cmpf one, %s, %z : f64
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%2 = arith.uitofp %1 : i1 to f64
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%3 = math.copysign %2, %s : f64
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%4 = arith.cmpf uno, %s, %s : f64
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%5 = arith.select %4, %s, %3 : f64
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sparse_tensor.yield %5 : f64
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}
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absent={}
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linalg.yield %result : f64
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} -> tensor<?xf64, #SparseVector>
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return %0 : tensor<?xf64, #SparseVector>
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}
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// Driver method to call and verify sign kernel.
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func.func @main() {
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%c0 = arith.constant 0 : index
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%du = arith.constant 0.0 : f64
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%pnan = arith.constant 0x7FF0000001000000 : f64
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%nnan = arith.constant 0xFFF0000001000000 : f64
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%pinf = arith.constant 0x7FF0000000000000 : f64
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%ninf = arith.constant 0xFFF0000000000000 : f64
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// Setup sparse vector.
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%v1 = arith.constant sparse<
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[ [0], [3], [5], [11], [13], [17], [18], [20], [21], [28], [29], [31] ],
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[ -1.5, 1.5, -10.2, 11.3, 1.0, -1.0,
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0x7FF0000001000000, // +NaN
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0xFFF0000001000000, // -NaN
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0x7FF0000000000000, // +Inf
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0xFFF0000000000000, // -Inf
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-0.0, // -Zero
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0.0 // +Zero
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]
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> : tensor<32xf64>
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%sv1 = sparse_tensor.convert %v1
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: tensor<32xf64> to tensor<?xf64, #SparseVector>
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// Call sign kernel.
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%0 = call @sparse_sign(%sv1) : (tensor<?xf64, #SparseVector>)
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-> tensor<?xf64, #SparseVector>
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//
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// Verify the results.
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//
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// CHECK: ---- Sparse Tensor ----
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// CHECK-NEXT: nse = 12
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// CHECK-NEXT: dim = ( 32 )
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// CHECK-NEXT: lvl = ( 32 )
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// CHECK-NEXT: pos[0] : ( 0, 12 )
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// CHECK-NEXT: crd[0] : ( 0, 3, 5, 11, 13, 17, 18, 20, 21, 28, 29, 31 )
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// CHECK-NEXT: values : ( -1, 1, -1, 1, 1, -1, nan, -nan, 1, -1, -0, 0 )
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// CHECK-NEXT: ----
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//
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sparse_tensor.print %0 : tensor<?xf64, #SparseVector>
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// Release the resources.
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bufferization.dealloc_tensor %sv1 : tensor<?xf64, #SparseVector>
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bufferization.dealloc_tensor %0 : tensor<?xf64, #SparseVector>
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return
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}
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}
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