754 lines
44 KiB
MLIR
754 lines
44 KiB
MLIR
// RUN: mlir-opt -split-input-file -convert-memref-to-llvm %s | FileCheck %s
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// RUN: mlir-opt -split-input-file -convert-memref-to-llvm='use-aligned-alloc=1' %s | FileCheck %s --check-prefix=ALIGNED-ALLOC
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// RUN: mlir-opt -split-input-file -convert-memref-to-llvm='index-bitwidth=32' %s | FileCheck --check-prefix=CHECK32 %s
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// CHECK-LABEL: func @mixed_alloc(
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// CHECK: %[[Marg:.*]]: index, %[[Narg:.*]]: index)
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func.func @mixed_alloc(%arg0: index, %arg1: index) -> memref<?x42x?xf32> {
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// CHECK-DAG: %[[M:.*]] = builtin.unrealized_conversion_cast %[[Marg]]
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// CHECK-DAG: %[[N:.*]] = builtin.unrealized_conversion_cast %[[Narg]]
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// CHECK: %[[c42:.*]] = llvm.mlir.constant(42 : index) : i64
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// CHECK-NEXT: %[[one:.*]] = llvm.mlir.constant(1 : index) : i64
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// CHECK-NEXT: %[[st0:.*]] = llvm.mul %[[N]], %[[c42]] : i64
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// CHECK-NEXT: %[[sz:.*]] = llvm.mul %[[st0]], %[[M]] : i64
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// CHECK-NEXT: %[[null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
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// CHECK-NEXT: %[[gep:.*]] = llvm.getelementptr %[[null]][%[[sz]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: %[[sz_bytes:.*]] = llvm.ptrtoint %[[gep]] : !llvm.ptr<f32> to i64
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// CHECK-NEXT: llvm.call @malloc(%[[sz_bytes]]) : (i64) -> !llvm.ptr<i8>
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// CHECK-NEXT: llvm.bitcast %{{.*}} : !llvm.ptr<i8> to !llvm.ptr<f32>
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// CHECK-NEXT: llvm.mlir.undef : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %{{.*}}, %{{.*}}[0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %{{.*}}, %{{.*}}[1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: %[[off:.*]] = llvm.mlir.constant(0 : index) : i64
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// CHECK-NEXT: llvm.insertvalue %[[off]], %{{.*}}[2] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[M]], %{{.*}}[3, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[c42]], %{{.*}}[3, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[N]], %{{.*}}[3, 2] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[st0]], %{{.*}}[4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[N]], %{{.*}}[4, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[one]], %{{.*}}[4, 2] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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%0 = memref.alloc(%arg0, %arg1) : memref<?x42x?xf32>
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return %0 : memref<?x42x?xf32>
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}
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// -----
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// CHECK-LABEL: func @mixed_dealloc
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func.func @mixed_dealloc(%arg0: memref<?x42x?xf32>) {
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// CHECK: %[[ptr:.*]] = llvm.extractvalue %{{.*}}[0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>
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// CHECK-NEXT: %[[ptri8:.*]] = llvm.bitcast %[[ptr]] : !llvm.ptr<f32> to !llvm.ptr<i8>
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// CHECK-NEXT: llvm.call @free(%[[ptri8]]) : (!llvm.ptr<i8>) -> ()
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memref.dealloc %arg0 : memref<?x42x?xf32>
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return
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}
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// -----
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// CHECK-LABEL: func @dynamic_alloc(
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// CHECK: %[[Marg:.*]]: index, %[[Narg:.*]]: index)
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func.func @dynamic_alloc(%arg0: index, %arg1: index) -> memref<?x?xf32> {
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// CHECK-DAG: %[[M:.*]] = builtin.unrealized_conversion_cast %[[Marg]]
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// CHECK-DAG: %[[N:.*]] = builtin.unrealized_conversion_cast %[[Narg]]
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// CHECK-NEXT: %[[one:.*]] = llvm.mlir.constant(1 : index) : i64
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// CHECK-NEXT: %[[sz:.*]] = llvm.mul %[[N]], %[[M]] : i64
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// CHECK-NEXT: %[[null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
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// CHECK-NEXT: %[[gep:.*]] = llvm.getelementptr %[[null]][%[[sz]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: %[[sz_bytes:.*]] = llvm.ptrtoint %[[gep]] : !llvm.ptr<f32> to i64
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// CHECK-NEXT: llvm.call @malloc(%[[sz_bytes]]) : (i64) -> !llvm.ptr<i8>
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// CHECK-NEXT: llvm.bitcast %{{.*}} : !llvm.ptr<i8> to !llvm.ptr<f32>
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// CHECK-NEXT: llvm.mlir.undef : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %{{.*}}, %{{.*}}[0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %{{.*}}, %{{.*}}[1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[off:.*]] = llvm.mlir.constant(0 : index) : i64
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// CHECK-NEXT: llvm.insertvalue %[[off]], %{{.*}}[2] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[M]], %{{.*}}[3, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[N]], %{{.*}}[3, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[N]], %{{.*}}[4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[one]], %{{.*}}[4, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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%0 = memref.alloc(%arg0, %arg1) : memref<?x?xf32>
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return %0 : memref<?x?xf32>
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}
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// -----
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// CHECK-LABEL: func @dynamic_alloca
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// CHECK: %[[Marg:.*]]: index, %[[Narg:.*]]: index)
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func.func @dynamic_alloca(%arg0: index, %arg1: index) -> memref<?x?xf32> {
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// CHECK-DAG: %[[M:.*]] = builtin.unrealized_conversion_cast %[[Marg]]
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// CHECK-DAG: %[[N:.*]] = builtin.unrealized_conversion_cast %[[Narg]]
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// CHECK-NEXT: %[[st1:.*]] = llvm.mlir.constant(1 : index) : i64
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// CHECK-NEXT: %[[num_elems:.*]] = llvm.mul %[[N]], %[[M]] : i64
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// CHECK-NEXT: %[[null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
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// CHECK-NEXT: %[[gep:.*]] = llvm.getelementptr %[[null]][%[[num_elems]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: %[[sz_bytes:.*]] = llvm.ptrtoint %[[gep]] : !llvm.ptr<f32> to i64
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// CHECK-NEXT: %[[allocated:.*]] = llvm.alloca %[[sz_bytes]] x f32 : (i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: llvm.mlir.undef : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[allocated]], %{{.*}}[0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[allocated]], %{{.*}}[1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[off:.*]] = llvm.mlir.constant(0 : index) : i64
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// CHECK-NEXT: llvm.insertvalue %[[off]], %{{.*}}[2] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[M]], %{{.*}}[3, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[N]], %{{.*}}[3, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[N]], %{{.*}}[4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: llvm.insertvalue %[[st1]], %{{.*}}[4, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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%0 = memref.alloca(%arg0, %arg1) : memref<?x?xf32>
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// Test with explicitly specified alignment. llvm.alloca takes care of the
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// alignment. The same pointer is thus used for allocation and aligned
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// accesses.
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// CHECK: %[[alloca_aligned:.*]] = llvm.alloca %{{.*}} x f32 {alignment = 32 : i64} : (i64) -> !llvm.ptr<f32>
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// CHECK: %[[desc:.*]] = llvm.mlir.undef : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK: %[[desc1:.*]] = llvm.insertvalue %[[alloca_aligned]], %[[desc]][0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK: llvm.insertvalue %[[alloca_aligned]], %[[desc1]][1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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memref.alloca(%arg0, %arg1) {alignment = 32} : memref<?x?xf32>
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return %0 : memref<?x?xf32>
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}
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// -----
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// CHECK-LABEL: func @dynamic_dealloc
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func.func @dynamic_dealloc(%arg0: memref<?x?xf32>) {
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// CHECK: %[[ptr:.*]] = llvm.extractvalue %{{.*}}[0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[ptri8:.*]] = llvm.bitcast %[[ptr]] : !llvm.ptr<f32> to !llvm.ptr<i8>
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// CHECK-NEXT: llvm.call @free(%[[ptri8]]) : (!llvm.ptr<i8>) -> ()
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memref.dealloc %arg0 : memref<?x?xf32>
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return
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}
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// -----
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// CHECK-LABEL: func @stdlib_aligned_alloc({{.*}})
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// ALIGNED-ALLOC-LABEL: func @stdlib_aligned_alloc({{.*}})
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func.func @stdlib_aligned_alloc(%N : index) -> memref<32x18xf32> {
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// ALIGNED-ALLOC: %[[sz1:.*]] = llvm.mlir.constant(32 : index) : i64
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// ALIGNED-ALLOC-NEXT: %[[sz2:.*]] = llvm.mlir.constant(18 : index) : i64
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// ALIGNED-ALLOC-NEXT: %[[one:.*]] = llvm.mlir.constant(1 : index) : i64
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// ALIGNED-ALLOC-NEXT: %[[num_elems:.*]] = llvm.mlir.constant(576 : index) : i64
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// ALIGNED-ALLOC-NEXT: %[[null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
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// ALIGNED-ALLOC-NEXT: %[[gep:.*]] = llvm.getelementptr %[[null]][%[[num_elems]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// ALIGNED-ALLOC-NEXT: %[[bytes:.*]] = llvm.ptrtoint %[[gep]] : !llvm.ptr<f32> to i64
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// ALIGNED-ALLOC-NEXT: %[[alignment:.*]] = llvm.mlir.constant(32 : index) : i64
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// ALIGNED-ALLOC-NEXT: %[[allocated:.*]] = llvm.call @aligned_alloc(%[[alignment]], %[[bytes]]) : (i64, i64) -> !llvm.ptr<i8>
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// ALIGNED-ALLOC-NEXT: llvm.bitcast %[[allocated]] : !llvm.ptr<i8> to !llvm.ptr<f32>
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%0 = memref.alloc() {alignment = 32} : memref<32x18xf32>
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// Do another alloc just to test that we have a unique declaration for
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// aligned_alloc.
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// ALIGNED-ALLOC: llvm.call @aligned_alloc
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%1 = memref.alloc() {alignment = 64} : memref<4096xf32>
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// Alignment is to element type boundaries (minimum 16 bytes).
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// ALIGNED-ALLOC: %[[c32:.*]] = llvm.mlir.constant(32 : index) : i64
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// ALIGNED-ALLOC-NEXT: llvm.call @aligned_alloc(%[[c32]]
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%2 = memref.alloc() : memref<4096xvector<8xf32>>
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// The minimum alignment is 16 bytes unless explicitly specified.
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// ALIGNED-ALLOC: %[[c16:.*]] = llvm.mlir.constant(16 : index) : i64
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// ALIGNED-ALLOC-NEXT: llvm.call @aligned_alloc(%[[c16]],
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%3 = memref.alloc() : memref<4096xvector<2xf32>>
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// ALIGNED-ALLOC: %[[c8:.*]] = llvm.mlir.constant(8 : index) : i64
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// ALIGNED-ALLOC-NEXT: llvm.call @aligned_alloc(%[[c8]],
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%4 = memref.alloc() {alignment = 8} : memref<1024xvector<4xf32>>
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// Bump the memref allocation size if its size is not a multiple of alignment.
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// ALIGNED-ALLOC: %[[c32:.*]] = llvm.mlir.constant(32 : index) : i64
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// ALIGNED-ALLOC: llvm.mlir.constant(1 : index) : i64
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// ALIGNED-ALLOC-NEXT: llvm.sub
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// ALIGNED-ALLOC-NEXT: llvm.add
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// ALIGNED-ALLOC-NEXT: llvm.urem
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// ALIGNED-ALLOC-NEXT: %[[SIZE_ALIGNED:.*]] = llvm.sub
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// ALIGNED-ALLOC-NEXT: llvm.call @aligned_alloc(%[[c32]], %[[SIZE_ALIGNED]])
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%5 = memref.alloc() {alignment = 32} : memref<100xf32>
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// Bump alignment to the next power of two if it isn't.
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// ALIGNED-ALLOC: %[[c128:.*]] = llvm.mlir.constant(128 : index) : i64
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// ALIGNED-ALLOC: llvm.call @aligned_alloc(%[[c128]]
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%6 = memref.alloc(%N) : memref<?xvector<18xf32>>
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return %0 : memref<32x18xf32>
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}
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// -----
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// CHECK-LABEL: func @mixed_load(
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// CHECK: %{{.*}}, %[[Iarg:.*]]: index, %[[Jarg:.*]]: index)
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func.func @mixed_load(%mixed : memref<42x?xf32>, %i : index, %j : index) {
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// CHECK-DAG: %[[I:.*]] = builtin.unrealized_conversion_cast %[[Iarg]]
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// CHECK-DAG: %[[J:.*]] = builtin.unrealized_conversion_cast %[[Jarg]]
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// CHECK: %[[ptr:.*]] = llvm.extractvalue %[[ld:.*]][1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[st0:.*]] = llvm.extractvalue %[[ld]][4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[offI:.*]] = llvm.mul %[[I]], %[[st0]] : i64
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// CHECK-NEXT: %[[off1:.*]] = llvm.add %[[offI]], %[[J]] : i64
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// CHECK-NEXT: %[[addr:.*]] = llvm.getelementptr %[[ptr]][%[[off1]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: llvm.load %[[addr]] : !llvm.ptr<f32>
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%0 = memref.load %mixed[%i, %j] : memref<42x?xf32>
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return
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}
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// -----
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// CHECK-LABEL: func @dynamic_load(
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// CHECK: %{{.*}}, %[[Iarg:.*]]: index, %[[Jarg:.*]]: index)
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func.func @dynamic_load(%dynamic : memref<?x?xf32>, %i : index, %j : index) {
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// CHECK-DAG: %[[I:.*]] = builtin.unrealized_conversion_cast %[[Iarg]]
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// CHECK-DAG: %[[J:.*]] = builtin.unrealized_conversion_cast %[[Jarg]]
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// CHECK: %[[ptr:.*]] = llvm.extractvalue %[[ld:.*]][1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[st0:.*]] = llvm.extractvalue %[[ld]][4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[offI:.*]] = llvm.mul %[[I]], %[[st0]] : i64
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// CHECK-NEXT: %[[off1:.*]] = llvm.add %[[offI]], %[[J]] : i64
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// CHECK-NEXT: %[[addr:.*]] = llvm.getelementptr %[[ptr]][%[[off1]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: llvm.load %[[addr]] : !llvm.ptr<f32>
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%0 = memref.load %dynamic[%i, %j] : memref<?x?xf32>
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return
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}
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// -----
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// CHECK-LABEL: func @prefetch
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// CHECK: %{{.*}}, %[[Iarg:.*]]: index, %[[Jarg:.*]]: index)
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func.func @prefetch(%A : memref<?x?xf32>, %i : index, %j : index) {
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// CHECK-DAG: %[[I:.*]] = builtin.unrealized_conversion_cast %[[Iarg]]
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// CHECK-DAG: %[[J:.*]] = builtin.unrealized_conversion_cast %[[Jarg]]
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// CHECK: %[[ptr:.*]] = llvm.extractvalue %[[ld:.*]][1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[st0:.*]] = llvm.extractvalue %[[ld]][4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
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// CHECK-NEXT: %[[offI:.*]] = llvm.mul %[[I]], %[[st0]] : i64
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// CHECK-NEXT: %[[off1:.*]] = llvm.add %[[offI]], %[[J]] : i64
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// CHECK-NEXT: %[[addr:.*]] = llvm.getelementptr %[[ptr]][%[[off1]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
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// CHECK-NEXT: [[C1:%.*]] = llvm.mlir.constant(1 : i32) : i32
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// CHECK-NEXT: [[C3:%.*]] = llvm.mlir.constant(3 : i32) : i32
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// CHECK-NEXT: [[C1_1:%.*]] = llvm.mlir.constant(1 : i32) : i32
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// CHECK-NEXT: "llvm.intr.prefetch"(%[[addr]], [[C1]], [[C3]], [[C1_1]]) : (!llvm.ptr<f32>, i32, i32, i32) -> ()
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memref.prefetch %A[%i, %j], write, locality<3>, data : memref<?x?xf32>
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// CHECK: [[C0:%.*]] = llvm.mlir.constant(0 : i32) : i32
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// CHECK: [[C0_1:%.*]] = llvm.mlir.constant(0 : i32) : i32
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// CHECK: [[C1_2:%.*]] = llvm.mlir.constant(1 : i32) : i32
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// CHECK: "llvm.intr.prefetch"(%{{.*}}, [[C0]], [[C0_1]], [[C1_2]]) : (!llvm.ptr<f32>, i32, i32, i32) -> ()
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memref.prefetch %A[%i, %j], read, locality<0>, data : memref<?x?xf32>
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// CHECK: [[C0_2:%.*]] = llvm.mlir.constant(0 : i32) : i32
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// CHECK: [[C2:%.*]] = llvm.mlir.constant(2 : i32) : i32
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// CHECK: [[C0_3:%.*]] = llvm.mlir.constant(0 : i32) : i32
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// CHECK: "llvm.intr.prefetch"(%{{.*}}, [[C0_2]], [[C2]], [[C0_3]]) : (!llvm.ptr<f32>, i32, i32, i32) -> ()
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memref.prefetch %A[%i, %j], read, locality<2>, instr : memref<?x?xf32>
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return
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}
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// -----
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// CHECK-LABEL: func @dynamic_store
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// CHECK: %{{.*}}, %[[Iarg:.*]]: index, %[[Jarg:.*]]: index
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func.func @dynamic_store(%dynamic : memref<?x?xf32>, %i : index, %j : index, %val : f32) {
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// CHECK-DAG: %[[I:.*]] = builtin.unrealized_conversion_cast %[[Iarg]]
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// CHECK-DAG: %[[J:.*]] = builtin.unrealized_conversion_cast %[[Jarg]]
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// CHECK: %[[ptr:.*]] = llvm.extractvalue %[[ld:.*]][1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
|
|
// CHECK-NEXT: %[[st0:.*]] = llvm.extractvalue %[[ld]][4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
|
|
// CHECK-NEXT: %[[offI:.*]] = llvm.mul %[[I]], %[[st0]] : i64
|
|
// CHECK-NEXT: %[[off1:.*]] = llvm.add %[[offI]], %[[J]] : i64
|
|
// CHECK-NEXT: %[[addr:.*]] = llvm.getelementptr %[[ptr]][%[[off1]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
|
|
// CHECK-NEXT: llvm.store %{{.*}}, %[[addr]] : !llvm.ptr<f32>
|
|
memref.store %val, %dynamic[%i, %j] : memref<?x?xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @mixed_store
|
|
// CHECK: %{{.*}}, %[[Iarg:.*]]: index, %[[Jarg:.*]]: index
|
|
func.func @mixed_store(%mixed : memref<42x?xf32>, %i : index, %j : index, %val : f32) {
|
|
// CHECK-DAG: %[[I:.*]] = builtin.unrealized_conversion_cast %[[Iarg]]
|
|
// CHECK-DAG: %[[J:.*]] = builtin.unrealized_conversion_cast %[[Jarg]]
|
|
// CHECK: %[[ptr:.*]] = llvm.extractvalue %[[ld:.*]][1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
|
|
// CHECK-NEXT: %[[st0:.*]] = llvm.extractvalue %[[ld]][4, 0] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<2 x i64>, array<2 x i64>)>
|
|
// CHECK-NEXT: %[[offI:.*]] = llvm.mul %[[I]], %[[st0]] : i64
|
|
// CHECK-NEXT: %[[off1:.*]] = llvm.add %[[offI]], %[[J]] : i64
|
|
// CHECK-NEXT: %[[addr:.*]] = llvm.getelementptr %[[ptr]][%[[off1]]] : (!llvm.ptr<f32>, i64) -> !llvm.ptr<f32>
|
|
// CHECK-NEXT: llvm.store %{{.*}}, %[[addr]] : !llvm.ptr<f32>
|
|
memref.store %val, %mixed[%i, %j] : memref<42x?xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_static_to_dynamic
|
|
func.func @memref_cast_static_to_dynamic(%static : memref<10x42xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %static : memref<10x42xf32> to memref<?x?xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_static_to_mixed
|
|
func.func @memref_cast_static_to_mixed(%static : memref<10x42xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %static : memref<10x42xf32> to memref<?x42xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_dynamic_to_static
|
|
func.func @memref_cast_dynamic_to_static(%dynamic : memref<?x?xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %dynamic : memref<?x?xf32> to memref<10x12xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_dynamic_to_mixed
|
|
func.func @memref_cast_dynamic_to_mixed(%dynamic : memref<?x?xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %dynamic : memref<?x?xf32> to memref<?x12xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_mixed_to_dynamic
|
|
func.func @memref_cast_mixed_to_dynamic(%mixed : memref<42x?xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %mixed : memref<42x?xf32> to memref<?x?xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_mixed_to_static
|
|
func.func @memref_cast_mixed_to_static(%mixed : memref<42x?xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %mixed : memref<42x?xf32> to memref<42x1xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_mixed_to_mixed
|
|
func.func @memref_cast_mixed_to_mixed(%mixed : memref<42x?xf32>) {
|
|
// CHECK-NOT: llvm.bitcast
|
|
%0 = memref.cast %mixed : memref<42x?xf32> to memref<?x1xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_ranked_to_unranked
|
|
// CHECK32-LABEL: func @memref_cast_ranked_to_unranked
|
|
func.func @memref_cast_ranked_to_unranked(%arg : memref<42x2x?xf32>) {
|
|
// CHECK-DAG: %[[c:.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK-DAG: %[[p:.*]] = llvm.alloca %[[c]] x !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)> : (i64) -> !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>>
|
|
// CHECK-DAG: llvm.store %{{.*}}, %[[p]] : !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>>
|
|
// CHECK-DAG: %[[p2:.*]] = llvm.bitcast %[[p]] : !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i64, array<3 x i64>, array<3 x i64>)>> to !llvm.ptr<i8>
|
|
// CHECK-DAG: %[[r:.*]] = llvm.mlir.constant(3 : index) : i64
|
|
// CHECK : llvm.mlir.undef : !llvm.struct<(i64, ptr<i8>)>
|
|
// CHECK-DAG: llvm.insertvalue %[[r]], %{{.*}}[0] : !llvm.struct<(i64, ptr<i8>)>
|
|
// CHECK-DAG: llvm.insertvalue %[[p2]], %{{.*}}[1] : !llvm.struct<(i64, ptr<i8>)>
|
|
// CHECK32-DAG: %[[c:.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK32-DAG: %[[p:.*]] = llvm.alloca %[[c]] x !llvm.struct<(ptr<f32>, ptr<f32>, i32, array<3 x i32>, array<3 x i32>)> : (i64) -> !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i32, array<3 x i32>, array<3 x i32>)>>
|
|
// CHECK32-DAG: llvm.store %{{.*}}, %[[p]] : !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i32, array<3 x i32>, array<3 x i32>)>>
|
|
// CHECK32-DAG: %[[p2:.*]] = llvm.bitcast %[[p]] : !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i32, array<3 x i32>, array<3 x i32>)>> to !llvm.ptr<i8>
|
|
// CHECK32-DAG: %[[r:.*]] = llvm.mlir.constant(3 : index) : i32
|
|
// CHECK32 : llvm.mlir.undef : !llvm.struct<(i32, ptr<i8>)>
|
|
// CHECK32-DAG: llvm.insertvalue %[[r]], %{{.*}}[0] : !llvm.struct<(i32, ptr<i8>)>
|
|
// CHECK32-DAG: llvm.insertvalue %[[p2]], %{{.*}}[1] : !llvm.struct<(i32, ptr<i8>)>
|
|
%0 = memref.cast %arg : memref<42x2x?xf32> to memref<*xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @memref_cast_unranked_to_ranked
|
|
func.func @memref_cast_unranked_to_ranked(%arg : memref<*xf32>) {
|
|
// CHECK: %[[p:.*]] = llvm.extractvalue %{{.*}}[1] : !llvm.struct<(i64, ptr<i8>)>
|
|
// CHECK-NEXT: llvm.bitcast %[[p]] : !llvm.ptr<i8> to !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i64, array<4 x i64>, array<4 x i64>)>>
|
|
%0 = memref.cast %arg : memref<*xf32> to memref<?x?x10x2xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func @mixed_memref_dim
|
|
func.func @mixed_memref_dim(%mixed : memref<42x?x?x13x?xf32>) {
|
|
// CHECK: llvm.mlir.constant(42 : index) : i64
|
|
%c0 = arith.constant 0 : index
|
|
%0 = memref.dim %mixed, %c0 : memref<42x?x?x13x?xf32>
|
|
// CHECK: llvm.extractvalue %{{.*}}[3, 1] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<5 x i64>, array<5 x i64>)>
|
|
%c1 = arith.constant 1 : index
|
|
%1 = memref.dim %mixed, %c1 : memref<42x?x?x13x?xf32>
|
|
// CHECK: llvm.extractvalue %{{.*}}[3, 2] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<5 x i64>, array<5 x i64>)>
|
|
%c2 = arith.constant 2 : index
|
|
%2 = memref.dim %mixed, %c2 : memref<42x?x?x13x?xf32>
|
|
// CHECK: llvm.mlir.constant(13 : index) : i64
|
|
%c3 = arith.constant 3 : index
|
|
%3 = memref.dim %mixed, %c3 : memref<42x?x?x13x?xf32>
|
|
// CHECK: llvm.extractvalue %{{.*}}[3, 4] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<5 x i64>, array<5 x i64>)>
|
|
%c4 = arith.constant 4 : index
|
|
%4 = memref.dim %mixed, %c4 : memref<42x?x?x13x?xf32>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: @memref_dim_with_dyn_index
|
|
// CHECK: %{{.*}}, %[[IDXarg:.*]]: index
|
|
func.func @memref_dim_with_dyn_index(%arg : memref<3x?xf32>, %idx : index) -> index {
|
|
// CHECK-DAG: %[[IDX:.*]] = builtin.unrealized_conversion_cast %[[IDXarg]]
|
|
// CHECK-DAG: %[[C1:.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK-DAG: %[[SIZES:.*]] = llvm.extractvalue %{{.*}}[3] : ![[DESCR_TY:.*]]
|
|
// CHECK-DAG: %[[SIZES_PTR:.*]] = llvm.alloca %[[C1]] x !llvm.array<2 x i64> : (i64) -> !llvm.ptr<array<2 x i64>>
|
|
// CHECK-DAG: llvm.store %[[SIZES]], %[[SIZES_PTR]] : !llvm.ptr<array<2 x i64>>
|
|
// CHECK-DAG: %[[RESULT_PTR:.*]] = llvm.getelementptr %[[SIZES_PTR]][0, %[[IDX]]] : (!llvm.ptr<array<2 x i64>>, i64) -> !llvm.ptr<i64>
|
|
// CHECK-DAG: %[[RESULT:.*]] = llvm.load %[[RESULT_PTR]] : !llvm.ptr<i64>
|
|
%result = memref.dim %arg, %idx : memref<3x?xf32>
|
|
return %result : index
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: @memref_reinterpret_cast_ranked_to_static_shape
|
|
func.func @memref_reinterpret_cast_ranked_to_static_shape(%input : memref<2x3xf32>) {
|
|
%output = memref.reinterpret_cast %input to
|
|
offset: [0], sizes: [6, 1], strides: [1, 1]
|
|
: memref<2x3xf32> to memref<6x1xf32>
|
|
return
|
|
}
|
|
// CHECK: [[INPUT:%.*]] = builtin.unrealized_conversion_cast %{{.*}} :
|
|
// CHECK: to [[TY:!.*]]
|
|
// CHECK: [[OUT_0:%.*]] = llvm.mlir.undef : [[TY]]
|
|
// CHECK: [[BASE_PTR:%.*]] = llvm.extractvalue [[INPUT]][0] : [[TY]]
|
|
// CHECK: [[ALIGNED_PTR:%.*]] = llvm.extractvalue [[INPUT]][1] : [[TY]]
|
|
// CHECK: [[OUT_1:%.*]] = llvm.insertvalue [[BASE_PTR]], [[OUT_0]][0] : [[TY]]
|
|
// CHECK: [[OUT_2:%.*]] = llvm.insertvalue [[ALIGNED_PTR]], [[OUT_1]][1] : [[TY]]
|
|
// CHECK: [[OFFSET:%.*]] = llvm.mlir.constant(0 : index) : i64
|
|
// CHECK: [[OUT_3:%.*]] = llvm.insertvalue [[OFFSET]], [[OUT_2]][2] : [[TY]]
|
|
// CHECK: [[SIZE_0:%.*]] = llvm.mlir.constant(6 : index) : i64
|
|
// CHECK: [[OUT_4:%.*]] = llvm.insertvalue [[SIZE_0]], [[OUT_3]][3, 0] : [[TY]]
|
|
// CHECK: [[SIZE_1:%.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK: [[OUT_5:%.*]] = llvm.insertvalue [[SIZE_1]], [[OUT_4]][4, 0] : [[TY]]
|
|
// CHECK: [[STRIDE_0:%.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK: [[OUT_6:%.*]] = llvm.insertvalue [[STRIDE_0]], [[OUT_5]][3, 1] : [[TY]]
|
|
// CHECK: [[STRIDE_1:%.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK: [[OUT_7:%.*]] = llvm.insertvalue [[STRIDE_1]], [[OUT_6]][4, 1] : [[TY]]
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: @memref_reinterpret_cast_unranked_to_dynamic_shape
|
|
func.func @memref_reinterpret_cast_unranked_to_dynamic_shape(%offset: index,
|
|
%size_0 : index,
|
|
%size_1 : index,
|
|
%stride_0 : index,
|
|
%stride_1 : index,
|
|
%input : memref<*xf32>) {
|
|
%output = memref.reinterpret_cast %input to
|
|
offset: [%offset], sizes: [%size_0, %size_1],
|
|
strides: [%stride_0, %stride_1]
|
|
: memref<*xf32> to memref<?x?xf32, strided<[?, ?], offset: ?>>
|
|
return
|
|
}
|
|
// CHECK-SAME: ([[OFFSETarg:%[a-z,0-9]+]]: index,
|
|
// CHECK-SAME: [[SIZE_0arg:%[a-z,0-9]+]]: index, [[SIZE_1arg:%[a-z,0-9]+]]: index,
|
|
// CHECK-SAME: [[STRIDE_0arg:%[a-z,0-9]+]]: index, [[STRIDE_1arg:%[a-z,0-9]+]]: index,
|
|
// CHECK-DAG: [[OFFSET:%.*]] = builtin.unrealized_conversion_cast [[OFFSETarg]]
|
|
// CHECK-DAG: [[SIZE_0:%.*]] = builtin.unrealized_conversion_cast [[SIZE_0arg]]
|
|
// CHECK-DAG: [[SIZE_1:%.*]] = builtin.unrealized_conversion_cast [[SIZE_1arg]]
|
|
// CHECK-DAG: [[STRIDE_0:%.*]] = builtin.unrealized_conversion_cast [[STRIDE_0arg]]
|
|
// CHECK-DAG: [[STRIDE_1:%.*]] = builtin.unrealized_conversion_cast [[STRIDE_1arg]]
|
|
// CHECK-DAG: [[INPUT:%.*]] = builtin.unrealized_conversion_cast
|
|
// CHECK: [[OUT_0:%.*]] = llvm.mlir.undef : [[TY:!.*]]
|
|
// CHECK: [[DESCRIPTOR:%.*]] = llvm.extractvalue [[INPUT]][1] : !llvm.struct<(i64, ptr<i8>)>
|
|
// CHECK: [[BASE_PTR_PTR:%.*]] = llvm.bitcast [[DESCRIPTOR]] : !llvm.ptr<i8> to !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[BASE_PTR:%.*]] = llvm.load [[BASE_PTR_PTR]] : !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[BASE_PTR_PTR_:%.*]] = llvm.bitcast [[DESCRIPTOR]] : !llvm.ptr<i8> to !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[ALIGNED_PTR_PTR:%.*]] = llvm.getelementptr [[BASE_PTR_PTR_]]{{\[}}1]
|
|
// CHECK-SAME: : (!llvm.ptr<ptr<f32>>) -> !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[ALIGNED_PTR:%.*]] = llvm.load [[ALIGNED_PTR_PTR]] : !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[OUT_1:%.*]] = llvm.insertvalue [[BASE_PTR]], [[OUT_0]][0] : [[TY]]
|
|
// CHECK: [[OUT_2:%.*]] = llvm.insertvalue [[ALIGNED_PTR]], [[OUT_1]][1] : [[TY]]
|
|
// CHECK: [[OUT_3:%.*]] = llvm.insertvalue [[OFFSET]], [[OUT_2]][2] : [[TY]]
|
|
// CHECK: [[OUT_4:%.*]] = llvm.insertvalue [[SIZE_0]], [[OUT_3]][3, 0] : [[TY]]
|
|
// CHECK: [[OUT_5:%.*]] = llvm.insertvalue [[STRIDE_0]], [[OUT_4]][4, 0] : [[TY]]
|
|
// CHECK: [[OUT_6:%.*]] = llvm.insertvalue [[SIZE_1]], [[OUT_5]][3, 1] : [[TY]]
|
|
// CHECK: [[OUT_7:%.*]] = llvm.insertvalue [[STRIDE_1]], [[OUT_6]][4, 1] : [[TY]]
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: @memref_reshape
|
|
func.func @memref_reshape(%input : memref<2x3xf32>, %shape : memref<?xindex>) {
|
|
%output = memref.reshape %input(%shape)
|
|
: (memref<2x3xf32>, memref<?xindex>) -> memref<*xf32>
|
|
return
|
|
}
|
|
// CHECK: [[INPUT:%.*]] = builtin.unrealized_conversion_cast %{{.*}} to [[INPUT_TY:!.*]]
|
|
// CHECK: [[SHAPE:%.*]] = builtin.unrealized_conversion_cast %{{.*}} to [[SHAPE_TY:!.*]]
|
|
// CHECK: [[RANK:%.*]] = llvm.extractvalue [[SHAPE]][3, 0] : [[SHAPE_TY]]
|
|
// CHECK: [[UNRANKED_OUT_O:%.*]] = llvm.mlir.undef : !llvm.struct<(i64, ptr<i8>)>
|
|
// CHECK: [[UNRANKED_OUT_1:%.*]] = llvm.insertvalue [[RANK]], [[UNRANKED_OUT_O]][0] : !llvm.struct<(i64, ptr<i8>)>
|
|
|
|
// Compute size in bytes to allocate result ranked descriptor
|
|
// CHECK: [[C1:%.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK: [[C2:%.*]] = llvm.mlir.constant(2 : index) : i64
|
|
// CHECK: [[PTR_SIZE:%.*]] = llvm.mlir.constant(8 : index) : i64
|
|
// CHECK: [[INDEX_SIZE:%.*]] = llvm.mlir.constant(8 : index) : i64
|
|
// CHECK: [[DOUBLE_PTR_SIZE:%.*]] = llvm.mul [[C2]], [[PTR_SIZE]] : i64
|
|
// CHECK: [[DESC_ALLOC_SIZE:%.*]] = llvm.add [[DOUBLE_PTR_SIZE]], %{{.*}}
|
|
// CHECK: [[UNDERLYING_DESC:%.*]] = llvm.alloca [[DESC_ALLOC_SIZE]] x i8
|
|
// CHECK: llvm.insertvalue [[UNDERLYING_DESC]], [[UNRANKED_OUT_1]][1]
|
|
|
|
// Set allocated, aligned pointers and offset.
|
|
// CHECK: [[ALLOC_PTR:%.*]] = llvm.extractvalue [[INPUT]][0] : [[INPUT_TY]]
|
|
// CHECK: [[ALIGN_PTR:%.*]] = llvm.extractvalue [[INPUT]][1] : [[INPUT_TY]]
|
|
// CHECK: [[OFFSET:%.*]] = llvm.extractvalue [[INPUT]][2] : [[INPUT_TY]]
|
|
// CHECK: [[BASE_PTR_PTR:%.*]] = llvm.bitcast [[UNDERLYING_DESC]]
|
|
// CHECK-SAME: !llvm.ptr<i8> to !llvm.ptr<ptr<f32>>
|
|
// CHECK: llvm.store [[ALLOC_PTR]], [[BASE_PTR_PTR]] : !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[BASE_PTR_PTR_:%.*]] = llvm.bitcast [[UNDERLYING_DESC]] : !llvm.ptr<i8> to !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[ALIGNED_PTR_PTR:%.*]] = llvm.getelementptr [[BASE_PTR_PTR_]]{{\[}}1]
|
|
// CHECK: llvm.store [[ALIGN_PTR]], [[ALIGNED_PTR_PTR]] : !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[BASE_PTR_PTR__:%.*]] = llvm.bitcast [[UNDERLYING_DESC]] : !llvm.ptr<i8> to !llvm.ptr<ptr<f32>>
|
|
// CHECK: [[OFFSET_PTR_:%.*]] = llvm.getelementptr [[BASE_PTR_PTR__]]{{\[}}2]
|
|
// CHECK: [[OFFSET_PTR:%.*]] = llvm.bitcast [[OFFSET_PTR_]]
|
|
// CHECK: llvm.store [[OFFSET]], [[OFFSET_PTR]] : !llvm.ptr<i64>
|
|
|
|
// Iterate over shape operand in reverse order and set sizes and strides.
|
|
// CHECK: [[STRUCT_PTR:%.*]] = llvm.bitcast [[UNDERLYING_DESC]]
|
|
// CHECK-SAME: !llvm.ptr<i8> to !llvm.ptr<struct<(ptr<f32>, ptr<f32>, i64, i64)>>
|
|
// CHECK: [[SIZES_PTR:%.*]] = llvm.getelementptr [[STRUCT_PTR]]{{\[}}0, 3]
|
|
// CHECK: [[STRIDES_PTR:%.*]] = llvm.getelementptr [[SIZES_PTR]]{{\[}}[[RANK]]]
|
|
// CHECK: [[SHAPE_IN_PTR:%.*]] = llvm.extractvalue [[SHAPE]][1] : [[SHAPE_TY]]
|
|
// CHECK: [[C1_:%.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK: [[RANK_MIN_1:%.*]] = llvm.sub [[RANK]], [[C1_]] : i64
|
|
// CHECK: llvm.br ^bb1([[RANK_MIN_1]], [[C1_]] : i64, i64)
|
|
|
|
// CHECK: ^bb1([[DIM:%.*]]: i64, [[CUR_STRIDE:%.*]]: i64):
|
|
// CHECK: [[C0_:%.*]] = llvm.mlir.constant(0 : index) : i64
|
|
// CHECK: [[COND:%.*]] = llvm.icmp "sge" [[DIM]], [[C0_]] : i64
|
|
// CHECK: llvm.cond_br [[COND]], ^bb2, ^bb3
|
|
|
|
// CHECK: ^bb2:
|
|
// CHECK: [[SIZE_PTR:%.*]] = llvm.getelementptr [[SHAPE_IN_PTR]]{{\[}}[[DIM]]]
|
|
// CHECK: [[SIZE:%.*]] = llvm.load [[SIZE_PTR]] : !llvm.ptr<i64>
|
|
// CHECK: [[TARGET_SIZE_PTR:%.*]] = llvm.getelementptr [[SIZES_PTR]]{{\[}}[[DIM]]]
|
|
// CHECK: llvm.store [[SIZE]], [[TARGET_SIZE_PTR]] : !llvm.ptr<i64>
|
|
// CHECK: [[TARGET_STRIDE_PTR:%.*]] = llvm.getelementptr [[STRIDES_PTR]]{{\[}}[[DIM]]]
|
|
// CHECK: llvm.store [[CUR_STRIDE]], [[TARGET_STRIDE_PTR]] : !llvm.ptr<i64>
|
|
// CHECK: [[UPDATE_STRIDE:%.*]] = llvm.mul [[CUR_STRIDE]], [[SIZE]] : i64
|
|
// CHECK: [[STRIDE_COND:%.*]] = llvm.sub [[DIM]], [[C1_]] : i64
|
|
// CHECK: llvm.br ^bb1([[STRIDE_COND]], [[UPDATE_STRIDE]] : i64, i64)
|
|
|
|
// CHECK: ^bb3:
|
|
// CHECK: return
|
|
|
|
// -----
|
|
|
|
// ALIGNED-ALLOC-LABEL: @memref_of_memref
|
|
func.func @memref_of_memref() {
|
|
// Sizeof computation is as usual.
|
|
// ALIGNED-ALLOC: %[[NULL:.*]] = llvm.mlir.null
|
|
// ALIGNED-ALLOC: %[[PTR:.*]] = llvm.getelementptr
|
|
// ALIGNED-ALLOC: %[[SIZEOF:.*]] = llvm.ptrtoint
|
|
|
|
// Static alignment should be computed as ceilPowerOf2(2 * sizeof(pointer) +
|
|
// (1 + 2 * rank) * sizeof(index) = ceilPowerOf2(2 * 8 + 3 * 8) = 64.
|
|
// ALIGNED-ALLOC: llvm.mlir.constant(64 : index)
|
|
|
|
// Check that the types are converted as expected.
|
|
// ALIGNED-ALLOC: llvm.call @aligned_alloc
|
|
// ALIGNED-ALLOC: llvm.bitcast %{{.*}} : !llvm.ptr<i8> to
|
|
// ALIGNED-ALLOC-SAME: !llvm.
|
|
// ALIGNED-ALLOC-SAME: [[INNER:ptr<struct<\(ptr<f32>, ptr<f32>, i64, array<1 x i64>, array<1 x i64>\)>>]]
|
|
// ALIGNED-ALLOC: llvm.mlir.undef
|
|
// ALIGNED-ALLOC-SAME: !llvm.struct<([[INNER]], [[INNER]], i64, array<1 x i64>, array<1 x i64>)>
|
|
%0 = memref.alloc() : memref<1xmemref<1xf32>>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
module attributes { dlti.dl_spec = #dlti.dl_spec<#dlti.dl_entry<index, 32>> } {
|
|
// ALIGNED-ALLOC-LABEL: @memref_of_memref_32
|
|
func.func @memref_of_memref_32() {
|
|
// Sizeof computation is as usual.
|
|
// ALIGNED-ALLOC: %[[NULL:.*]] = llvm.mlir.null
|
|
// ALIGNED-ALLOC: %[[PTR:.*]] = llvm.getelementptr
|
|
// ALIGNED-ALLOC: %[[SIZEOF:.*]] = llvm.ptrtoint
|
|
|
|
// Static alignment should be computed as ceilPowerOf2(2 * sizeof(pointer) +
|
|
// (1 + 2 * rank) * sizeof(index) = ceilPowerOf2(2 * 8 + 3 * 4) = 32.
|
|
// ALIGNED-ALLOC: llvm.mlir.constant(32 : index)
|
|
|
|
// Check that the types are converted as expected.
|
|
// ALIGNED-ALLOC: llvm.call @aligned_alloc
|
|
// ALIGNED-ALLOC: llvm.bitcast %{{.*}} : !llvm.ptr<i8> to
|
|
// ALIGNED-ALLOC-SAME: !llvm.
|
|
// ALIGNED-ALLOC-SAME: [[INNER:ptr<struct<\(ptr<f32>, ptr<f32>, i32, array<1 x i32>, array<1 x i32>\)>>]]
|
|
// ALIGNED-ALLOC: llvm.mlir.undef
|
|
// ALIGNED-ALLOC-SAME: !llvm.struct<([[INNER]], [[INNER]], i32, array<1 x i32>, array<1 x i32>)>
|
|
%0 = memref.alloc() : memref<1xmemref<1xf32>>
|
|
return
|
|
}
|
|
}
|
|
|
|
|
|
// -----
|
|
|
|
// ALIGNED-ALLOC-LABEL: @memref_of_memref_of_memref
|
|
func.func @memref_of_memref_of_memref() {
|
|
// Sizeof computation is as usual, also check the type.
|
|
// ALIGNED-ALLOC: %[[NULL:.*]] = llvm.mlir.null : !llvm.ptr<
|
|
// ALIGNED-ALLOC-SAME: struct<(
|
|
// ALIGNED-ALLOC-SAME: [[INNER:ptr<struct<\(ptr<f32>, ptr<f32>, i64, array<1 x i64>, array<1 x i64>\)>>]],
|
|
// ALIGNED-ALLOC-SAME: [[INNER]],
|
|
// ALIGNED-ALLOC-SAME: i64, array<1 x i64>, array<1 x i64>
|
|
// ALIGNED-ALLOC-SAME: )>
|
|
// ALIGNED-ALLOC-SAME: >
|
|
// ALIGNED-ALLOC: %[[PTR:.*]] = llvm.getelementptr
|
|
// ALIGNED-ALLOC: %[[SIZEOF:.*]] = llvm.ptrtoint
|
|
|
|
// Static alignment should be computed as ceilPowerOf2(2 * sizeof(pointer) +
|
|
// (1 + 2 * rank) * sizeof(index) = ceilPowerOf2(2 * 8 + 3 * 8) = 64.
|
|
// ALIGNED-ALLOC: llvm.mlir.constant(64 : index)
|
|
// ALIGNED-ALLOC: llvm.call @aligned_alloc
|
|
%0 = memref.alloc() : memref<1 x memref<2 x memref<3 x f32>>>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// ALIGNED-ALLOC-LABEL: @ranked_unranked
|
|
func.func @ranked_unranked() {
|
|
// ALIGNED-ALLOC: llvm.mlir.null
|
|
// ALIGNED-ALLOC-SAME: !llvm.[[INNER:ptr<struct<\(i64, ptr<i8>\)>>]]
|
|
// ALIGNED-ALLOC: llvm.getelementptr
|
|
// ALIGNED-ALLOC: llvm.ptrtoint
|
|
|
|
// Static alignment should be computed as ceilPowerOf2(sizeof(index) +
|
|
// sizeof(pointer)) = 16.
|
|
// ALIGNED-ALLOC: llvm.mlir.constant(16 : index)
|
|
// ALIGNED-ALLOC: llvm.call @aligned_alloc
|
|
// ALIGNED-ALLOC: llvm.bitcast
|
|
// ALIGNED-ALLOC-SAME: !llvm.ptr<i8> to !llvm.[[INNER]]
|
|
%0 = memref.alloc() : memref<1 x memref<* x f32>>
|
|
memref.cast %0 : memref<1 x memref<* x f32>> to memref<* x memref<* x f32>>
|
|
return
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func.func @realloc_dynamic(
|
|
// CHECK-SAME: %[[arg0:.*]]: memref<?xf32>,
|
|
// CHECK-SAME: %[[arg1:.*]]: index) -> memref<?xf32> {
|
|
func.func @realloc_dynamic(%in: memref<?xf32>, %d: index) -> memref<?xf32>{
|
|
// CHECK: %[[descriptor:.*]] = builtin.unrealized_conversion_cast %[[arg0]]
|
|
// CHECK: %[[src_dim:.*]] = llvm.extractvalue %[[descriptor]][3, 0]
|
|
// CHECK: %[[dst_dim:.*]] = builtin.unrealized_conversion_cast %[[arg1]] : index to i64
|
|
// CHECK: %[[cond:.*]] = llvm.icmp "ugt" %[[dst_dim]], %[[src_dim]] : i64
|
|
// CHECK: llvm.cond_br %[[cond]], ^bb1, ^bb2(%[[descriptor]]
|
|
// CHECK: ^bb1:
|
|
// CHECK: %[[dst_null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
|
|
// CHECK: %[[dst_gep:.*]] = llvm.getelementptr %[[dst_null]][1]
|
|
// CHECK: %[[dst_es:.*]] = llvm.ptrtoint %[[dst_gep]] : !llvm.ptr<f32> to i64
|
|
// CHECK: %[[dst_size:.*]] = llvm.mul %[[dst_dim]], %[[dst_es]]
|
|
// CHECK: %[[src_size:.*]] = llvm.mul %[[src_dim]], %[[dst_es]]
|
|
// CHECK: %[[new_buffer_raw:.*]] = llvm.call @malloc(%[[dst_size]])
|
|
// CHECK: %[[new_buffer:.*]] = llvm.bitcast %[[new_buffer_raw]] : !llvm.ptr<i8> to !llvm.ptr<f32>
|
|
// CHECK: %[[old_buffer_aligned:.*]] = llvm.extractvalue %[[descriptor]][1]
|
|
// CHECK: %[[volatile:.*]] = llvm.mlir.constant(false) : i1
|
|
// CHECK-DAG: %[[new_buffer_void:.*]] = llvm.bitcast %[[new_buffer]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// CHECK-DAG: %[[old_buffer_void:.*]] = llvm.bitcast %[[old_buffer_aligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// CHECK: "llvm.intr.memcpy"(%[[new_buffer_void]], %[[old_buffer_void]], %[[src_size]], %[[volatile]])
|
|
// CHECK: %[[old_buffer_unaligned:.*]] = llvm.extractvalue %[[descriptor]][0]
|
|
// CHECK: %[[old_buffer_unaligned_void:.*]] = llvm.bitcast %[[old_buffer_unaligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// CHECK: llvm.call @free(%[[old_buffer_unaligned_void]])
|
|
// CHECK: %[[descriptor_update1:.*]] = llvm.insertvalue %[[new_buffer]], %[[descriptor]][0]
|
|
// CHECK: %[[descriptor_update2:.*]] = llvm.insertvalue %[[new_buffer]], %[[descriptor_update1]][1]
|
|
// CHECK: llvm.br ^bb2(%[[descriptor_update2]]
|
|
// CHECK: ^bb2(%[[descriptor_update3:.*]]: !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<1 x i64>, array<1 x i64>)>):
|
|
// CHECK: %[[descriptor_update4:.*]] = llvm.insertvalue %[[dst_dim]], %[[descriptor_update3]][3, 0]
|
|
// CHECK: %[[descriptor_update5:.*]] = builtin.unrealized_conversion_cast %[[descriptor_update4]]
|
|
// CHECK: return %[[descriptor_update5]] : memref<?xf32>
|
|
|
|
%out = memref.realloc %in(%d) : memref<?xf32> to memref<?xf32>
|
|
return %out : memref<?xf32>
|
|
}
|
|
|
|
// -----
|
|
|
|
// CHECK-LABEL: func.func @realloc_dynamic_alignment(
|
|
// CHECK-SAME: %[[arg0:.*]]: memref<?xf32>,
|
|
// CHECK-SAME: %[[arg1:.*]]: index) -> memref<?xf32> {
|
|
// ALIGNED-ALLOC-LABEL: func.func @realloc_dynamic_alignment(
|
|
// ALIGNED-ALLOC-SAME: %[[arg0:.*]]: memref<?xf32>,
|
|
// ALIGNED-ALLOC-SAME: %[[arg1:.*]]: index) -> memref<?xf32> {
|
|
func.func @realloc_dynamic_alignment(%in: memref<?xf32>, %d: index) -> memref<?xf32>{
|
|
// CHECK: %[[descriptor:.*]] = builtin.unrealized_conversion_cast %[[arg0]]
|
|
// CHECK: %[[drc_dim:.*]] = llvm.extractvalue %[[descriptor]][3, 0]
|
|
// CHECK: %[[dst_dim:.*]] = builtin.unrealized_conversion_cast %[[arg1]] : index to i64
|
|
// CHECK: %[[cond:.*]] = llvm.icmp "ugt" %[[dst_dim]], %[[drc_dim]] : i64
|
|
// CHECK: llvm.cond_br %[[cond]], ^bb1, ^bb2(%[[descriptor]]
|
|
// CHECK: ^bb1:
|
|
// CHECK: %[[dst_null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
|
|
// CHECK: %[[dst_gep:.*]] = llvm.getelementptr %[[dst_null]][1]
|
|
// CHECK: %[[dst_es:.*]] = llvm.ptrtoint %[[dst_gep]] : !llvm.ptr<f32> to i64
|
|
// CHECK: %[[dst_size:.*]] = llvm.mul %[[dst_dim]], %[[dst_es]]
|
|
// CHECK: %[[src_size:.*]] = llvm.mul %[[drc_dim]], %[[dst_es]]
|
|
// CHECK: %[[alignment:.*]] = llvm.mlir.constant(8 : index) : i64
|
|
// CHECK: %[[adjust_dst_size:.*]] = llvm.add %[[dst_size]], %[[alignment]]
|
|
// CHECK: %[[new_buffer_raw:.*]] = llvm.call @malloc(%[[adjust_dst_size]])
|
|
// CHECK: %[[new_buffer_unaligned:.*]] = llvm.bitcast %[[new_buffer_raw]] : !llvm.ptr<i8> to !llvm.ptr<f32>
|
|
// CHECK: %[[new_buffer_int:.*]] = llvm.ptrtoint %[[new_buffer_unaligned]] : !llvm.ptr<f32>
|
|
// CHECK: %[[const_1:.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// CHECK: %[[alignment_m1:.*]] = llvm.sub %[[alignment]], %[[const_1]]
|
|
// CHECK: %[[ptr_alignment_m1:.*]] = llvm.add %[[new_buffer_int]], %[[alignment_m1]]
|
|
// CHECK: %[[padding:.*]] = llvm.urem %[[ptr_alignment_m1]], %[[alignment]]
|
|
// CHECK: %[[new_buffer_aligned_int:.*]] = llvm.sub %[[ptr_alignment_m1]], %[[padding]]
|
|
// CHECK: %[[new_buffer_aligned:.*]] = llvm.inttoptr %[[new_buffer_aligned_int]] : i64 to !llvm.ptr<f32>
|
|
// CHECK: %[[old_buffer_aligned:.*]] = llvm.extractvalue %[[descriptor]][1]
|
|
// CHECK: %[[volatile:.*]] = llvm.mlir.constant(false) : i1
|
|
// CHECK-DAG: %[[new_buffer_void:.*]] = llvm.bitcast %[[new_buffer_aligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// CHECK-DAG: %[[old_buffer_void:.*]] = llvm.bitcast %[[old_buffer_aligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// CHECK: "llvm.intr.memcpy"(%[[new_buffer_void]], %[[old_buffer_void]], %[[src_size]], %[[volatile]])
|
|
// CHECK: %[[old_buffer_unaligned:.*]] = llvm.extractvalue %[[descriptor]][0]
|
|
// CHECK: %[[old_buffer_unaligned_void:.*]] = llvm.bitcast %[[old_buffer_unaligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// CHECK: llvm.call @free(%[[old_buffer_unaligned_void]])
|
|
// CHECK: %[[descriptor_update1:.*]] = llvm.insertvalue %[[new_buffer_unaligned]], %[[descriptor]][0]
|
|
// CHECK: %[[descriptor_update2:.*]] = llvm.insertvalue %[[new_buffer_aligned]], %[[descriptor_update1]][1]
|
|
// CHECK: llvm.br ^bb2(%[[descriptor_update2]]
|
|
// CHECK: ^bb2(%[[descriptor_update3:.*]]: !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<1 x i64>, array<1 x i64>)>):
|
|
// CHECK: %[[descriptor_update4:.*]] = llvm.insertvalue %[[dst_dim]], %[[descriptor_update3]][3, 0]
|
|
// CHECK: %[[descriptor_update5:.*]] = builtin.unrealized_conversion_cast %[[descriptor_update4]]
|
|
// CHECK: return %[[descriptor_update5]] : memref<?xf32>
|
|
|
|
// ALIGNED-ALLOC: %[[descriptor:.*]] = builtin.unrealized_conversion_cast %[[arg0]]
|
|
// ALIGNED-ALLOC: %[[drc_dim:.*]] = llvm.extractvalue %[[descriptor]][3, 0]
|
|
// ALIGNED-ALLOC: %[[dst_dim:.*]] = builtin.unrealized_conversion_cast %[[arg1]] : index to i64
|
|
// ALIGNED-ALLOC: %[[cond:.*]] = llvm.icmp "ugt" %[[dst_dim]], %[[drc_dim]] : i64
|
|
// ALIGNED-ALLOC: llvm.cond_br %[[cond]], ^bb1, ^bb2(%[[descriptor]]
|
|
// ALIGNED-ALLOC: ^bb1:
|
|
// ALIGNED-ALLOC: %[[dst_null:.*]] = llvm.mlir.null : !llvm.ptr<f32>
|
|
// ALIGNED-ALLOC: %[[dst_gep:.*]] = llvm.getelementptr %[[dst_null]][1]
|
|
// ALIGNED-ALLOC: %[[dst_es:.*]] = llvm.ptrtoint %[[dst_gep]] : !llvm.ptr<f32> to i64
|
|
// ALIGNED-ALLOC: %[[dst_size:.*]] = llvm.mul %[[dst_dim]], %[[dst_es]]
|
|
// ALIGNED-ALLOC: %[[src_size:.*]] = llvm.mul %[[drc_dim]], %[[dst_es]]
|
|
// ALIGNED-ALLOC-DAG: %[[alignment:.*]] = llvm.mlir.constant(8 : index) : i64
|
|
// ALIGNED-ALLOC-DAG: %[[const_1:.*]] = llvm.mlir.constant(1 : index) : i64
|
|
// ALIGNED-ALLOC: %[[alignment_m1:.*]] = llvm.sub %[[alignment]], %[[const_1]]
|
|
// ALIGNED-ALLOC: %[[size_alignment_m1:.*]] = llvm.add %[[dst_size]], %[[alignment_m1]]
|
|
// ALIGNED-ALLOC: %[[padding:.*]] = llvm.urem %[[size_alignment_m1]], %[[alignment]]
|
|
// ALIGNED-ALLOC: %[[adjust_dst_size:.*]] = llvm.sub %[[size_alignment_m1]], %[[padding]]
|
|
// ALIGNED-ALLOC: %[[new_buffer_raw:.*]] = llvm.call @aligned_alloc(%[[alignment]], %[[adjust_dst_size]])
|
|
// ALIGNED-ALLOC: %[[new_buffer_aligned:.*]] = llvm.bitcast %[[new_buffer_raw]] : !llvm.ptr<i8> to !llvm.ptr<f32>
|
|
// ALIGNED-ALLOC: %[[old_buffer_aligned:.*]] = llvm.extractvalue %[[descriptor]][1]
|
|
// ALIGNED-ALLOC: %[[volatile:.*]] = llvm.mlir.constant(false) : i1
|
|
// ALIGNED-ALLOC-DAG: %[[new_buffer_void:.*]] = llvm.bitcast %[[new_buffer_aligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// ALIGNED-ALLOC-DAG: %[[old_buffer_void:.*]] = llvm.bitcast %[[old_buffer_aligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// ALIGNED-ALLOC: "llvm.intr.memcpy"(%[[new_buffer_void]], %[[old_buffer_void]], %[[src_size]], %[[volatile]])
|
|
// ALIGNED-ALLOC: %[[old_buffer_unaligned:.*]] = llvm.extractvalue %[[descriptor]][0]
|
|
// ALIGNED-ALLOC: %[[old_buffer_unaligned_void:.*]] = llvm.bitcast %[[old_buffer_unaligned]] : !llvm.ptr<f32> to !llvm.ptr<i8>
|
|
// ALIGNED-ALLOC: llvm.call @free(%[[old_buffer_unaligned_void]])
|
|
// ALIGNED-ALLOC: %[[descriptor_update1:.*]] = llvm.insertvalue %[[new_buffer_aligned]], %[[descriptor]][0]
|
|
// ALIGNED-ALLOC: %[[descriptor_update2:.*]] = llvm.insertvalue %[[new_buffer_aligned]], %[[descriptor_update1]][1]
|
|
// ALIGNED-ALLOC: llvm.br ^bb2(%[[descriptor_update2]] : !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<1 x i64>, array<1 x i64>)>)
|
|
// ALIGNED-ALLOC: ^bb2(%[[descriptor_update3:.*]]: !llvm.struct<(ptr<f32>, ptr<f32>, i64, array<1 x i64>, array<1 x i64>)>):
|
|
// ALIGNED-ALLOC: %[[descriptor_update4:.*]] = llvm.insertvalue %[[dst_dim]], %[[descriptor_update3]][3, 0]
|
|
// ALIGNED-ALLOC: %[[descriptor_update5:.*]] = builtin.unrealized_conversion_cast %[[descriptor_update4]]
|
|
// ALIGNED-ALLOC: return %[[descriptor_update5]] : memref<?xf32>
|
|
|
|
%out = memref.realloc %in(%d) {alignment = 8} : memref<?xf32> to memref<?xf32>
|
|
return %out : memref<?xf32>
|
|
}
|
|
|