mlir/test/Transforms/inlining.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s -inline='default-pipeline=''' | FileCheck %s
 // RUN: mlir-opt %s -inline='default-pipeline=''' -mlir-print-debuginfo -mlir-print-local-scope | FileCheck %s --check-prefix INLINE-LOC
 // RUN: mlir-opt %s -inline | FileCheck %s --check-prefix INLINE_SIMPLIFY

 // Inline a function that takes an argument.
 func @func_with_arg(%c : i32) -> i32 {
   %b = arith.addi %c, %c : i32
   return %b : i32
 }

 // CHECK-LABEL: func @inline_with_arg
 func @inline_with_arg(%arg0 : i32) -> i32 {
   // CHECK-NEXT: arith.addi
   // CHECK-NEXT: return

   %0 = call @func_with_arg(%arg0) : (i32) -> i32
   return %0 : i32
 }

 // Inline a function that has multiple return operations.
 func @func_with_multi_return(%a : i1) -> (i32) {
   cond_br %a, ^bb1, ^bb2

 ^bb1:
   %const_0 = arith.constant 0 : i32
   return %const_0 : i32

 ^bb2:
   %const_55 = arith.constant 55 : i32
   return %const_55 : i32
 }

 // CHECK-LABEL: func @inline_with_multi_return() -> i32
 func @inline_with_multi_return() -> i32 {
 // CHECK-NEXT:    [[VAL_7:%.*]] = arith.constant false
 // CHECK-NEXT:    cond_br [[VAL_7]], ^bb1, ^bb2
 // CHECK:       ^bb1:
 // CHECK-NEXT:    [[VAL_8:%.*]] = arith.constant 0 : i32
 // CHECK-NEXT:    br ^bb3([[VAL_8]] : i32)
 // CHECK:       ^bb2:
 // CHECK-NEXT:    [[VAL_9:%.*]] = arith.constant 55 : i32
 // CHECK-NEXT:    br ^bb3([[VAL_9]] : i32)
 // CHECK:       ^bb3([[VAL_10:%.*]]: i32):
 // CHECK-NEXT:    return [[VAL_10]] : i32

   %false = arith.constant false
   %x = call @func_with_multi_return(%false) : (i1) -> i32
   return %x : i32
 }

 // Check that location information is updated for inlined instructions.
 func @func_with_locations(%c : i32) -> i32 {
   %b = arith.addi %c, %c : i32 loc("mysource.cc":10:8)
   return %b : i32 loc("mysource.cc":11:2)
 }

 // INLINE-LOC-LABEL: func @inline_with_locations
 func @inline_with_locations(%arg0 : i32) -> i32 {
   // INLINE-LOC-NEXT: arith.addi %{{.*}}, %{{.*}} : i32 loc(callsite("mysource.cc":10:8 at "mysource.cc":55:14))
   // INLINE-LOC-NEXT: return

   %0 = call @func_with_locations(%arg0) : (i32) -> i32 loc("mysource.cc":55:14)
   return %0 : i32
 }


 // Check that external function declarations are not inlined.
 func private @func_external()

 // CHECK-LABEL: func @no_inline_external
 func @no_inline_external() {
   // CHECK-NEXT: call @func_external()
   call @func_external() : () -> ()
   return
 }

 // Check that multiple levels of calls will be inlined.
 func @multilevel_func_a() {
   return
 }
 func @multilevel_func_b() {
   call @multilevel_func_a() : () -> ()
   return
 }

 // CHECK-LABEL: func @inline_multilevel
 func @inline_multilevel() {
   // CHECK-NOT: call
   %fn = "test.functional_region_op"() ({
     call @multilevel_func_b() : () -> ()
     "test.return"() : () -> ()
   }) : () -> (() -> ())

   call_indirect %fn() : () -> ()
   return
 }

 // Check that recursive calls are not inlined.
 // CHECK-LABEL: func @no_inline_recursive
 func @no_inline_recursive() {
   // CHECK: test.functional_region_op
   // CHECK-NOT: test.functional_region_op
   %fn = "test.functional_region_op"() ({
     call @no_inline_recursive() : () -> ()
     "test.return"() : () -> ()
   }) : () -> (() -> ())
   return
 }

 // Check that we can convert types for inputs and results as necessary.
 func @convert_callee_fn(%arg : i32) -> i32 {
   return %arg : i32
 }
 func @convert_callee_fn_multi_arg(%a : i32, %b : i32) -> () {
   return
 }
 func @convert_callee_fn_multi_res() -> (i32, i32) {
   %res = arith.constant 0 : i32
   return %res, %res : i32, i32
 }

 // CHECK-LABEL: func @inline_convert_call
 func @inline_convert_call() -> i16 {
   // CHECK: %[[INPUT:.*]] = arith.constant
   %test_input = arith.constant 0 : i16

   // CHECK: %[[CAST_INPUT:.*]] = "test.cast"(%[[INPUT]]) : (i16) -> i32
   // CHECK: %[[CAST_RESULT:.*]] = "test.cast"(%[[CAST_INPUT]]) : (i32) -> i16
   // CHECK-NEXT: return %[[CAST_RESULT]]
   %res = "test.conversion_call_op"(%test_input) { callee=@convert_callee_fn } : (i16) -> (i16)
   return %res : i16
 }

 func @convert_callee_fn_multiblock() -> i32 {
   br ^bb0
 ^bb0:
   %0 = arith.constant 0 : i32
   return %0 : i32
 }

 // CHECK-LABEL: func @inline_convert_result_multiblock
 func @inline_convert_result_multiblock() -> i16 {
 // CHECK:   br ^bb1 {inlined_conversion}
 // CHECK: ^bb1:
 // CHECK:   %[[C:.+]] = arith.constant {inlined_conversion} 0 : i32
 // CHECK:   br ^bb2(%[[C]] : i32)
 // CHECK: ^bb2(%[[BBARG:.+]]: i32):
 // CHECK:   %[[CAST_RESULT:.+]] = "test.cast"(%[[BBARG]]) : (i32) -> i16
 // CHECK:   return %[[CAST_RESULT]] : i16

   %res = "test.conversion_call_op"() { callee=@convert_callee_fn_multiblock } : () -> (i16)
   return %res : i16
 }

 // CHECK-LABEL: func @no_inline_convert_call
 func @no_inline_convert_call() {
   // CHECK: "test.conversion_call_op"
   %test_input_i16 = arith.constant 0 : i16
   %test_input_i64 = arith.constant 0 : i64
   "test.conversion_call_op"(%test_input_i16, %test_input_i64) { callee=@convert_callee_fn_multi_arg } : (i16, i64) -> ()

   // CHECK: "test.conversion_call_op"
   %res_2:2 = "test.conversion_call_op"() { callee=@convert_callee_fn_multi_res } : () -> (i16, i64)
   return
 }

 // Check that we properly simplify when inlining.
 func @simplify_return_constant() -> i32 {
   %res = arith.constant 0 : i32
   return %res : i32
 }

 func @simplify_return_reference() -> (() -> i32) {
   %res = constant @simplify_return_constant : () -> i32
   return %res : () -> i32
 }

 // INLINE_SIMPLIFY-LABEL: func @inline_simplify
 func @inline_simplify() -> i32 {
   // INLINE_SIMPLIFY-NEXT: %[[CST:.*]] = arith.constant 0 : i32
   // INLINE_SIMPLIFY-NEXT: return %[[CST]]
   %fn = call @simplify_return_reference() : () -> (() -> i32)
   %res = call_indirect %fn() : () -> i32
   return %res : i32
 }

 // CHECK-LABEL: func @no_inline_invalid_call
 func @no_inline_invalid_call() -> i32 {
   %res = "test.conversion_call_op"() { callee=@convert_callee_fn_multiblock, noinline } : () -> (i32)
   return %res : i32
 }
	// RUN: mlir-opt %s -inline='default-pipeline=''' \| FileCheck %s
	// RUN: mlir-opt %s -inline='default-pipeline=''' -mlir-print-debuginfo -mlir-print-local-scope \| FileCheck %s --check-prefix INLINE-LOC
	// RUN: mlir-opt %s -inline \| FileCheck %s --check-prefix INLINE_SIMPLIFY

	// Inline a function that takes an argument.
	func @func_with_arg(%c : i32) -> i32 {
	%b = arith.addi %c, %c : i32
	return %b : i32
	}

	// CHECK-LABEL: func @inline_with_arg
	func @inline_with_arg(%arg0 : i32) -> i32 {
	// CHECK-NEXT: arith.addi
	// CHECK-NEXT: return

	%0 = call @func_with_arg(%arg0) : (i32) -> i32
	return %0 : i32
	}

	// Inline a function that has multiple return operations.
	func @func_with_multi_return(%a : i1) -> (i32) {
	cond_br %a, ^bb1, ^bb2

	^bb1:
	%const_0 = arith.constant 0 : i32
	return %const_0 : i32

	^bb2:
	%const_55 = arith.constant 55 : i32
	return %const_55 : i32
	}

	// CHECK-LABEL: func @inline_with_multi_return() -> i32
	func @inline_with_multi_return() -> i32 {
	// CHECK-NEXT: [[VAL_7:%.*]] = arith.constant false
	// CHECK-NEXT: cond_br [[VAL_7]], ^bb1, ^bb2
	// CHECK: ^bb1:
	// CHECK-NEXT: [[VAL_8:%.*]] = arith.constant 0 : i32
	// CHECK-NEXT: br ^bb3([[VAL_8]] : i32)
	// CHECK: ^bb2:
	// CHECK-NEXT: [[VAL_9:%.*]] = arith.constant 55 : i32
	// CHECK-NEXT: br ^bb3([[VAL_9]] : i32)
	// CHECK: ^bb3([[VAL_10:%.*]]: i32):
	// CHECK-NEXT: return [[VAL_10]] : i32

	%false = arith.constant false
	%x = call @func_with_multi_return(%false) : (i1) -> i32
	return %x : i32
	}

	// Check that location information is updated for inlined instructions.
	func @func_with_locations(%c : i32) -> i32 {
	%b = arith.addi %c, %c : i32 loc("mysource.cc":10:8)
	return %b : i32 loc("mysource.cc":11:2)
	}

	// INLINE-LOC-LABEL: func @inline_with_locations
	func @inline_with_locations(%arg0 : i32) -> i32 {
	// INLINE-LOC-NEXT: arith.addi %{{.}}, %{{.}} : i32 loc(callsite("mysource.cc":10:8 at "mysource.cc":55:14))
	// INLINE-LOC-NEXT: return

	%0 = call @func_with_locations(%arg0) : (i32) -> i32 loc("mysource.cc":55:14)
	return %0 : i32
	}


	// Check that external function declarations are not inlined.
	func private @func_external()

	// CHECK-LABEL: func @no_inline_external
	func @no_inline_external() {
	// CHECK-NEXT: call @func_external()
	call @func_external() : () -> ()
	return
	}

	// Check that multiple levels of calls will be inlined.
	func @multilevel_func_a() {
	return
	}
	func @multilevel_func_b() {
	call @multilevel_func_a() : () -> ()
	return
	}

	// CHECK-LABEL: func @inline_multilevel
	func @inline_multilevel() {
	// CHECK-NOT: call
	%fn = "test.functional_region_op"() ({
	call @multilevel_func_b() : () -> ()
	"test.return"() : () -> ()
	}) : () -> (() -> ())

	call_indirect %fn() : () -> ()
	return
	}

	// Check that recursive calls are not inlined.
	// CHECK-LABEL: func @no_inline_recursive
	func @no_inline_recursive() {
	// CHECK: test.functional_region_op
	// CHECK-NOT: test.functional_region_op
	%fn = "test.functional_region_op"() ({
	call @no_inline_recursive() : () -> ()
	"test.return"() : () -> ()
	}) : () -> (() -> ())
	return
	}

	// Check that we can convert types for inputs and results as necessary.
	func @convert_callee_fn(%arg : i32) -> i32 {
	return %arg : i32
	}
	func @convert_callee_fn_multi_arg(%a : i32, %b : i32) -> () {
	return
	}
	func @convert_callee_fn_multi_res() -> (i32, i32) {
	%res = arith.constant 0 : i32
	return %res, %res : i32, i32
	}

	// CHECK-LABEL: func @inline_convert_call
	func @inline_convert_call() -> i16 {
	// CHECK: %[[INPUT:.*]] = arith.constant
	%test_input = arith.constant 0 : i16

	// CHECK: %[[CAST_INPUT:.*]] = "test.cast"(%[[INPUT]]) : (i16) -> i32
	// CHECK: %[[CAST_RESULT:.*]] = "test.cast"(%[[CAST_INPUT]]) : (i32) -> i16
	// CHECK-NEXT: return %[[CAST_RESULT]]
	%res = "test.conversion_call_op"(%test_input) { callee=@convert_callee_fn } : (i16) -> (i16)
	return %res : i16
	}

	func @convert_callee_fn_multiblock() -> i32 {
	br ^bb0
	^bb0:
	%0 = arith.constant 0 : i32
	return %0 : i32
	}

	// CHECK-LABEL: func @inline_convert_result_multiblock
	func @inline_convert_result_multiblock() -> i16 {
	// CHECK: br ^bb1 {inlined_conversion}
	// CHECK: ^bb1:
	// CHECK: %[[C:.+]] = arith.constant {inlined_conversion} 0 : i32
	// CHECK: br ^bb2(%[[C]] : i32)
	// CHECK: ^bb2(%[[BBARG:.+]]: i32):
	// CHECK: %[[CAST_RESULT:.+]] = "test.cast"(%[[BBARG]]) : (i32) -> i16
	// CHECK: return %[[CAST_RESULT]] : i16

	%res = "test.conversion_call_op"() { callee=@convert_callee_fn_multiblock } : () -> (i16)
	return %res : i16
	}

	// CHECK-LABEL: func @no_inline_convert_call
	func @no_inline_convert_call() {
	// CHECK: "test.conversion_call_op"
	%test_input_i16 = arith.constant 0 : i16
	%test_input_i64 = arith.constant 0 : i64
	"test.conversion_call_op"(%test_input_i16, %test_input_i64) { callee=@convert_callee_fn_multi_arg } : (i16, i64) -> ()

	// CHECK: "test.conversion_call_op"
	%res_2:2 = "test.conversion_call_op"() { callee=@convert_callee_fn_multi_res } : () -> (i16, i64)
	return
	}

	// Check that we properly simplify when inlining.
	func @simplify_return_constant() -> i32 {
	%res = arith.constant 0 : i32
	return %res : i32
	}

	func @simplify_return_reference() -> (() -> i32) {
	%res = constant @simplify_return_constant : () -> i32
	return %res : () -> i32
	}

	// INLINE_SIMPLIFY-LABEL: func @inline_simplify
	func @inline_simplify() -> i32 {
	// INLINE_SIMPLIFY-NEXT: %[[CST:.*]] = arith.constant 0 : i32
	// INLINE_SIMPLIFY-NEXT: return %[[CST]]
	%fn = call @simplify_return_reference() : () -> (() -> i32)
	%res = call_indirect %fn() : () -> i32
	return %res : i32
	}

	// CHECK-LABEL: func @no_inline_invalid_call
	func @no_inline_invalid_call() -> i32 {
	%res = "test.conversion_call_op"() { callee=@convert_callee_fn_multiblock, noinline } : () -> (i32)
	return %res : i32
	}