forked from OSchip/llvm-project
283 lines
9.8 KiB
MLIR
283 lines
9.8 KiB
MLIR
// RUN: mlir-opt %s -memref-dataflow-opt | FileCheck %s
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// CHECK-DAG: [[MAP0:#map[0-9]+]] = affine_map<(d0, d1) -> (d1 + 1)>
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// CHECK-DAG: [[MAP1:#map[0-9]+]] = affine_map<(d0, d1) -> (d0)>
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// CHECK-DAG: [[MAP2:#map[0-9]+]] = affine_map<(d0, d1) -> (d1)>
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// CHECK-DAG: [[MAP3:#map[0-9]+]] = affine_map<(d0, d1) -> (d0 - 1)>
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// CHECK-DAG: [[MAP4:#map[0-9]+]] = affine_map<(d0) -> (d0 + 1)>
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// CHECK-LABEL: func @simple_store_load() {
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func @simple_store_load() {
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%cf7 = constant 7.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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return
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// CHECK: %{{.*}} = constant 7.000000e+00 : f32
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// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
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// CHECK-NEXT: %{{.*}} = addf %{{.*}}, %{{.*}} : f32
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// CHECK-NEXT: }
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// CHECK-NEXT: return
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}
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// CHECK-LABEL: func @multi_store_load() {
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func @multi_store_load() {
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%c0 = constant 0 : index
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%cf7 = constant 7.0 : f32
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%cf8 = constant 8.0 : f32
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%cf9 = constant 9.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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affine.store %cf8, %m[%i0] : memref<10xf32>
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affine.store %cf9, %m[%i0] : memref<10xf32>
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%v2 = affine.load %m[%i0] : memref<10xf32>
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%v3 = affine.load %m[%i0] : memref<10xf32>
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%v4 = mulf %v2, %v3 : f32
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}
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return
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// CHECK: %{{.*}} = constant 0 : index
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// CHECK-NEXT: %{{.*}} = constant 7.000000e+00 : f32
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// CHECK-NEXT: %{{.*}} = constant 8.000000e+00 : f32
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// CHECK-NEXT: %{{.*}} = constant 9.000000e+00 : f32
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// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
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// CHECK-NEXT: %{{.*}} = addf %{{.*}}, %{{.*}} : f32
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// CHECK-NEXT: %{{.*}} = mulf %{{.*}}, %{{.*}} : f32
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// CHECK-NEXT: }
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// CHECK-NEXT: return
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}
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// The store-load forwarding can see through affine apply's since it relies on
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// dependence information.
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// CHECK-LABEL: func @store_load_affine_apply
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func @store_load_affine_apply() -> memref<10x10xf32> {
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%cf7 = constant 7.0 : f32
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%m = alloc() : memref<10x10xf32>
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affine.for %i0 = 0 to 10 {
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affine.for %i1 = 0 to 10 {
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%t0 = affine.apply affine_map<(d0, d1) -> (d1 + 1)>(%i0, %i1)
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%t1 = affine.apply affine_map<(d0, d1) -> (d0)>(%i0, %i1)
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%idx0 = affine.apply affine_map<(d0, d1) -> (d1)> (%t0, %t1)
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%idx1 = affine.apply affine_map<(d0, d1) -> (d0 - 1)> (%t0, %t1)
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affine.store %cf7, %m[%idx0, %idx1] : memref<10x10xf32>
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// CHECK-NOT: affine.load %{{[0-9]+}}
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%v0 = affine.load %m[%i0, %i1] : memref<10x10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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}
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// The memref and its stores won't be erased due to this memref return.
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return %m : memref<10x10xf32>
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// CHECK: %{{.*}} = constant 7.000000e+00 : f32
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// CHECK-NEXT: %{{.*}} = alloc() : memref<10x10xf32>
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// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
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// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
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// CHECK-NEXT: %{{.*}} = affine.apply [[MAP0]](%{{.*}}, %{{.*}})
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// CHECK-NEXT: %{{.*}} = affine.apply [[MAP1]](%{{.*}}, %{{.*}})
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// CHECK-NEXT: %{{.*}} = affine.apply [[MAP2]](%{{.*}}, %{{.*}})
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// CHECK-NEXT: %{{.*}} = affine.apply [[MAP3]](%{{.*}}, %{{.*}})
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// CHECK-NEXT: affine.store %{{.*}}, %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32>
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// CHECK-NEXT: %{{.*}} = addf %{{.*}}, %{{.*}} : f32
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// CHECK-NEXT: }
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// CHECK-NEXT: }
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// CHECK-NEXT: return %{{.*}} : memref<10x10xf32>
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}
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// CHECK-LABEL: func @store_load_nested
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func @store_load_nested(%N : index) {
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%cf7 = constant 7.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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affine.for %i1 = 0 to %N {
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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}
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return
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// CHECK: %{{.*}} = constant 7.000000e+00 : f32
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// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
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// CHECK-NEXT: affine.for %{{.*}} = 0 to %{{.*}} {
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// CHECK-NEXT: %{{.*}} = addf %{{.*}}, %{{.*}} : f32
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// CHECK-NEXT: }
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// CHECK-NEXT: }
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// CHECK-NEXT: return
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}
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// No forwarding happens here since either of the two stores could be the last
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// writer; store/load forwarding will however be possible here once loop live
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// out SSA scalars are available.
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// CHECK-LABEL: func @multi_store_load_nested_no_fwd
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func @multi_store_load_nested_no_fwd(%N : index) {
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%cf7 = constant 7.0 : f32
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%cf8 = constant 8.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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affine.for %i1 = 0 to %N {
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affine.store %cf8, %m[%i1] : memref<10xf32>
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}
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affine.for %i2 = 0 to %N {
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// CHECK: %{{[0-9]+}} = affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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}
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return
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}
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// No forwarding happens here since both stores have a value going into
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// the load.
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// CHECK-LABEL: func @store_load_store_nested_no_fwd
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func @store_load_store_nested_no_fwd(%N : index) {
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%cf7 = constant 7.0 : f32
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%cf9 = constant 9.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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affine.for %i1 = 0 to %N {
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// CHECK: %{{[0-9]+}} = affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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affine.store %cf9, %m[%i0] : memref<10xf32>
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}
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}
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return
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}
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// Forwarding happens here since the last store postdominates all other stores
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// and other forwarding criteria are satisfied.
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// CHECK-LABEL: func @multi_store_load_nested_fwd
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func @multi_store_load_nested_fwd(%N : index) {
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%cf7 = constant 7.0 : f32
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%cf8 = constant 8.0 : f32
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%cf9 = constant 9.0 : f32
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%cf10 = constant 10.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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affine.for %i1 = 0 to %N {
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affine.store %cf8, %m[%i1] : memref<10xf32>
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}
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affine.for %i2 = 0 to %N {
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affine.store %cf9, %m[%i2] : memref<10xf32>
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}
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affine.store %cf10, %m[%i0] : memref<10xf32>
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affine.for %i3 = 0 to %N {
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// CHECK-NOT: %{{[0-9]+}} = affine.load
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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}
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return
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}
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// There is no unique load location for the store to forward to.
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// CHECK-LABEL: func @store_load_no_fwd
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func @store_load_no_fwd() {
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%cf7 = constant 7.0 : f32
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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affine.for %i1 = 0 to 10 {
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affine.for %i2 = 0 to 10 {
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// CHECK: affine.load %{{[0-9]+}}
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%v0 = affine.load %m[%i2] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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}
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}
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return
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}
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// Forwarding happens here as there is a one-to-one store-load correspondence.
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// CHECK-LABEL: func @store_load_fwd
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func @store_load_fwd() {
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%cf7 = constant 7.0 : f32
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%c0 = constant 0 : index
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%m = alloc() : memref<10xf32>
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affine.store %cf7, %m[%c0] : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.for %i1 = 0 to 10 {
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affine.for %i2 = 0 to 10 {
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// CHECK-NOT: affine.load %{{[0-9]}}+
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%v0 = affine.load %m[%c0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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}
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}
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}
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return
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}
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// Although there is a dependence from the second store to the load, it is
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// satisfied by the outer surrounding loop, and does not prevent the first
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// store to be forwarded to the load.
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func @store_load_store_nested_fwd(%N : index) -> f32 {
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%cf7 = constant 7.0 : f32
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%cf9 = constant 9.0 : f32
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%c0 = constant 0 : index
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%c1 = constant 1 : index
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%m = alloc() : memref<10xf32>
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affine.for %i0 = 0 to 10 {
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affine.store %cf7, %m[%i0] : memref<10xf32>
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affine.for %i1 = 0 to %N {
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%v0 = affine.load %m[%i0] : memref<10xf32>
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%v1 = addf %v0, %v0 : f32
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%idx = affine.apply affine_map<(d0) -> (d0 + 1)> (%i0)
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affine.store %cf9, %m[%idx] : memref<10xf32>
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}
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}
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// Due to this load, the memref isn't optimized away.
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%v3 = affine.load %m[%c1] : memref<10xf32>
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return %v3 : f32
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// CHECK: %{{.*}} = alloc() : memref<10xf32>
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// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
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// CHECK-NEXT: affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
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// CHECK-NEXT: affine.for %{{.*}} = 0 to %{{.*}} {
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// CHECK-NEXT: %{{.*}} = addf %{{.*}}, %{{.*}} : f32
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// CHECK-NEXT: %{{.*}} = affine.apply [[MAP4]](%{{.*}})
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// CHECK-NEXT: affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
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// CHECK-NEXT: }
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// CHECK-NEXT: }
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// CHECK-NEXT: %{{.*}} = affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
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// CHECK-NEXT: return %{{.*}} : f32
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}
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// CHECK-LABEL: func @should_not_fwd
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func @should_not_fwd(%A: memref<100xf32>, %M : index, %N : index) -> f32 {
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%cf = constant 0.0 : f32
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affine.store %cf, %A[%M] : memref<100xf32>
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// CHECK: affine.load %{{.*}}[%{{.*}}]
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%v = affine.load %A[%N] : memref<100xf32>
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return %v : f32
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}
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// Can store forward to A[%j, %i], but no forwarding to load on %A[%i, %j]
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// CHECK-LABEL: func @refs_not_known_to_be_equal
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func @refs_not_known_to_be_equal(%A : memref<100 x 100 x f32>, %M : index) {
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%N = affine.apply affine_map<(d0) -> (d0 + 1)> (%M)
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%cf1 = constant 1.0 : f32
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affine.for %i = 0 to 100 {
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// CHECK: affine.for %[[I:.*]] =
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affine.for %j = 0 to 100 {
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// CHECK: affine.for %[[J:.*]] =
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// CHECK: affine.load %{{.*}}[%[[I]], %[[J]]]
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%u = affine.load %A[%i, %j] : memref<100x100xf32>
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// CHECK-NEXT: affine.store %{{.*}}, %{{.*}}[%[[J]], %[[I]]]
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affine.store %cf1, %A[%j, %i] : memref<100x100xf32>
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// CHECK-NEXT: affine.load %{{.*}}[%[[I]], %[[J]]]
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%v = affine.load %A[%i, %j] : memref<100x100xf32>
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// This load should disappear.
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%w = affine.load %A[%j, %i] : memref<100x100xf32>
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// CHECK-NEXT: "foo"
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"foo" (%u, %v, %w) : (f32, f32, f32) -> ()
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}
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}
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return
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}
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