mlir/test/Transforms/loop-fusion-transformation.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s -allow-unregistered-dialect -test-loop-fusion -test-loop-fusion-transformation -split-input-file -canonicalize | FileCheck %s

 // CHECK-LABEL: func @slice_depth1_loop_nest() {
 func @slice_depth1_loop_nest() {
   %0 = memref.alloc() : memref<100xf32>
   %cst = arith.constant 7.000000e+00 : f32
   affine.for %i0 = 0 to 16 {
     affine.store %cst, %0[%i0] : memref<100xf32>
   }
   affine.for %i1 = 0 to 5 {
     %1 = affine.load %0[%i1] : memref<100xf32>
     "prevent.dce"(%1) : (f32) -> ()
   }
   // CHECK:      affine.for %[[IV0:.*]] = 0 to 5 {
   // CHECK-NEXT:   affine.store %{{.*}}, %{{.*}}[%[[IV0]]] : memref<100xf32>
   // CHECK-NEXT:   affine.load %{{.*}}[%[[IV0]]] : memref<100xf32>
   // CHECK-NEXT:   "prevent.dce"(%1) : (f32) -> ()
   // CHECK-NEXT: }
   // CHECK-NEXT: return
   return
 }

 // -----

 // CHECK-LABEL: func @should_fuse_reduction_to_pointwise() {
 func @should_fuse_reduction_to_pointwise() {
   %a = memref.alloc() : memref<10x10xf32>
   %b = memref.alloc() : memref<10xf32>
   %c = memref.alloc() : memref<10xf32>

   %cf7 = arith.constant 7.0 : f32

   affine.for %i0 = 0 to 10 {
     affine.for %i1 = 0 to 10 {
       %v0 = affine.load %b[%i0] : memref<10xf32>
       %v1 = affine.load %a[%i0, %i1] : memref<10x10xf32>
       %v3 = arith.addf %v0, %v1 : f32
       affine.store %v3, %b[%i0] : memref<10xf32>
     }
   }
   affine.for %i2 = 0 to 10 {
     %v4 = affine.load %b[%i2] : memref<10xf32>
     affine.store %v4, %c[%i2] : memref<10xf32>
   }

   // Match on the fused loop nest.
   // Should fuse in entire inner loop on %i1 from source loop nest, as %i1
   // is not used in the access function of the store/load on %b.
   // CHECK:       affine.for %{{.*}} = 0 to 10 {
   // CHECK-NEXT:    affine.for %{{.*}} = 0 to 10 {
   // CHECK-NEXT:      affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:      affine.load %{{.*}}[%{{.*}}, %{{.*}}] : memref<10x10xf32>
   // CHECK-NEXT:      arith.addf %{{.*}}, %{{.*}} : f32
   // CHECK-NEXT:      affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:    }
   // CHECK-NEXT:    affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:    affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:  }
   // CHECK-NEXT:  return
   return
 }

 // -----

 // CHECK-LABEL: func @should_fuse_avoiding_dependence_cycle() {
 func @should_fuse_avoiding_dependence_cycle() {
   %a = memref.alloc() : memref<10xf32>
   %b = memref.alloc() : memref<10xf32>
   %c = memref.alloc() : memref<10xf32>

   %cf7 = arith.constant 7.0 : f32

   // Set up the following dependences:
   // 1) loop0 -> loop1 on memref '%{{.*}}'
   // 2) loop0 -> loop2 on memref '%{{.*}}'
   // 3) loop1 -> loop2 on memref '%{{.*}}'
   affine.for %i0 = 0 to 10 {
     %v0 = affine.load %a[%i0] : memref<10xf32>
     affine.store %v0, %b[%i0] : memref<10xf32>
   }
   affine.for %i1 = 0 to 10 {
     affine.store %cf7, %a[%i1] : memref<10xf32>
     %v1 = affine.load %c[%i1] : memref<10xf32>
     "prevent.dce"(%v1) : (f32) -> ()
   }
   affine.for %i2 = 0 to 10 {
     %v2 = affine.load %b[%i2] : memref<10xf32>
     affine.store %v2, %c[%i2] : memref<10xf32>
   }
   // Fusing loop first loop into last would create a cycle:
   //   {1} <--> {0, 2}
   // However, we can avoid the dependence cycle if we first fuse loop0 into
   // loop1:
   //   {0, 1) --> {2}
   // Then fuse this loop nest with loop2:
   //   {0, 1, 2}
   //
   // CHECK:      affine.for %{{.*}} = 0 to 10 {
   // CHECK-NEXT:   affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:   affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:   affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:   affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:   "prevent.dce"
   // CHECK-NEXT:   affine.load %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT:   affine.store %{{.*}}, %{{.*}}[%{{.*}}] : memref<10xf32>
   // CHECK-NEXT: }
   // CHECK-NEXT: return
   return
 }
	// RUN: mlir-opt %s -allow-unregistered-dialect -test-loop-fusion -test-loop-fusion-transformation -split-input-file -canonicalize \| FileCheck %s

	// CHECK-LABEL: func @slice_depth1_loop_nest() {
	func @slice_depth1_loop_nest() {
	%0 = memref.alloc() : memref<100xf32>
	%cst = arith.constant 7.000000e+00 : f32
	affine.for %i0 = 0 to 16 {
	affine.store %cst, %0[%i0] : memref<100xf32>
	}
	affine.for %i1 = 0 to 5 {
	%1 = affine.load %0[%i1] : memref<100xf32>
	"prevent.dce"(%1) : (f32) -> ()
	}
	// CHECK: affine.for %[[IV0:.*]] = 0 to 5 {
	// CHECK-NEXT: affine.store %{{.}}, %{{.}}[%[[IV0]]] : memref<100xf32>
	// CHECK-NEXT: affine.load %{{.*}}[%[[IV0]]] : memref<100xf32>
	// CHECK-NEXT: "prevent.dce"(%1) : (f32) -> ()
	// CHECK-NEXT: }
	// CHECK-NEXT: return
	return
	}

	// -----

	// CHECK-LABEL: func @should_fuse_reduction_to_pointwise() {
	func @should_fuse_reduction_to_pointwise() {
	%a = memref.alloc() : memref<10x10xf32>
	%b = memref.alloc() : memref<10xf32>
	%c = memref.alloc() : memref<10xf32>

	%cf7 = arith.constant 7.0 : f32

	affine.for %i0 = 0 to 10 {
	affine.for %i1 = 0 to 10 {
	%v0 = affine.load %b[%i0] : memref<10xf32>
	%v1 = affine.load %a[%i0, %i1] : memref<10x10xf32>
	%v3 = arith.addf %v0, %v1 : f32
	affine.store %v3, %b[%i0] : memref<10xf32>
	}
	}
	affine.for %i2 = 0 to 10 {
	%v4 = affine.load %b[%i2] : memref<10xf32>
	affine.store %v4, %c[%i2] : memref<10xf32>
	}

	// Match on the fused loop nest.
	// Should fuse in entire inner loop on %i1 from source loop nest, as %i1
	// is not used in the access function of the store/load on %b.
	// CHECK: affine.for %{{.*}} = 0 to 10 {
	// CHECK-NEXT: affine.for %{{.*}} = 0 to 10 {
	// CHECK-NEXT: affine.load %{{.}}[%{{.}}] : memref<10xf32>
	// CHECK-NEXT: affine.load %{{.}}[%{{.}}, %{{.*}}] : memref<10x10xf32>
	// CHECK-NEXT: arith.addf %{{.}}, %{{.}} : f32
	// CHECK-NEXT: affine.store %{{.}}, %{{.}}[%{{.*}}] : memref<10xf32>
	// CHECK-NEXT: }
	// CHECK-NEXT: affine.load %{{.}}[%{{.}}] : memref<10xf32>
	// CHECK-NEXT: affine.store %{{.}}, %{{.}}[%{{.*}}] : memref<10xf32>
	// CHECK-NEXT: }
	// CHECK-NEXT: return
	return
	}

	// -----

	// CHECK-LABEL: func @should_fuse_avoiding_dependence_cycle() {
	func @should_fuse_avoiding_dependence_cycle() {
	%a = memref.alloc() : memref<10xf32>
	%b = memref.alloc() : memref<10xf32>
	%c = memref.alloc() : memref<10xf32>

	%cf7 = arith.constant 7.0 : f32

	// Set up the following dependences:
	// 1) loop0 -> loop1 on memref '%{{.*}}'
	// 2) loop0 -> loop2 on memref '%{{.*}}'
	// 3) loop1 -> loop2 on memref '%{{.*}}'
	affine.for %i0 = 0 to 10 {
	%v0 = affine.load %a[%i0] : memref<10xf32>
	affine.store %v0, %b[%i0] : memref<10xf32>
	}
	affine.for %i1 = 0 to 10 {
	affine.store %cf7, %a[%i1] : memref<10xf32>
	%v1 = affine.load %c[%i1] : memref<10xf32>
	"prevent.dce"(%v1) : (f32) -> ()
	}
	affine.for %i2 = 0 to 10 {
	%v2 = affine.load %b[%i2] : memref<10xf32>
	affine.store %v2, %c[%i2] : memref<10xf32>
	}
	// Fusing loop first loop into last would create a cycle:
	// {1} <--> {0, 2}
	// However, we can avoid the dependence cycle if we first fuse loop0 into
	// loop1:
	// {0, 1) --> {2}
	// Then fuse this loop nest with loop2:
	// {0, 1, 2}
	//
	// CHECK: affine.for %{{.*}} = 0 to 10 {
	// CHECK-NEXT: affine.load %{{.}}[%{{.}}] : memref<10xf32>
	// CHECK-NEXT: affine.store %{{.}}, %{{.}}[%{{.*}}] : memref<10xf32>
	// CHECK-NEXT: affine.store %{{.}}, %{{.}}[%{{.*}}] : memref<10xf32>
	// CHECK-NEXT: affine.load %{{.}}[%{{.}}] : memref<10xf32>
	// CHECK-NEXT: "prevent.dce"
	// CHECK-NEXT: affine.load %{{.}}[%{{.}}] : memref<10xf32>
	// CHECK-NEXT: affine.store %{{.}}, %{{.}}[%{{.*}}] : memref<10xf32>
	// CHECK-NEXT: }
	// CHECK-NEXT: return
	return
	}