test/mlir-cpu-runner/bare-ptr-call-conv.mlir - llvm-project/mlir - Git at Google

 // RUN: mlir-opt %s -pass-pipeline="builtin.module(func.func(convert-scf-to-cf,convert-arith-to-llvm),finalize-memref-to-llvm,convert-func-to-llvm{use-bare-ptr-memref-call-conv=1},reconcile-unrealized-casts)" | mlir-cpu-runner -shared-libs=%mlir_c_runner_utils -entry-point-result=void | FileCheck %s

 // Verify bare pointer memref calling convention. `simple_add1_add2_test`
 // gets two 2xf32 memrefs, adds 1.0f to the first one and 2.0f to the second
 // one. 'main' calls 'simple_add1_add2_test' with {1, 1} and {2, 2} so {2, 2}
 // and {4, 4} are the expected outputs.

 func.func @simple_add1_add2_test(%arg0: memref<2xf32>, %arg1: memref<2xf32>) {
   %c2 = arith.constant 2 : index
   %c0 = arith.constant 0 : index
   %c1 = arith.constant 1 : index
   %cst = arith.constant 1.000000e+00 : f32
   %cst_0 = arith.constant 2.000000e+00 : f32
   scf.for %arg2 = %c0 to %c2 step %c1 {
     %0 = memref.load %arg0[%arg2] : memref<2xf32>
     %1 = arith.addf %0, %cst : f32
     memref.store %1, %arg0[%arg2] : memref<2xf32>
     // CHECK: 2, 2

     %2 = memref.load %arg1[%arg2] : memref<2xf32>
     %3 = arith.addf %1, %cst_0 : f32
     memref.store %3, %arg1[%arg2] : memref<2xf32>
     // CHECK-NEXT: 4, 4
   }
   return
 }

 // External declarations.
 func.func private @printF32(%arg0: f32)
 func.func private @printComma()
 func.func private @printNewline()

 func.func @main()
 {
   %c2 = arith.constant 2 : index
   %c0 = arith.constant 0 : index
   %c1 = arith.constant 1 : index
   %cst = arith.constant 1.000000e+00 : f32
   %cst_0 = arith.constant 2.000000e+00 : f32
   %a = memref.alloc() : memref<2xf32>
   %b = memref.alloc() : memref<2xf32>
   scf.for %i = %c0 to %c2 step %c1 {
     memref.store %cst, %a[%i] : memref<2xf32>
     memref.store %cst, %b[%i] : memref<2xf32>
   }

   call @simple_add1_add2_test(%a, %b) : (memref<2xf32>, memref<2xf32>) -> ()

   %l0 = memref.load %a[%c0] : memref<2xf32>
   call @printF32(%l0) : (f32) -> ()
   call @printComma() : () -> ()
   %l1 = memref.load %a[%c1] : memref<2xf32>
   call @printF32(%l1) : (f32) -> ()
   call @printNewline() : () -> ()

   %l2 = memref.load %b[%c0] : memref<2xf32>
   call @printF32(%l2) : (f32) -> ()
   call @printComma() : () -> ()
   %l3 = memref.load %b[%c1] : memref<2xf32>
   call @printF32(%l3) : (f32) -> ()
   call @printNewline() : () -> ()

   memref.dealloc %a : memref<2xf32>
   memref.dealloc %b : memref<2xf32>
   return
 }
	// RUN: mlir-opt %s -pass-pipeline="builtin.module(func.func(convert-scf-to-cf,convert-arith-to-llvm),finalize-memref-to-llvm,convert-func-to-llvm{use-bare-ptr-memref-call-conv=1},reconcile-unrealized-casts)" \| mlir-cpu-runner -shared-libs=%mlir_c_runner_utils -entry-point-result=void \| FileCheck %s

	// Verify bare pointer memref calling convention. `simple_add1_add2_test`
	// gets two 2xf32 memrefs, adds 1.0f to the first one and 2.0f to the second
	// one. 'main' calls 'simple_add1_add2_test' with {1, 1} and {2, 2} so {2, 2}
	// and {4, 4} are the expected outputs.

	func.func @simple_add1_add2_test(%arg0: memref<2xf32>, %arg1: memref<2xf32>) {
	%c2 = arith.constant 2 : index
	%c0 = arith.constant 0 : index
	%c1 = arith.constant 1 : index
	%cst = arith.constant 1.000000e+00 : f32
	%cst_0 = arith.constant 2.000000e+00 : f32
	scf.for %arg2 = %c0 to %c2 step %c1 {
	%0 = memref.load %arg0[%arg2] : memref<2xf32>
	%1 = arith.addf %0, %cst : f32
	memref.store %1, %arg0[%arg2] : memref<2xf32>
	// CHECK: 2, 2

	%2 = memref.load %arg1[%arg2] : memref<2xf32>
	%3 = arith.addf %1, %cst_0 : f32
	memref.store %3, %arg1[%arg2] : memref<2xf32>
	// CHECK-NEXT: 4, 4
	}
	return
	}

	// External declarations.
	func.func private @printF32(%arg0: f32)
	func.func private @printComma()
	func.func private @printNewline()

	func.func @main()
	{
	%c2 = arith.constant 2 : index
	%c0 = arith.constant 0 : index
	%c1 = arith.constant 1 : index
	%cst = arith.constant 1.000000e+00 : f32
	%cst_0 = arith.constant 2.000000e+00 : f32
	%a = memref.alloc() : memref<2xf32>
	%b = memref.alloc() : memref<2xf32>
	scf.for %i = %c0 to %c2 step %c1 {
	memref.store %cst, %a[%i] : memref<2xf32>
	memref.store %cst, %b[%i] : memref<2xf32>
	}

	call @simple_add1_add2_test(%a, %b) : (memref<2xf32>, memref<2xf32>) -> ()

	%l0 = memref.load %a[%c0] : memref<2xf32>
	call @printF32(%l0) : (f32) -> ()
	call @printComma() : () -> ()
	%l1 = memref.load %a[%c1] : memref<2xf32>
	call @printF32(%l1) : (f32) -> ()
	call @printNewline() : () -> ()

	%l2 = memref.load %b[%c0] : memref<2xf32>
	call @printF32(%l2) : (f32) -> ()
	call @printComma() : () -> ()
	%l3 = memref.load %b[%c1] : memref<2xf32>
	call @printF32(%l3) : (f32) -> ()
	call @printNewline() : () -> ()

	memref.dealloc %a : memref<2xf32>
	memref.dealloc %b : memref<2xf32>
	return
	}