llvm-project/mlir/test/Transforms/test-inlining.mlir

68 lines
1.7 KiB
MLIR

// RUN: mlir-opt %s -test-inline | FileCheck %s
// CHECK-LABEL: func @inline_with_arg
func @inline_with_arg(%arg0 : i32) -> i32 {
// CHECK-NEXT: %[[ADD:.*]] = addi %{{.*}}, %{{.*}} : i32
// CHECK-NEXT: return %[[ADD]] : i32
%fn = "test.functional_region_op"() ({
^bb0(%a : i32):
%b = addi %a, %a : i32
"test.return"(%b) : (i32) -> ()
}) : () -> ((i32) -> i32)
%0 = call_indirect %fn(%arg0) : (i32) -> i32
return %0 : i32
}
// CHECK-LABEL: func @no_inline_invalid_nested_operation
func @no_inline_invalid_nested_operation() {
// CHECK: call_indirect
// test.region is analyzed recursively, so it must not have an invalid op.
%fn = "test.functional_region_op"() ({
"test.region"() ({
"foo.noinline_operation"() : () -> ()
}) : () -> ()
"test.return"() : () -> ()
}) : () -> (() -> ())
call_indirect %fn() : () -> ()
return
}
// CHECK-LABEL: func @inline_ignore_invalid_nested_operation
func @inline_ignore_invalid_nested_operation() {
// CHECK-NOT: call_indirect
// test.functional_region_op is not analyzed recursively, so it may have an
// invalid op.
%fn = "test.functional_region_op"() ({
%internal_fn = "test.functional_region_op"() ({
"foo.noinline_operation"() : () -> ()
}) : () -> (() -> ())
"test.return"() : () -> ()
}) : () -> (() -> ())
call_indirect %fn() : () -> ()
return
}
// CHECK-LABEL: func @no_inline_invalid_dest_region
func @no_inline_invalid_dest_region() {
// CHECK: call_indirect
// foo.unknown_region is unknown, so we can't inline into it.
"foo.unknown_region"() ({
%fn = "test.functional_region_op"() ({
"test.return"() : () -> ()
}) : () -> (() -> ())
call_indirect %fn() : () -> ()
"test.return"() : () -> ()
}) : () -> ()
return
}