Mercurial > hg > CbC > CbC_llvm
view mlir/test/Dialect/Linalg/invalid.mlir @ 173:0572611fdcc8 llvm10 llvm12
reorgnization done
| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 25 May 2020 11:55:54 +0900 |
| parents | 1d019706d866 |
| children | 2e18cbf3894f |
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// RUN: mlir-opt %s -split-input-file -verify-diagnostics func @load_number_of_indices(%v : memref<f32>) { // expected-error @+2 {{incorrect number of indices for load}} %c0 = constant 0 : index load %v[%c0] : memref<f32> } // ----- func @slice_number_of_indexings(%arg0: memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) { // expected-error @+2 {{expected 2 indexings, got 1}} %c0 = constant 0: index %0 = linalg.slice %arg0[%c0] : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>, index, memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> } // ----- func @slice_rank_vs_range_indices(%arg0: memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) { // expected-error @+2 {{op expected rank of the view(1) to be the number of ranges(0)}} %c0 = constant 0: index %0 = linalg.slice %arg0[%c0, %c0] : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>, index, index, memref<?xf32, affine_map<(i)[off]->(off + i)>> } // ----- func @store_number_of_indices(%v : memref<f32>) { // expected-error @+3 {{store index operand count not equal to memref rank}} %c0 = constant 0 : index %f0 = constant 0.0 : f32 store %f0, %v[%c0] : memref<f32> } // ----- func @transpose_not_permutation(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) { // expected-error @+1 {{expected a permutation map}} linalg.transpose %v (i, j) -> (i, i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> } // ----- func @transpose_bad_rank(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) { // expected-error @+1 {{expected a permutation map of same rank as the view}} linalg.transpose %v (i) -> (i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> } // ----- func @yield_parent(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+1 {{op expected parent op with LinalgOp interface}} linalg.yield %arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>> } // ----- func @generic_no_region(%arg0: memref<f32>) { // expected-error @+6 {{expected '{' to begin a region}} linalg.generic { args_in = 1, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0 : memref<f32> } // ----- func @generic_at_least_2_operands(%arg0: memref<f32>) { // expected-error @+1 {{op expected 2 or more operands}} linalg.generic { args_in = 1, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0 {} : memref<f32> } // ----- func @generic_exactly_2_views(%arg0: memref<f32>) { // expected-error @+1 {{op expected exactly 2 inputs (tensor or buffer) and output buffer operands}} linalg.generic { args_in = 1, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0, %arg0, %arg0 {}: memref<f32>, memref<f32>, memref<f32> } // ----- func @generic_mismatched_num_returns(%arg0: memref<f32>) { // expected-error @+8 {{op expected number of yield values (1) to match the number of operands of the enclosing LinalgOp (0)}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<() -> ()> ], iterator_types = [] } %arg0 { ^bb(%0: f32): linalg.yield }: memref<f32> } // ----- func @generic_symbol_in_map(%arg0: memref<i32>) { // expected-error @+1 {{op expected indexing_map #0 to have no symbols}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<()[N] -> (0)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i : i32): linalg.yield %i : i32 }: memref<i32> } // ----- func @generic_wrong_dim_in_map(%arg0: memref<1xi32>) { // expected-error @+1 {{op expected indexing_map #0 to have 1 dim(s) to match the number of loops}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i : i32): linalg.yield %i : i32 }: memref<1xi32> } // ----- func @generic_one_d_view(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+1 {{op expected indexing_map #0 results to match view rank: 'memref<?xf32, affine_map<(d0)[s0] -> (d0 + s0)>>'}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<() -> (0, 0)> ], iterator_types = [] } %arg0 { ^bb(%f : f32): linalg.yield %f: f32 }: memref<?xf32, affine_map<(i)[off]->(off + i)>> } // ----- func @generic_result_0_element_type(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+9 {{'linalg.yield' op type of yield operand 1 ('i4') doesn't match the element type of the enclosing linalg.generic op ('f32')}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(i) -> (i)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%0: f32): %1 = constant 1: i4 linalg.yield %1: i4 }: memref<?xf32, affine_map<(i)[off]->(off + i)>> } // ----- func @generic_singular_maps(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>, %arg1: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+1 {{op expected the concatenation of maps in indexing_map to be invertible}} linalg.generic { args_in = 1, args_out = 1, indexing_maps = [ affine_map<(i, j) -> (i + j)>, affine_map<(i, j) -> (i + j)> ], iterator_types = ["parallel","parallel"] } %arg0, %arg1 { ^bb(%0: f32, %1: f32): linalg.yield %1: f32 }: memref<?xf32, affine_map<(i)[off]->(off + i)>>, memref<?xf32, affine_map<(i)[off]->(off + i)>> } //////////////////////////////////////////////////////////////////////////////// ///////////////////////////// Region tests ///////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // ----- func @generic_empty_region(%arg0: memref<f32>) { %f0 = constant 0.0: f32 // expected-error @+1 {{op expects region #0 to have 0 or 1 blocks}} linalg.generic { args_in = 1, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0, %arg0 { ^bb1: linalg.yield %f0: f32 ^bb2: linalg.yield %f0: f32 }: memref<f32>, memref<f32> } // ----- func @generic_empty_region(%arg0: memref<f32>) { %f0 = constant 0.0: f32 // expected-error @+1 {{linalg.generic' op expected region with 1 block}} linalg.generic { args_in = 1, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0, %arg0 { }: memref<f32>, memref<f32> } // ----- func @generic_mismatched_num_arguments(%arg0: memref<f32>) { // expected-error @+1 {{op expected number of block arguments to match number of operands}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0 { ^bb(%f: f32, %g: f32): linalg.yield %f: f32 }: memref<f32> } // ----- func @generic_block_arg_type(%arg0: memref<f32>) { // expected-error @+1 {{op expected block argument 1 of the same type as elemental type of output operand: 'memref<f32>'}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<() -> (0)> ], iterator_types = [] } %arg0 { ^bb(%i: i1): linalg.yield %i : i1 }: memref<f32> } // ----- func @indexed_generic_block_arg_count(%arg0: memref<f32>) { // expected-error @+1 {{op expected number of block arguments to match number of operands + number of loops}} linalg.indexed_generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(d0) -> (d0)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%f: f32): linalg.yield %f : f32 }: memref<f32> } // ----- func @indexed_generic_block_induction_var_arg_type(%arg0: memref<f32>) { // expected-error @+1 {{op expected block argument 1 to be an index}} linalg.indexed_generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(d0) -> (d0)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i: f64, %f: f32): linalg.yield %f: f32 }: memref<f32> } // ----- func @indexed_generic_block_arg_type(%arg0: memref<f32>) { // expected-error @+1 {{op expected block argument 2 of the same type as elemental type of output operand: 'memref<f32>'}} linalg.indexed_generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(d0) -> (d0)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i: index, %f: i1): linalg.yield %i: index }: memref<f32> } // ----- func @indexed_generic_arg_count(%arg0: memref<f32>) { // expected-error @+1 {{op expected number of block arguments to match number of operands + number of loops}} linalg.indexed_generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<()[] -> ()> ], iterator_types = [] } %arg0 { ^bb(%0: index, %1: f32): linalg.yield %1: f32 } : memref<f32> return } // ----- func @indexed_generic_induction_var_arg_type(%arg0: memref<f32>) { // expected-error @+1 {{op expected block argument 1 to be an index}} linalg.indexed_generic { args_in = 0, args_out = 1, iterator_types = ["parallel"], indexing_maps = [ affine_map<(i) -> (i)> ] } %arg0 { ^bb(%0: i32, %1: f32): linalg.yield %1: f32 } : memref<f32> } // ----- func @indexed_generic_result_count(%arg0: memref<?xf32>) { // expected-error @+8 {{op expected number of yield values (1) to match the number of operands of the enclosing LinalgOp (2)}} linalg.indexed_generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(d0) -> (d0)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i: index, %val: f32): linalg.yield %val, %val: f32, f32 }: memref<?xf32> } // ----- func @generic_result_0_element_type(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+9 {{type of yield operand 1 ('i1') doesn't match the element type of the enclosing linalg.generic op ('f32')}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(i) -> (i)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i: f32): %0 = constant 0: i1 linalg.yield %0: i1 }: memref<?xf32, affine_map<(i)[off]->(off + i)>> } // ----- func @generic_result_tensor_type(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+1 {{op result #0 must be ranked tensor of any type values, but got 'f32'}} %0 = linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(i) -> (i)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i: f32): linalg.yield %i: f32 }: memref<?xf32, affine_map<(i)[off]->(off + i)>> -> f32 } // ----- func @generic_result_tensor_type(%arg0: memref<?xf32, affine_map<(i)[off]->(off + i)>>) { // expected-error @+1 {{op result #0 must be ranked tensor of any type values, but got 'f32'}} %0 = linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(i) -> (i)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%i: f32): linalg.yield %i: f32 }: memref<?xf32, affine_map<(i)[off]->(off + i)>> -> f32 } // ----- func @generic(%arg0: memref<?x?xi4>) { // expected-error @+2 {{op expects regions to end with 'linalg.yield', found 'std.addf'}} // expected-note @+1 {{in custom textual format, the absence of terminator implies 'linalg.yield'}} linalg.generic { args_in = 0, args_out = 1, indexing_maps = [ affine_map<(i) -> (i)> ], iterator_types = ["parallel"] } %arg0 { ^bb(%0: i4) : %1 = std.addf %0, %0: i4 } : memref<?x?xi4> return } // ----- func @generic_result_0_element_type(%arg0: memref<?xf32>) { // expected-error @+1 {{'linalg.dot' op expected 3 operands, but found 2}} linalg.dot(%arg0, %arg0): memref<?xf32>, memref<?xf32> } // ----- // expected-error @+1 {{unknown Linalg type}} !invalid_type = type !linalg.unknown // ----- // expected-error @+1 {{expected valid keyword}} !invalid_type = type !linalg<"?"> // ----- func @reshape(%arg0: memref<f32>) { // expected-error @+1 {{expected non-zero memref ranks}} %0 = linalg.reshape %arg0 [affine_map<()->(0)>] : memref<f32> into memref<f32> } // ----- func @reshape(%arg0: memref<?xf32>) { // expected-error @+1 {{expected to collapse or expand dims}} %0 = linalg.reshape %arg0 [affine_map<(i)->(i)>] : memref<?xf32> into memref<?xf32> } // ----- func @reshape(%arg0: memref<?x?x?xf32>) { // expected-error @+1 {{expected rank of the collapsed type(2) to be the number of reassociation maps(1)}} %0 = linalg.reshape %arg0 [affine_map<(i, j, k) -> (i, j)>] : memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]> } // ----- func @reshape(%arg0: memref<?x?x?xf32>) { // expected-error @+1 {{expected reassociation map #0 of same rank as expanded memref(3), but got 1}} %0 = linalg.reshape %arg0 [affine_map<(i) -> (i)>, affine_map<(i, j, k) -> (k)>] : memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]> } // ----- func @reshape(%arg0: memref<?x?x?xf32>) { // expected-error @+1 {{expected reassociation map #1 to be valid and contiguous}} %0 = linalg.reshape %arg0 [affine_map<(i, j, k) -> (i, j)>, affine_map<(i, j, k) -> (k, j)>] : memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]> } // ----- func @reshape(%arg0: memref<?x?x?xf32>) { // expected-error @+1 {{expected collapsed type to be 'memref<?x?xf32>', but got 'memref<?x?xf32, affine_map<(d0, d1)[s0] -> (d0 * s0 + d1)>>'}} %0 = linalg.reshape %arg0 [affine_map<(i, j, k) -> (i, j)>, affine_map<(i, j, k) -> (k)>] : memref<?x?x?xf32> into memref<?x?xf32, affine_map<(d0, d1)[s0] -> (d0 * s0 + d1)>> } // ----- func @pooling_rank_mismatch(%arg0: memref<?x?x?xf32>, %arg1: memref<2x3xf32>, %arg2: memref<?x?x?xf32>) { // expected-error @+1 {{expects memref ranks to match}} linalg.pooling_max(%arg0, %arg1, %arg2) {strides = [2, 1, 2]}: memref<?x?x?xf32>, memref<2x3xf32>, memref<?x?x?xf32> return } // ----- func @named_ops(%a3: memref<?x?x?xf32>, %b3: memref<?x?xf32>, %c3: memref<?x?x?xf32>) { // expected-error @+1 {{op expected indexing_map #1 results to match view rank: 'memref<?x?xf32>'}} linalg.batch_matmul %a3, %b3, %c3 : (memref<?x?x?xf32>, memref<?x?xf32>, memref<?x?x?xf32>) -> () return }