mlir/test/Transforms/decompose-call-graph-types.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s -split-input-file -test-decompose-call-graph-types | FileCheck %s

 // Test case: Most basic case of a 1:N decomposition, an identity function.

 // CHECK-LABEL:   func @identity(
 // CHECK-SAME:                   %[[ARG0:.*]]: i1,
 // CHECK-SAME:                   %[[ARG1:.*]]: i32) -> (i1, i32) {
 // CHECK:           %[[ARG_MATERIALIZED:.*]] = "test.make_tuple"(%[[ARG0]], %[[ARG1]]) : (i1, i32) -> tuple<i1, i32>
 // CHECK:           %[[RET0:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
 // CHECK:           %[[RET1:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
 // CHECK:           return %[[RET0]], %[[RET1]] : i1, i32
 func @identity(%arg0: tuple<i1, i32>) -> tuple<i1, i32> {
   return %arg0 : tuple<i1, i32>
 }

 // -----

 // Test case: Ensure no materializations in the case of 1:1 decomposition.

 // CHECK-LABEL:   func @identity_1_to_1_no_materializations(
 // CHECK-SAME:                                              %[[ARG0:.*]]: i1) -> i1 {
 // CHECK:           return %[[ARG0]] : i1
 func @identity_1_to_1_no_materializations(%arg0: tuple<i1>) -> tuple<i1> {
   return %arg0 : tuple<i1>
 }

 // -----

 // Test case: Type that needs to be recursively decomposed.

 // CHECK-LABEL:   func @recursive_decomposition(
 // CHECK-SAME:                                   %[[ARG0:.*]]: i1) -> i1 {
 // CHECK:           return %[[ARG0]] : i1
 func @recursive_decomposition(%arg0: tuple<tuple<tuple<i1>>>) -> tuple<tuple<tuple<i1>>> {
   return %arg0 : tuple<tuple<tuple<i1>>>
 }

 // -----

 // Test case: Check decomposition of calls.

 // CHECK-LABEL:   func private @callee(i1, i32) -> (i1, i32)
 func private @callee(tuple<i1, i32>) -> tuple<i1, i32>

 // CHECK-LABEL:   func @caller(
 // CHECK-SAME:                 %[[ARG0:.*]]: i1,
 // CHECK-SAME:                 %[[ARG1:.*]]: i32) -> (i1, i32) {
 // CHECK:           %[[ARG_MATERIALIZED:.*]] = "test.make_tuple"(%[[ARG0]], %[[ARG1]]) : (i1, i32) -> tuple<i1, i32>
 // CHECK:           %[[CALL_ARG0:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
 // CHECK:           %[[CALL_ARG1:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
 // CHECK:           %[[DECOMPOSED:.*]]:2 = call @callee(%[[CALL_ARG0]], %[[CALL_ARG1]]) : (i1, i32) -> (i1, i32)
 // CHECK:           %[[CALL_RESULT_RECOMPOSED:.*]] = "test.make_tuple"(%[[DECOMPOSED]]#0, %[[DECOMPOSED]]#1) : (i1, i32) -> tuple<i1, i32>
 // CHECK:           %[[RET0:.*]] = "test.get_tuple_element"(%[[CALL_RESULT_RECOMPOSED]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
 // CHECK:           %[[RET1:.*]] = "test.get_tuple_element"(%[[CALL_RESULT_RECOMPOSED]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
 // CHECK:           return %[[RET0]], %[[RET1]] : i1, i32
 func @caller(%arg0: tuple<i1, i32>) -> tuple<i1, i32> {
   %0 = call @callee(%arg0) : (tuple<i1, i32>) -> tuple<i1, i32>
   return %0 : tuple<i1, i32>
 }

 // -----

 // Test case: Type that decomposes to nothing (that is, a 1:0 decomposition).

 // CHECK-LABEL:   func private @callee()
 func private @callee(tuple<>) -> tuple<>
 // CHECK-LABEL:   func @caller() {
 // CHECK:           call @callee() : () -> ()
 // CHECK:           return
 func @caller(%arg0: tuple<>) -> tuple<> {
   %0 = call @callee(%arg0) : (tuple<>) -> (tuple<>)
   return %0 : tuple<>
 }

 // -----

 // Test case: Ensure decompositions are inserted properly around results of
 // unconverted ops.

 // CHECK-LABEL:   func @unconverted_op_result() -> (i1, i32) {
 // CHECK:           %[[UNCONVERTED_VALUE:.*]] = "test.source"() : () -> tuple<i1, i32>
 // CHECK:           %[[RET0:.*]] = "test.get_tuple_element"(%[[UNCONVERTED_VALUE]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
 // CHECK:           %[[RET1:.*]] = "test.get_tuple_element"(%[[UNCONVERTED_VALUE]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
 // CHECK:           return %[[RET0]], %[[RET1]] : i1, i32
 func @unconverted_op_result() -> tuple<i1, i32> {
   %0 = "test.source"() : () -> (tuple<i1, i32>)
   return %0 : tuple<i1, i32>
 }

 // -----

 // Test case: Check mixed decomposed and non-decomposed args.
 // This makes sure to test the cases if 1:0, 1:1, and 1:N decompositions.

 // CHECK-LABEL:   func private @callee(i1, i2, i3, i4, i5, i6) -> (i1, i2, i3, i4, i5, i6)
 func private @callee(tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6) -> (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6)

 // CHECK-LABEL:   func @caller(
 // CHECK-SAME:                 %[[I1:.*]]: i1,
 // CHECK-SAME:                 %[[I2:.*]]: i2,
 // CHECK-SAME:                 %[[I3:.*]]: i3,
 // CHECK-SAME:                 %[[I4:.*]]: i4,
 // CHECK-SAME:                 %[[I5:.*]]: i5,
 // CHECK-SAME:                 %[[I6:.*]]: i6) -> (i1, i2, i3, i4, i5, i6) {
 // CHECK:           %[[ARG_TUPLE:.*]] = "test.make_tuple"(%[[I4]], %[[I5]]) : (i4, i5) -> tuple<i4, i5>
 // CHECK:           %[[ARG_TUPLE_0:.*]] = "test.get_tuple_element"(%[[ARG_TUPLE]]) {index = 0 : i32} : (tuple<i4, i5>) -> i4
 // CHECK:           %[[ARG_TUPLE_1:.*]] = "test.get_tuple_element"(%[[ARG_TUPLE]]) {index = 1 : i32} : (tuple<i4, i5>) -> i5
 // CHECK:           %[[CALL:.*]]:6 = call @callee(%[[I1]], %[[I2]], %[[I3]], %[[ARG_TUPLE_0]], %[[ARG_TUPLE_1]], %[[I6]]) : (i1, i2, i3, i4, i5, i6) -> (i1, i2, i3, i4, i5, i6)
 // CHECK:           %[[RET_TUPLE:.*]] = "test.make_tuple"(%[[CALL]]#3, %[[CALL]]#4) : (i4, i5) -> tuple<i4, i5>
 // CHECK:           %[[RET_TUPLE_0:.*]] = "test.get_tuple_element"(%[[RET_TUPLE]]) {index = 0 : i32} : (tuple<i4, i5>) -> i4
 // CHECK:           %[[RET_TUPLE_1:.*]] = "test.get_tuple_element"(%[[RET_TUPLE]]) {index = 1 : i32} : (tuple<i4, i5>) -> i5
 // CHECK:           return %[[CALL]]#0, %[[CALL]]#1, %[[CALL]]#2, %[[RET_TUPLE_0]], %[[RET_TUPLE_1]], %[[CALL]]#5 : i1, i2, i3, i4, i5, i6
 func @caller(%arg0: tuple<>, %arg1: i1, %arg2: tuple<i2>, %arg3: i3, %arg4: tuple<i4, i5>, %arg5: i6) -> (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6) {
   %0, %1, %2, %3, %4, %5 = call @callee(%arg0, %arg1, %arg2, %arg3, %arg4, %arg5) : (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6) -> (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6)
   return %0, %1, %2, %3, %4, %5 : tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6
 }
	// RUN: mlir-opt %s -split-input-file -test-decompose-call-graph-types \| FileCheck %s

	// Test case: Most basic case of a 1:N decomposition, an identity function.

	// CHECK-LABEL: func @identity(
	// CHECK-SAME: %[[ARG0:.*]]: i1,
	// CHECK-SAME: %[[ARG1:.*]]: i32) -> (i1, i32) {
	// CHECK: %[[ARG_MATERIALIZED:.*]] = "test.make_tuple"(%[[ARG0]], %[[ARG1]]) : (i1, i32) -> tuple<i1, i32>
	// CHECK: %[[RET0:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
	// CHECK: %[[RET1:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
	// CHECK: return %[[RET0]], %[[RET1]] : i1, i32
	func @identity(%arg0: tuple<i1, i32>) -> tuple<i1, i32> {
	return %arg0 : tuple<i1, i32>
	}

	// -----

	// Test case: Ensure no materializations in the case of 1:1 decomposition.

	// CHECK-LABEL: func @identity_1_to_1_no_materializations(
	// CHECK-SAME: %[[ARG0:.*]]: i1) -> i1 {
	// CHECK: return %[[ARG0]] : i1
	func @identity_1_to_1_no_materializations(%arg0: tuple<i1>) -> tuple<i1> {
	return %arg0 : tuple<i1>
	}

	// -----

	// Test case: Type that needs to be recursively decomposed.

	// CHECK-LABEL: func @recursive_decomposition(
	// CHECK-SAME: %[[ARG0:.*]]: i1) -> i1 {
	// CHECK: return %[[ARG0]] : i1
	func @recursive_decomposition(%arg0: tuple<tuple<tuple<i1>>>) -> tuple<tuple<tuple<i1>>> {
	return %arg0 : tuple<tuple<tuple<i1>>>
	}

	// -----

	// Test case: Check decomposition of calls.

	// CHECK-LABEL: func private @callee(i1, i32) -> (i1, i32)
	func private @callee(tuple<i1, i32>) -> tuple<i1, i32>

	// CHECK-LABEL: func @caller(
	// CHECK-SAME: %[[ARG0:.*]]: i1,
	// CHECK-SAME: %[[ARG1:.*]]: i32) -> (i1, i32) {
	// CHECK: %[[ARG_MATERIALIZED:.*]] = "test.make_tuple"(%[[ARG0]], %[[ARG1]]) : (i1, i32) -> tuple<i1, i32>
	// CHECK: %[[CALL_ARG0:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
	// CHECK: %[[CALL_ARG1:.*]] = "test.get_tuple_element"(%[[ARG_MATERIALIZED]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
	// CHECK: %[[DECOMPOSED:.*]]:2 = call @callee(%[[CALL_ARG0]], %[[CALL_ARG1]]) : (i1, i32) -> (i1, i32)
	// CHECK: %[[CALL_RESULT_RECOMPOSED:.*]] = "test.make_tuple"(%[[DECOMPOSED]]#0, %[[DECOMPOSED]]#1) : (i1, i32) -> tuple<i1, i32>
	// CHECK: %[[RET0:.*]] = "test.get_tuple_element"(%[[CALL_RESULT_RECOMPOSED]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
	// CHECK: %[[RET1:.*]] = "test.get_tuple_element"(%[[CALL_RESULT_RECOMPOSED]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
	// CHECK: return %[[RET0]], %[[RET1]] : i1, i32
	func @caller(%arg0: tuple<i1, i32>) -> tuple<i1, i32> {
	%0 = call @callee(%arg0) : (tuple<i1, i32>) -> tuple<i1, i32>
	return %0 : tuple<i1, i32>
	}

	// -----

	// Test case: Type that decomposes to nothing (that is, a 1:0 decomposition).

	// CHECK-LABEL: func private @callee()
	func private @callee(tuple<>) -> tuple<>
	// CHECK-LABEL: func @caller() {
	// CHECK: call @callee() : () -> ()
	// CHECK: return
	func @caller(%arg0: tuple<>) -> tuple<> {
	%0 = call @callee(%arg0) : (tuple<>) -> (tuple<>)
	return %0 : tuple<>
	}

	// -----

	// Test case: Ensure decompositions are inserted properly around results of
	// unconverted ops.

	// CHECK-LABEL: func @unconverted_op_result() -> (i1, i32) {
	// CHECK: %[[UNCONVERTED_VALUE:.*]] = "test.source"() : () -> tuple<i1, i32>
	// CHECK: %[[RET0:.*]] = "test.get_tuple_element"(%[[UNCONVERTED_VALUE]]) {index = 0 : i32} : (tuple<i1, i32>) -> i1
	// CHECK: %[[RET1:.*]] = "test.get_tuple_element"(%[[UNCONVERTED_VALUE]]) {index = 1 : i32} : (tuple<i1, i32>) -> i32
	// CHECK: return %[[RET0]], %[[RET1]] : i1, i32
	func @unconverted_op_result() -> tuple<i1, i32> {
	%0 = "test.source"() : () -> (tuple<i1, i32>)
	return %0 : tuple<i1, i32>
	}

	// -----

	// Test case: Check mixed decomposed and non-decomposed args.
	// This makes sure to test the cases if 1:0, 1:1, and 1:N decompositions.

	// CHECK-LABEL: func private @callee(i1, i2, i3, i4, i5, i6) -> (i1, i2, i3, i4, i5, i6)
	func private @callee(tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6) -> (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6)

	// CHECK-LABEL: func @caller(
	// CHECK-SAME: %[[I1:.*]]: i1,
	// CHECK-SAME: %[[I2:.*]]: i2,
	// CHECK-SAME: %[[I3:.*]]: i3,
	// CHECK-SAME: %[[I4:.*]]: i4,
	// CHECK-SAME: %[[I5:.*]]: i5,
	// CHECK-SAME: %[[I6:.*]]: i6) -> (i1, i2, i3, i4, i5, i6) {
	// CHECK: %[[ARG_TUPLE:.*]] = "test.make_tuple"(%[[I4]], %[[I5]]) : (i4, i5) -> tuple<i4, i5>
	// CHECK: %[[ARG_TUPLE_0:.*]] = "test.get_tuple_element"(%[[ARG_TUPLE]]) {index = 0 : i32} : (tuple<i4, i5>) -> i4
	// CHECK: %[[ARG_TUPLE_1:.*]] = "test.get_tuple_element"(%[[ARG_TUPLE]]) {index = 1 : i32} : (tuple<i4, i5>) -> i5
	// CHECK: %[[CALL:.*]]:6 = call @callee(%[[I1]], %[[I2]], %[[I3]], %[[ARG_TUPLE_0]], %[[ARG_TUPLE_1]], %[[I6]]) : (i1, i2, i3, i4, i5, i6) -> (i1, i2, i3, i4, i5, i6)
	// CHECK: %[[RET_TUPLE:.*]] = "test.make_tuple"(%[[CALL]]#3, %[[CALL]]#4) : (i4, i5) -> tuple<i4, i5>
	// CHECK: %[[RET_TUPLE_0:.*]] = "test.get_tuple_element"(%[[RET_TUPLE]]) {index = 0 : i32} : (tuple<i4, i5>) -> i4
	// CHECK: %[[RET_TUPLE_1:.*]] = "test.get_tuple_element"(%[[RET_TUPLE]]) {index = 1 : i32} : (tuple<i4, i5>) -> i5
	// CHECK: return %[[CALL]]#0, %[[CALL]]#1, %[[CALL]]#2, %[[RET_TUPLE_0]], %[[RET_TUPLE_1]], %[[CALL]]#5 : i1, i2, i3, i4, i5, i6
	func @caller(%arg0: tuple<>, %arg1: i1, %arg2: tuple<i2>, %arg3: i3, %arg4: tuple<i4, i5>, %arg5: i6) -> (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6) {
	%0, %1, %2, %3, %4, %5 = call @callee(%arg0, %arg1, %arg2, %arg3, %arg4, %arg5) : (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6) -> (tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6)
	return %0, %1, %2, %3, %4, %5 : tuple<>, i1, tuple<i2>, i3, tuple<i4, i5>, i6
	}