| // Copyright (c) 2021, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| // |
| // This file has been automatically generated. Please do not edit it manually. |
| // Generated by tests/ffi/generator/structs_by_value_tests_generator.dart. |
| // |
| // SharedObjects=ffi_test_functions |
| // VMOptions= |
| // VMOptions=--deterministic --optimization-counter-threshold=5 |
| // VMOptions=--use-slow-path |
| // VMOptions=--use-slow-path --stacktrace-every=100 |
| |
| // @dart = 2.9 |
| |
| import 'dart:ffi'; |
| |
| import "package:expect/expect.dart"; |
| import "package:ffi/ffi.dart"; |
| |
| import 'dylib_utils.dart'; |
| |
| // Reuse the compound classes. |
| import 'function_structs_by_value_generated_compounds.dart'; |
| |
| final ffiTestFunctions = dlopenPlatformSpecific("ffi_test_functions"); |
| void main() { |
| for (int i = 0; i < 10; ++i) { |
| testPassStruct1ByteIntx10Leaf(); |
| testPassStruct3BytesHomogeneousUint8x10Leaf(); |
| testPassStruct3BytesInt2ByteAlignedx10Leaf(); |
| testPassStruct4BytesHomogeneousInt16x10Leaf(); |
| testPassStruct7BytesHomogeneousUint8x10Leaf(); |
| testPassStruct7BytesInt4ByteAlignedx10Leaf(); |
| testPassStruct8BytesIntx10Leaf(); |
| testPassStruct8BytesHomogeneousFloatx10Leaf(); |
| testPassStruct8BytesMixedx10Leaf(); |
| testPassStruct9BytesHomogeneousUint8x10Leaf(); |
| testPassStruct9BytesInt4Or8ByteAlignedx10Leaf(); |
| testPassStruct12BytesHomogeneousFloatx6Leaf(); |
| testPassStruct16BytesHomogeneousFloatx5Leaf(); |
| testPassStruct16BytesMixedx10Leaf(); |
| testPassStruct16BytesMixed2x10Leaf(); |
| testPassStruct17BytesIntx10Leaf(); |
| testPassStruct19BytesHomogeneousUint8x10Leaf(); |
| testPassStruct20BytesHomogeneousInt32x10Leaf(); |
| testPassStruct20BytesHomogeneousFloatLeaf(); |
| testPassStruct32BytesHomogeneousDoublex5Leaf(); |
| testPassStruct40BytesHomogeneousDoubleLeaf(); |
| testPassStruct1024BytesHomogeneousUint64Leaf(); |
| testPassFloatStruct16BytesHomogeneousFloatFloatStruct1Leaf(); |
| testPassFloatStruct32BytesHomogeneousDoubleFloatStructLeaf(); |
| testPassInt8Struct16BytesMixedInt8Struct16BytesMixedInLeaf(); |
| testPassDoublex6Struct16BytesMixedx4Int32Leaf(); |
| testPassInt32x4Struct16BytesMixedx4DoubleLeaf(); |
| testPassStruct40BytesHomogeneousDoubleStruct4BytesHomoLeaf(); |
| testPassInt32x8Doublex8Int64Int8Struct1ByteIntInt64IntLeaf(); |
| testPassStructAlignmentInt16Leaf(); |
| testPassStructAlignmentInt32Leaf(); |
| testPassStructAlignmentInt64Leaf(); |
| testPassStruct8BytesNestedIntx10Leaf(); |
| testPassStruct8BytesNestedFloatx10Leaf(); |
| testPassStruct8BytesNestedFloat2x10Leaf(); |
| testPassStruct8BytesNestedMixedx10Leaf(); |
| testPassStruct16BytesNestedIntx2Leaf(); |
| testPassStruct32BytesNestedIntx2Leaf(); |
| testPassStructNestedIntStructAlignmentInt16Leaf(); |
| testPassStructNestedIntStructAlignmentInt32Leaf(); |
| testPassStructNestedIntStructAlignmentInt64Leaf(); |
| testPassStructNestedIrregularEvenBiggerx4Leaf(); |
| testPassStruct8BytesInlineArrayIntx4Leaf(); |
| testPassStructInlineArrayIrregularx4Leaf(); |
| testPassStructInlineArray100BytesLeaf(); |
| testPassStructStruct16BytesHomogeneousFloat2x5Leaf(); |
| testPassStructStruct32BytesHomogeneousDouble2x5Leaf(); |
| testPassStructStruct16BytesMixed3x10Leaf(); |
| testPassUint8Struct32BytesInlineArrayMultiDimensionalILeaf(); |
| testPassUint8Struct4BytesInlineArrayMultiDimensionalInLeaf(); |
| testPassStruct3BytesPackedIntx10Leaf(); |
| testPassStruct8BytesPackedIntx10Leaf(); |
| testPassStruct9BytesPackedMixedx10DoubleInt32x2Leaf(); |
| testPassStruct5BytesPackedMixedLeaf(); |
| testPassStructNestedAlignmentStruct5BytesPackedMixedLeaf(); |
| testPassStruct6BytesInlineArrayIntLeaf(); |
| testPassStruct15BytesInlineArrayMixedLeaf(); |
| testPassUnion4BytesMixedx10Leaf(); |
| testPassUnion8BytesNestedFloatx10Leaf(); |
| testPassUnion9BytesNestedIntx10Leaf(); |
| testPassUnion16BytesNestedInlineArrayFloatx10Leaf(); |
| testPassUnion16BytesNestedFloatx10Leaf(); |
| testPassUint8Boolx9Struct10BytesHomogeneousBoolBoolLeaf(); |
| testPassUint8Boolx9Struct10BytesInlineArrayBoolBoolLeaf(); |
| testPassUint8Struct1ByteBoolLeaf(); |
| testPassWCharStructInlineArrayIntUintPtrx2LongUnsignedLeaf(); |
| testReturnStruct1ByteIntLeaf(); |
| testReturnStruct3BytesHomogeneousUint8Leaf(); |
| testReturnStruct3BytesInt2ByteAlignedLeaf(); |
| testReturnStruct4BytesHomogeneousInt16Leaf(); |
| testReturnStruct7BytesHomogeneousUint8Leaf(); |
| testReturnStruct7BytesInt4ByteAlignedLeaf(); |
| testReturnStruct8BytesIntLeaf(); |
| testReturnStruct8BytesHomogeneousFloatLeaf(); |
| testReturnStruct8BytesMixedLeaf(); |
| testReturnStruct9BytesHomogeneousUint8Leaf(); |
| testReturnStruct9BytesInt4Or8ByteAlignedLeaf(); |
| testReturnStruct12BytesHomogeneousFloatLeaf(); |
| testReturnStruct16BytesHomogeneousFloatLeaf(); |
| testReturnStruct16BytesMixedLeaf(); |
| testReturnStruct16BytesMixed2Leaf(); |
| testReturnStruct17BytesIntLeaf(); |
| testReturnStruct19BytesHomogeneousUint8Leaf(); |
| testReturnStruct20BytesHomogeneousInt32Leaf(); |
| testReturnStruct20BytesHomogeneousFloatLeaf(); |
| testReturnStruct32BytesHomogeneousDoubleLeaf(); |
| testReturnStruct40BytesHomogeneousDoubleLeaf(); |
| testReturnStruct1024BytesHomogeneousUint64Leaf(); |
| testReturnStruct3BytesPackedIntLeaf(); |
| testReturnStruct8BytesPackedIntLeaf(); |
| testReturnStruct9BytesPackedMixedLeaf(); |
| testReturnUnion4BytesMixedLeaf(); |
| testReturnUnion8BytesNestedFloatLeaf(); |
| testReturnUnion9BytesNestedIntLeaf(); |
| testReturnUnion16BytesNestedFloatLeaf(); |
| testReturnStructArgumentStruct1ByteIntLeaf(); |
| testReturnStructArgumentInt32x8Struct1ByteIntLeaf(); |
| testReturnStructArgumentStruct8BytesHomogeneousFloatLeaf(); |
| testReturnStructArgumentStruct20BytesHomogeneousInt32Leaf(); |
| testReturnStructArgumentInt32x8Struct20BytesHomogeneouLeaf(); |
| testReturnStructArgumentStruct8BytesInlineArrayIntLeaf(); |
| testReturnStructArgumentStructStruct16BytesHomogeneousLeaf(); |
| testReturnStructArgumentStructStruct32BytesHomogeneousLeaf(); |
| testReturnStructArgumentStructStruct16BytesMixed3Leaf(); |
| testReturnStructAlignmentInt16Leaf(); |
| testReturnStructAlignmentInt32Leaf(); |
| testReturnStructAlignmentInt64Leaf(); |
| testReturnStruct8BytesNestedIntLeaf(); |
| testReturnStruct8BytesNestedFloatLeaf(); |
| testReturnStruct8BytesNestedFloat2Leaf(); |
| testReturnStruct8BytesNestedMixedLeaf(); |
| testReturnStruct16BytesNestedIntLeaf(); |
| testReturnStruct32BytesNestedIntLeaf(); |
| testReturnStructNestedIntStructAlignmentInt16Leaf(); |
| testReturnStructNestedIntStructAlignmentInt32Leaf(); |
| testReturnStructNestedIntStructAlignmentInt64Leaf(); |
| testReturnStructNestedIrregularEvenBiggerLeaf(); |
| } |
| } |
| |
| final passStruct1ByteIntx10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt), |
| int Function( |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt, |
| Struct1ByteInt)>("PassStruct1ByteIntx10", isLeaf: true); |
| |
| /// Smallest struct with data. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct1ByteIntx10Leaf() { |
| final a0Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a1.a0 = 2; |
| a2.a0 = -3; |
| a3.a0 = 4; |
| a4.a0 = -5; |
| a5.a0 = 6; |
| a6.a0 = -7; |
| a7.a0 = 8; |
| a8.a0 = -9; |
| a9.a0 = 10; |
| |
| final result = |
| passStruct1ByteIntx10Leaf(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(5, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct3BytesHomogeneousUint8x10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8), |
| int Function( |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8, |
| Struct3BytesHomogeneousUint8)>( |
| "PassStruct3BytesHomogeneousUint8x10", |
| isLeaf: true); |
| |
| /// Not a multiple of word size, not a power of two. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct3BytesHomogeneousUint8x10Leaf() { |
| final a0Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct3BytesHomogeneousUint8>(); |
| final Struct3BytesHomogeneousUint8 a9 = a9Pointer.ref; |
| |
| a0.a0 = 1; |
| a0.a1 = 2; |
| a0.a2 = 3; |
| a1.a0 = 4; |
| a1.a1 = 5; |
| a1.a2 = 6; |
| a2.a0 = 7; |
| a2.a1 = 8; |
| a2.a2 = 9; |
| a3.a0 = 10; |
| a3.a1 = 11; |
| a3.a2 = 12; |
| a4.a0 = 13; |
| a4.a1 = 14; |
| a4.a2 = 15; |
| a5.a0 = 16; |
| a5.a1 = 17; |
| a5.a2 = 18; |
| a6.a0 = 19; |
| a6.a1 = 20; |
| a6.a2 = 21; |
| a7.a0 = 22; |
| a7.a1 = 23; |
| a7.a2 = 24; |
| a8.a0 = 25; |
| a8.a1 = 26; |
| a8.a2 = 27; |
| a9.a0 = 28; |
| a9.a1 = 29; |
| a9.a2 = 30; |
| |
| final result = passStruct3BytesHomogeneousUint8x10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(465, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct3BytesInt2ByteAlignedx10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned), |
| int Function( |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned, |
| Struct3BytesInt2ByteAligned)>("PassStruct3BytesInt2ByteAlignedx10", |
| isLeaf: true); |
| |
| /// Not a multiple of word size, not a power of two. |
| /// With alignment rules taken into account size is 4 bytes. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct3BytesInt2ByteAlignedx10Leaf() { |
| final a0Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct3BytesInt2ByteAligned>(); |
| final Struct3BytesInt2ByteAligned a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a1.a0 = -3; |
| a1.a1 = 4; |
| a2.a0 = -5; |
| a2.a1 = 6; |
| a3.a0 = -7; |
| a3.a1 = 8; |
| a4.a0 = -9; |
| a4.a1 = 10; |
| a5.a0 = -11; |
| a5.a1 = 12; |
| a6.a0 = -13; |
| a6.a1 = 14; |
| a7.a0 = -15; |
| a7.a1 = 16; |
| a8.a0 = -17; |
| a8.a1 = 18; |
| a9.a0 = -19; |
| a9.a1 = 20; |
| |
| final result = passStruct3BytesInt2ByteAlignedx10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(10, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct4BytesHomogeneousInt16x10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16), |
| int Function( |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16, |
| Struct4BytesHomogeneousInt16)>( |
| "PassStruct4BytesHomogeneousInt16x10", |
| isLeaf: true); |
| |
| /// Exactly word size on 32-bit architectures. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct4BytesHomogeneousInt16x10Leaf() { |
| final a0Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a1.a0 = -3; |
| a1.a1 = 4; |
| a2.a0 = -5; |
| a2.a1 = 6; |
| a3.a0 = -7; |
| a3.a1 = 8; |
| a4.a0 = -9; |
| a4.a1 = 10; |
| a5.a0 = -11; |
| a5.a1 = 12; |
| a6.a0 = -13; |
| a6.a1 = 14; |
| a7.a0 = -15; |
| a7.a1 = 16; |
| a8.a0 = -17; |
| a8.a1 = 18; |
| a9.a0 = -19; |
| a9.a1 = 20; |
| |
| final result = passStruct4BytesHomogeneousInt16x10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(10, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct7BytesHomogeneousUint8x10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8), |
| int Function( |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8, |
| Struct7BytesHomogeneousUint8)>( |
| "PassStruct7BytesHomogeneousUint8x10", |
| isLeaf: true); |
| |
| /// Sub word size on 64 bit architectures. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct7BytesHomogeneousUint8x10Leaf() { |
| final a0Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct7BytesHomogeneousUint8>(); |
| final Struct7BytesHomogeneousUint8 a9 = a9Pointer.ref; |
| |
| a0.a0 = 1; |
| a0.a1 = 2; |
| a0.a2 = 3; |
| a0.a3 = 4; |
| a0.a4 = 5; |
| a0.a5 = 6; |
| a0.a6 = 7; |
| a1.a0 = 8; |
| a1.a1 = 9; |
| a1.a2 = 10; |
| a1.a3 = 11; |
| a1.a4 = 12; |
| a1.a5 = 13; |
| a1.a6 = 14; |
| a2.a0 = 15; |
| a2.a1 = 16; |
| a2.a2 = 17; |
| a2.a3 = 18; |
| a2.a4 = 19; |
| a2.a5 = 20; |
| a2.a6 = 21; |
| a3.a0 = 22; |
| a3.a1 = 23; |
| a3.a2 = 24; |
| a3.a3 = 25; |
| a3.a4 = 26; |
| a3.a5 = 27; |
| a3.a6 = 28; |
| a4.a0 = 29; |
| a4.a1 = 30; |
| a4.a2 = 31; |
| a4.a3 = 32; |
| a4.a4 = 33; |
| a4.a5 = 34; |
| a4.a6 = 35; |
| a5.a0 = 36; |
| a5.a1 = 37; |
| a5.a2 = 38; |
| a5.a3 = 39; |
| a5.a4 = 40; |
| a5.a5 = 41; |
| a5.a6 = 42; |
| a6.a0 = 43; |
| a6.a1 = 44; |
| a6.a2 = 45; |
| a6.a3 = 46; |
| a6.a4 = 47; |
| a6.a5 = 48; |
| a6.a6 = 49; |
| a7.a0 = 50; |
| a7.a1 = 51; |
| a7.a2 = 52; |
| a7.a3 = 53; |
| a7.a4 = 54; |
| a7.a5 = 55; |
| a7.a6 = 56; |
| a8.a0 = 57; |
| a8.a1 = 58; |
| a8.a2 = 59; |
| a8.a3 = 60; |
| a8.a4 = 61; |
| a8.a5 = 62; |
| a8.a6 = 63; |
| a9.a0 = 64; |
| a9.a1 = 65; |
| a9.a2 = 66; |
| a9.a3 = 67; |
| a9.a4 = 68; |
| a9.a5 = 69; |
| a9.a6 = 70; |
| |
| final result = passStruct7BytesHomogeneousUint8x10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(2485, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct7BytesInt4ByteAlignedx10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned), |
| int Function( |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned, |
| Struct7BytesInt4ByteAligned)>("PassStruct7BytesInt4ByteAlignedx10", |
| isLeaf: true); |
| |
| /// Sub word size on 64 bit architectures. |
| /// With alignment rules taken into account size is 8 bytes. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct7BytesInt4ByteAlignedx10Leaf() { |
| final a0Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct7BytesInt4ByteAligned>(); |
| final Struct7BytesInt4ByteAligned a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a0.a2 = -3; |
| a1.a0 = 4; |
| a1.a1 = -5; |
| a1.a2 = 6; |
| a2.a0 = -7; |
| a2.a1 = 8; |
| a2.a2 = -9; |
| a3.a0 = 10; |
| a3.a1 = -11; |
| a3.a2 = 12; |
| a4.a0 = -13; |
| a4.a1 = 14; |
| a4.a2 = -15; |
| a5.a0 = 16; |
| a5.a1 = -17; |
| a5.a2 = 18; |
| a6.a0 = -19; |
| a6.a1 = 20; |
| a6.a2 = -21; |
| a7.a0 = 22; |
| a7.a1 = -23; |
| a7.a2 = 24; |
| a8.a0 = -25; |
| a8.a1 = 26; |
| a8.a2 = -27; |
| a9.a0 = 28; |
| a9.a1 = -29; |
| a9.a2 = 30; |
| |
| final result = passStruct7BytesInt4ByteAlignedx10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(15, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct8BytesIntx10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt), |
| int Function( |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt, |
| Struct8BytesInt)>("PassStruct8BytesIntx10", isLeaf: true); |
| |
| /// Exactly word size struct on 64bit architectures. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct8BytesIntx10Leaf() { |
| final a0Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a0.a2 = -3; |
| a1.a0 = 4; |
| a1.a1 = -5; |
| a1.a2 = 6; |
| a2.a0 = -7; |
| a2.a1 = 8; |
| a2.a2 = -9; |
| a3.a0 = 10; |
| a3.a1 = -11; |
| a3.a2 = 12; |
| a4.a0 = -13; |
| a4.a1 = 14; |
| a4.a2 = -15; |
| a5.a0 = 16; |
| a5.a1 = -17; |
| a5.a2 = 18; |
| a6.a0 = -19; |
| a6.a1 = 20; |
| a6.a2 = -21; |
| a7.a0 = 22; |
| a7.a1 = -23; |
| a7.a2 = 24; |
| a8.a0 = -25; |
| a8.a1 = 26; |
| a8.a2 = -27; |
| a9.a0 = 28; |
| a9.a1 = -29; |
| a9.a2 = 30; |
| |
| final result = |
| passStruct8BytesIntx10Leaf(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(15, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct8BytesHomogeneousFloatx10Leaf = ffiTestFunctions.lookupFunction< |
| Float Function( |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat), |
| double Function( |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat, |
| Struct8BytesHomogeneousFloat)>( |
| "PassStruct8BytesHomogeneousFloatx10", |
| isLeaf: true); |
| |
| /// Arguments passed in FP registers as long as they fit. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct8BytesHomogeneousFloatx10Leaf() { |
| final a0Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a9 = a9Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a1.a0 = -3.0; |
| a1.a1 = 4.0; |
| a2.a0 = -5.0; |
| a2.a1 = 6.0; |
| a3.a0 = -7.0; |
| a3.a1 = 8.0; |
| a4.a0 = -9.0; |
| a4.a1 = 10.0; |
| a5.a0 = -11.0; |
| a5.a1 = 12.0; |
| a6.a0 = -13.0; |
| a6.a1 = 14.0; |
| a7.a0 = -15.0; |
| a7.a1 = 16.0; |
| a8.a0 = -17.0; |
| a8.a1 = 18.0; |
| a9.a0 = -19.0; |
| a9.a1 = 20.0; |
| |
| final result = passStruct8BytesHomogeneousFloatx10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(10.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct8BytesMixedx10Leaf = ffiTestFunctions.lookupFunction< |
| Float Function( |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed), |
| double Function( |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed, |
| Struct8BytesMixed)>("PassStruct8BytesMixedx10", isLeaf: true); |
| |
| /// On x64, arguments go in int registers because it is not only float. |
| /// 10 struct arguments will exhaust available registers. |
| void testPassStruct8BytesMixedx10Leaf() { |
| final a0Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a9 = a9Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2; |
| a0.a2 = -3; |
| a1.a0 = 4.0; |
| a1.a1 = -5; |
| a1.a2 = 6; |
| a2.a0 = -7.0; |
| a2.a1 = 8; |
| a2.a2 = -9; |
| a3.a0 = 10.0; |
| a3.a1 = -11; |
| a3.a2 = 12; |
| a4.a0 = -13.0; |
| a4.a1 = 14; |
| a4.a2 = -15; |
| a5.a0 = 16.0; |
| a5.a1 = -17; |
| a5.a2 = 18; |
| a6.a0 = -19.0; |
| a6.a1 = 20; |
| a6.a2 = -21; |
| a7.a0 = 22.0; |
| a7.a1 = -23; |
| a7.a2 = 24; |
| a8.a0 = -25.0; |
| a8.a1 = 26; |
| a8.a2 = -27; |
| a9.a0 = 28.0; |
| a9.a1 = -29; |
| a9.a2 = 30; |
| |
| final result = |
| passStruct8BytesMixedx10Leaf(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(15.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct9BytesHomogeneousUint8x10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8), |
| int Function( |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8, |
| Struct9BytesHomogeneousUint8)>( |
| "PassStruct9BytesHomogeneousUint8x10", |
| isLeaf: true); |
| |
| /// Argument is a single byte over a multiple of word size. |
| /// 10 struct arguments will exhaust available registers. |
| /// Struct only has 1-byte aligned fields to test struct alignment itself. |
| /// Tests upper bytes in the integer registers that are partly filled. |
| /// Tests stack alignment of non word size stack arguments. |
| void testPassStruct9BytesHomogeneousUint8x10Leaf() { |
| final a0Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct9BytesHomogeneousUint8>(); |
| final Struct9BytesHomogeneousUint8 a9 = a9Pointer.ref; |
| |
| a0.a0 = 1; |
| a0.a1 = 2; |
| a0.a2 = 3; |
| a0.a3 = 4; |
| a0.a4 = 5; |
| a0.a5 = 6; |
| a0.a6 = 7; |
| a0.a7 = 8; |
| a0.a8 = 9; |
| a1.a0 = 10; |
| a1.a1 = 11; |
| a1.a2 = 12; |
| a1.a3 = 13; |
| a1.a4 = 14; |
| a1.a5 = 15; |
| a1.a6 = 16; |
| a1.a7 = 17; |
| a1.a8 = 18; |
| a2.a0 = 19; |
| a2.a1 = 20; |
| a2.a2 = 21; |
| a2.a3 = 22; |
| a2.a4 = 23; |
| a2.a5 = 24; |
| a2.a6 = 25; |
| a2.a7 = 26; |
| a2.a8 = 27; |
| a3.a0 = 28; |
| a3.a1 = 29; |
| a3.a2 = 30; |
| a3.a3 = 31; |
| a3.a4 = 32; |
| a3.a5 = 33; |
| a3.a6 = 34; |
| a3.a7 = 35; |
| a3.a8 = 36; |
| a4.a0 = 37; |
| a4.a1 = 38; |
| a4.a2 = 39; |
| a4.a3 = 40; |
| a4.a4 = 41; |
| a4.a5 = 42; |
| a4.a6 = 43; |
| a4.a7 = 44; |
| a4.a8 = 45; |
| a5.a0 = 46; |
| a5.a1 = 47; |
| a5.a2 = 48; |
| a5.a3 = 49; |
| a5.a4 = 50; |
| a5.a5 = 51; |
| a5.a6 = 52; |
| a5.a7 = 53; |
| a5.a8 = 54; |
| a6.a0 = 55; |
| a6.a1 = 56; |
| a6.a2 = 57; |
| a6.a3 = 58; |
| a6.a4 = 59; |
| a6.a5 = 60; |
| a6.a6 = 61; |
| a6.a7 = 62; |
| a6.a8 = 63; |
| a7.a0 = 64; |
| a7.a1 = 65; |
| a7.a2 = 66; |
| a7.a3 = 67; |
| a7.a4 = 68; |
| a7.a5 = 69; |
| a7.a6 = 70; |
| a7.a7 = 71; |
| a7.a8 = 72; |
| a8.a0 = 73; |
| a8.a1 = 74; |
| a8.a2 = 75; |
| a8.a3 = 76; |
| a8.a4 = 77; |
| a8.a5 = 78; |
| a8.a6 = 79; |
| a8.a7 = 80; |
| a8.a8 = 81; |
| a9.a0 = 82; |
| a9.a1 = 83; |
| a9.a2 = 84; |
| a9.a3 = 85; |
| a9.a4 = 86; |
| a9.a5 = 87; |
| a9.a6 = 88; |
| a9.a7 = 89; |
| a9.a8 = 90; |
| |
| final result = passStruct9BytesHomogeneousUint8x10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(4095, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct9BytesInt4Or8ByteAlignedx10Leaf = |
| ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned), |
| int Function( |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned, |
| Struct9BytesInt4Or8ByteAligned)>( |
| "PassStruct9BytesInt4Or8ByteAlignedx10", |
| isLeaf: true); |
| |
| /// Argument is a single byte over a multiple of word size. |
| /// With alignment rules taken into account size is 12 or 16 bytes. |
| /// 10 struct arguments will exhaust available registers. |
| /// |
| void testPassStruct9BytesInt4Or8ByteAlignedx10Leaf() { |
| final a0Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct9BytesInt4Or8ByteAligned>(); |
| final Struct9BytesInt4Or8ByteAligned a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a1.a0 = -3; |
| a1.a1 = 4; |
| a2.a0 = -5; |
| a2.a1 = 6; |
| a3.a0 = -7; |
| a3.a1 = 8; |
| a4.a0 = -9; |
| a4.a1 = 10; |
| a5.a0 = -11; |
| a5.a1 = 12; |
| a6.a0 = -13; |
| a6.a1 = 14; |
| a7.a0 = -15; |
| a7.a1 = 16; |
| a8.a0 = -17; |
| a8.a1 = 18; |
| a9.a0 = -19; |
| a9.a1 = 20; |
| |
| final result = passStruct9BytesInt4Or8ByteAlignedx10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(10, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct12BytesHomogeneousFloatx6Leaf = ffiTestFunctions.lookupFunction< |
| Float Function( |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat), |
| double Function( |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat, |
| Struct12BytesHomogeneousFloat)>( |
| "PassStruct12BytesHomogeneousFloatx6", |
| isLeaf: true); |
| |
| /// Arguments in FPU registers on arm hardfp and arm64. |
| /// Struct arguments will exhaust available registers, and leave some empty. |
| /// The last argument is to test whether arguments are backfilled. |
| void testPassStruct12BytesHomogeneousFloatx6Leaf() { |
| final a0Pointer = calloc<Struct12BytesHomogeneousFloat>(); |
| final Struct12BytesHomogeneousFloat a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct12BytesHomogeneousFloat>(); |
| final Struct12BytesHomogeneousFloat a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct12BytesHomogeneousFloat>(); |
| final Struct12BytesHomogeneousFloat a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct12BytesHomogeneousFloat>(); |
| final Struct12BytesHomogeneousFloat a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct12BytesHomogeneousFloat>(); |
| final Struct12BytesHomogeneousFloat a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct12BytesHomogeneousFloat>(); |
| final Struct12BytesHomogeneousFloat a5 = a5Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a1.a0 = 4.0; |
| a1.a1 = -5.0; |
| a1.a2 = 6.0; |
| a2.a0 = -7.0; |
| a2.a1 = 8.0; |
| a2.a2 = -9.0; |
| a3.a0 = 10.0; |
| a3.a1 = -11.0; |
| a3.a2 = 12.0; |
| a4.a0 = -13.0; |
| a4.a1 = 14.0; |
| a4.a2 = -15.0; |
| a5.a0 = 16.0; |
| a5.a1 = -17.0; |
| a5.a2 = 18.0; |
| |
| final result = |
| passStruct12BytesHomogeneousFloatx6Leaf(a0, a1, a2, a3, a4, a5); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(9.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| } |
| |
| final passStruct16BytesHomogeneousFloatx5Leaf = ffiTestFunctions.lookupFunction< |
| Float Function( |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat), |
| double Function( |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat, |
| Struct16BytesHomogeneousFloat)>( |
| "PassStruct16BytesHomogeneousFloatx5", |
| isLeaf: true); |
| |
| /// On Linux x64 argument is transferred on stack because it is over 16 bytes. |
| /// Arguments in FPU registers on arm hardfp and arm64. |
| /// 5 struct arguments will exhaust available registers. |
| void testPassStruct16BytesHomogeneousFloatx5Leaf() { |
| final a0Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a4 = a4Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a0.a3 = 4.0; |
| a1.a0 = -5.0; |
| a1.a1 = 6.0; |
| a1.a2 = -7.0; |
| a1.a3 = 8.0; |
| a2.a0 = -9.0; |
| a2.a1 = 10.0; |
| a2.a2 = -11.0; |
| a2.a3 = 12.0; |
| a3.a0 = -13.0; |
| a3.a1 = 14.0; |
| a3.a2 = -15.0; |
| a3.a3 = 16.0; |
| a4.a0 = -17.0; |
| a4.a1 = 18.0; |
| a4.a2 = -19.0; |
| a4.a3 = 20.0; |
| |
| final result = passStruct16BytesHomogeneousFloatx5Leaf(a0, a1, a2, a3, a4); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(10.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| } |
| |
| final passStruct16BytesMixedx10Leaf = ffiTestFunctions.lookupFunction< |
| Double Function( |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed), |
| double Function( |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed)>("PassStruct16BytesMixedx10", isLeaf: true); |
| |
| /// On x64, arguments are split over FP and int registers. |
| /// On x64, it will exhaust the integer registers with the 6th argument. |
| /// The rest goes on the stack. |
| /// On arm, arguments are 8 byte aligned. |
| void testPassStruct16BytesMixedx10Leaf() { |
| final a0Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a9 = a9Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2; |
| a1.a0 = -3.0; |
| a1.a1 = 4; |
| a2.a0 = -5.0; |
| a2.a1 = 6; |
| a3.a0 = -7.0; |
| a3.a1 = 8; |
| a4.a0 = -9.0; |
| a4.a1 = 10; |
| a5.a0 = -11.0; |
| a5.a1 = 12; |
| a6.a0 = -13.0; |
| a6.a1 = 14; |
| a7.a0 = -15.0; |
| a7.a1 = 16; |
| a8.a0 = -17.0; |
| a8.a1 = 18; |
| a9.a0 = -19.0; |
| a9.a1 = 20; |
| |
| final result = |
| passStruct16BytesMixedx10Leaf(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(10.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct16BytesMixed2x10Leaf = ffiTestFunctions.lookupFunction< |
| Float Function( |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2), |
| double Function( |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2, |
| Struct16BytesMixed2)>("PassStruct16BytesMixed2x10", isLeaf: true); |
| |
| /// On x64, arguments are split over FP and int registers. |
| /// On x64, it will exhaust the integer registers with the 6th argument. |
| /// The rest goes on the stack. |
| /// On arm, arguments are 4 byte aligned. |
| void testPassStruct16BytesMixed2x10Leaf() { |
| final a0Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct16BytesMixed2>(); |
| final Struct16BytesMixed2 a9 = a9Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a0.a3 = 4; |
| a1.a0 = -5.0; |
| a1.a1 = 6.0; |
| a1.a2 = -7.0; |
| a1.a3 = 8; |
| a2.a0 = -9.0; |
| a2.a1 = 10.0; |
| a2.a2 = -11.0; |
| a2.a3 = 12; |
| a3.a0 = -13.0; |
| a3.a1 = 14.0; |
| a3.a2 = -15.0; |
| a3.a3 = 16; |
| a4.a0 = -17.0; |
| a4.a1 = 18.0; |
| a4.a2 = -19.0; |
| a4.a3 = 20; |
| a5.a0 = -21.0; |
| a5.a1 = 22.0; |
| a5.a2 = -23.0; |
| a5.a3 = 24; |
| a6.a0 = -25.0; |
| a6.a1 = 26.0; |
| a6.a2 = -27.0; |
| a6.a3 = 28; |
| a7.a0 = -29.0; |
| a7.a1 = 30.0; |
| a7.a2 = -31.0; |
| a7.a3 = 32; |
| a8.a0 = -33.0; |
| a8.a1 = 34.0; |
| a8.a2 = -35.0; |
| a8.a3 = 36; |
| a9.a0 = -37.0; |
| a9.a1 = 38.0; |
| a9.a2 = -39.0; |
| a9.a3 = 40; |
| |
| final result = |
| passStruct16BytesMixed2x10Leaf(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(20.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct17BytesIntx10Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt), |
| int Function( |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt, |
| Struct17BytesInt)>("PassStruct17BytesIntx10", isLeaf: true); |
| |
| /// Arguments are passed as pointer to copy on arm64. |
| /// Tests that the memory allocated for copies are rounded up to word size. |
| void testPassStruct17BytesIntx10Leaf() { |
| final a0Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct17BytesInt>(); |
| final Struct17BytesInt a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a0.a2 = -3; |
| a1.a0 = 4; |
| a1.a1 = -5; |
| a1.a2 = 6; |
| a2.a0 = -7; |
| a2.a1 = 8; |
| a2.a2 = -9; |
| a3.a0 = 10; |
| a3.a1 = -11; |
| a3.a2 = 12; |
| a4.a0 = -13; |
| a4.a1 = 14; |
| a4.a2 = -15; |
| a5.a0 = 16; |
| a5.a1 = -17; |
| a5.a2 = 18; |
| a6.a0 = -19; |
| a6.a1 = 20; |
| a6.a2 = -21; |
| a7.a0 = 22; |
| a7.a1 = -23; |
| a7.a2 = 24; |
| a8.a0 = -25; |
| a8.a1 = 26; |
| a8.a2 = -27; |
| a9.a0 = 28; |
| a9.a1 = -29; |
| a9.a2 = 30; |
| |
| final result = |
| passStruct17BytesIntx10Leaf(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(15, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct19BytesHomogeneousUint8x10Leaf = |
| ffiTestFunctions.lookupFunction< |
| Int64 Function( |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8), |
| int Function( |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8, |
| Struct19BytesHomogeneousUint8)>( |
| "PassStruct19BytesHomogeneousUint8x10", |
| isLeaf: true); |
| |
| /// The minimum alignment of this struct is only 1 byte based on its fields. |
| /// Test that the memory backing these structs is extended to the right size. |
| /// |
| void testPassStruct19BytesHomogeneousUint8x10Leaf() { |
| final a0Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct19BytesHomogeneousUint8>(); |
| final Struct19BytesHomogeneousUint8 a9 = a9Pointer.ref; |
| |
| a0.a0 = 1; |
| a0.a1 = 2; |
| a0.a2 = 3; |
| a0.a3 = 4; |
| a0.a4 = 5; |
| a0.a5 = 6; |
| a0.a6 = 7; |
| a0.a7 = 8; |
| a0.a8 = 9; |
| a0.a9 = 10; |
| a0.a10 = 11; |
| a0.a11 = 12; |
| a0.a12 = 13; |
| a0.a13 = 14; |
| a0.a14 = 15; |
| a0.a15 = 16; |
| a0.a16 = 17; |
| a0.a17 = 18; |
| a0.a18 = 19; |
| a1.a0 = 20; |
| a1.a1 = 21; |
| a1.a2 = 22; |
| a1.a3 = 23; |
| a1.a4 = 24; |
| a1.a5 = 25; |
| a1.a6 = 26; |
| a1.a7 = 27; |
| a1.a8 = 28; |
| a1.a9 = 29; |
| a1.a10 = 30; |
| a1.a11 = 31; |
| a1.a12 = 32; |
| a1.a13 = 33; |
| a1.a14 = 34; |
| a1.a15 = 35; |
| a1.a16 = 36; |
| a1.a17 = 37; |
| a1.a18 = 38; |
| a2.a0 = 39; |
| a2.a1 = 40; |
| a2.a2 = 41; |
| a2.a3 = 42; |
| a2.a4 = 43; |
| a2.a5 = 44; |
| a2.a6 = 45; |
| a2.a7 = 46; |
| a2.a8 = 47; |
| a2.a9 = 48; |
| a2.a10 = 49; |
| a2.a11 = 50; |
| a2.a12 = 51; |
| a2.a13 = 52; |
| a2.a14 = 53; |
| a2.a15 = 54; |
| a2.a16 = 55; |
| a2.a17 = 56; |
| a2.a18 = 57; |
| a3.a0 = 58; |
| a3.a1 = 59; |
| a3.a2 = 60; |
| a3.a3 = 61; |
| a3.a4 = 62; |
| a3.a5 = 63; |
| a3.a6 = 64; |
| a3.a7 = 65; |
| a3.a8 = 66; |
| a3.a9 = 67; |
| a3.a10 = 68; |
| a3.a11 = 69; |
| a3.a12 = 70; |
| a3.a13 = 71; |
| a3.a14 = 72; |
| a3.a15 = 73; |
| a3.a16 = 74; |
| a3.a17 = 75; |
| a3.a18 = 76; |
| a4.a0 = 77; |
| a4.a1 = 78; |
| a4.a2 = 79; |
| a4.a3 = 80; |
| a4.a4 = 81; |
| a4.a5 = 82; |
| a4.a6 = 83; |
| a4.a7 = 84; |
| a4.a8 = 85; |
| a4.a9 = 86; |
| a4.a10 = 87; |
| a4.a11 = 88; |
| a4.a12 = 89; |
| a4.a13 = 90; |
| a4.a14 = 91; |
| a4.a15 = 92; |
| a4.a16 = 93; |
| a4.a17 = 94; |
| a4.a18 = 95; |
| a5.a0 = 96; |
| a5.a1 = 97; |
| a5.a2 = 98; |
| a5.a3 = 99; |
| a5.a4 = 100; |
| a5.a5 = 101; |
| a5.a6 = 102; |
| a5.a7 = 103; |
| a5.a8 = 104; |
| a5.a9 = 105; |
| a5.a10 = 106; |
| a5.a11 = 107; |
| a5.a12 = 108; |
| a5.a13 = 109; |
| a5.a14 = 110; |
| a5.a15 = 111; |
| a5.a16 = 112; |
| a5.a17 = 113; |
| a5.a18 = 114; |
| a6.a0 = 115; |
| a6.a1 = 116; |
| a6.a2 = 117; |
| a6.a3 = 118; |
| a6.a4 = 119; |
| a6.a5 = 120; |
| a6.a6 = 121; |
| a6.a7 = 122; |
| a6.a8 = 123; |
| a6.a9 = 124; |
| a6.a10 = 125; |
| a6.a11 = 126; |
| a6.a12 = 127; |
| a6.a13 = 128; |
| a6.a14 = 129; |
| a6.a15 = 130; |
| a6.a16 = 131; |
| a6.a17 = 132; |
| a6.a18 = 133; |
| a7.a0 = 134; |
| a7.a1 = 135; |
| a7.a2 = 136; |
| a7.a3 = 137; |
| a7.a4 = 138; |
| a7.a5 = 139; |
| a7.a6 = 140; |
| a7.a7 = 141; |
| a7.a8 = 142; |
| a7.a9 = 143; |
| a7.a10 = 144; |
| a7.a11 = 145; |
| a7.a12 = 146; |
| a7.a13 = 147; |
| a7.a14 = 148; |
| a7.a15 = 149; |
| a7.a16 = 150; |
| a7.a17 = 151; |
| a7.a18 = 152; |
| a8.a0 = 153; |
| a8.a1 = 154; |
| a8.a2 = 155; |
| a8.a3 = 156; |
| a8.a4 = 157; |
| a8.a5 = 158; |
| a8.a6 = 159; |
| a8.a7 = 160; |
| a8.a8 = 161; |
| a8.a9 = 162; |
| a8.a10 = 163; |
| a8.a11 = 164; |
| a8.a12 = 165; |
| a8.a13 = 166; |
| a8.a14 = 167; |
| a8.a15 = 168; |
| a8.a16 = 169; |
| a8.a17 = 170; |
| a8.a18 = 171; |
| a9.a0 = 172; |
| a9.a1 = 173; |
| a9.a2 = 174; |
| a9.a3 = 175; |
| a9.a4 = 176; |
| a9.a5 = 177; |
| a9.a6 = 178; |
| a9.a7 = 179; |
| a9.a8 = 180; |
| a9.a9 = 181; |
| a9.a10 = 182; |
| a9.a11 = 183; |
| a9.a12 = 184; |
| a9.a13 = 185; |
| a9.a14 = 186; |
| a9.a15 = 187; |
| a9.a16 = 188; |
| a9.a17 = 189; |
| a9.a18 = 190; |
| |
| final result = passStruct19BytesHomogeneousUint8x10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(18145, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct20BytesHomogeneousInt32x10Leaf = |
| ffiTestFunctions.lookupFunction< |
| Int32 Function( |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32), |
| int Function( |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32, |
| Struct20BytesHomogeneousInt32)>( |
| "PassStruct20BytesHomogeneousInt32x10", |
| isLeaf: true); |
| |
| /// Argument too big to go into integer registers on arm64. |
| /// The arguments are passed as pointers to copies. |
| /// The amount of arguments exhausts the number of integer registers, such that |
| /// pointers to copies are also passed on the stack. |
| void testPassStruct20BytesHomogeneousInt32x10Leaf() { |
| final a0Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct20BytesHomogeneousInt32>(); |
| final Struct20BytesHomogeneousInt32 a9 = a9Pointer.ref; |
| |
| a0.a0 = -1; |
| a0.a1 = 2; |
| a0.a2 = -3; |
| a0.a3 = 4; |
| a0.a4 = -5; |
| a1.a0 = 6; |
| a1.a1 = -7; |
| a1.a2 = 8; |
| a1.a3 = -9; |
| a1.a4 = 10; |
| a2.a0 = -11; |
| a2.a1 = 12; |
| a2.a2 = -13; |
| a2.a3 = 14; |
| a2.a4 = -15; |
| a3.a0 = 16; |
| a3.a1 = -17; |
| a3.a2 = 18; |
| a3.a3 = -19; |
| a3.a4 = 20; |
| a4.a0 = -21; |
| a4.a1 = 22; |
| a4.a2 = -23; |
| a4.a3 = 24; |
| a4.a4 = -25; |
| a5.a0 = 26; |
| a5.a1 = -27; |
| a5.a2 = 28; |
| a5.a3 = -29; |
| a5.a4 = 30; |
| a6.a0 = -31; |
| a6.a1 = 32; |
| a6.a2 = -33; |
| a6.a3 = 34; |
| a6.a4 = -35; |
| a7.a0 = 36; |
| a7.a1 = -37; |
| a7.a2 = 38; |
| a7.a3 = -39; |
| a7.a4 = 40; |
| a8.a0 = -41; |
| a8.a1 = 42; |
| a8.a2 = -43; |
| a8.a3 = 44; |
| a8.a4 = -45; |
| a9.a0 = 46; |
| a9.a1 = -47; |
| a9.a2 = 48; |
| a9.a3 = -49; |
| a9.a4 = 50; |
| |
| final result = passStruct20BytesHomogeneousInt32x10Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9); |
| |
| print("result = $result"); |
| |
| Expect.equals(25, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passStruct20BytesHomogeneousFloatLeaf = ffiTestFunctions.lookupFunction< |
| Float Function(Struct20BytesHomogeneousFloat), |
| double Function(Struct20BytesHomogeneousFloat)>( |
| "PassStruct20BytesHomogeneousFloat", |
| isLeaf: true); |
| |
| /// Argument too big to go into FPU registers in hardfp and arm64. |
| void testPassStruct20BytesHomogeneousFloatLeaf() { |
| final a0Pointer = calloc<Struct20BytesHomogeneousFloat>(); |
| final Struct20BytesHomogeneousFloat a0 = a0Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a0.a3 = 4.0; |
| a0.a4 = -5.0; |
| |
| final result = passStruct20BytesHomogeneousFloatLeaf(a0); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-3.0, result); |
| |
| calloc.free(a0Pointer); |
| } |
| |
| final passStruct32BytesHomogeneousDoublex5Leaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function( |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble), |
| double Function( |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble, |
| Struct32BytesHomogeneousDouble)>( |
| "PassStruct32BytesHomogeneousDoublex5", |
| isLeaf: true); |
| |
| /// Arguments in FPU registers on arm64. |
| /// 5 struct arguments will exhaust available registers. |
| void testPassStruct32BytesHomogeneousDoublex5Leaf() { |
| final a0Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a2 = a2Pointer.ref; |
| final a3Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a3 = a3Pointer.ref; |
| final a4Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a4 = a4Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a0.a3 = 4.0; |
| a1.a0 = -5.0; |
| a1.a1 = 6.0; |
| a1.a2 = -7.0; |
| a1.a3 = 8.0; |
| a2.a0 = -9.0; |
| a2.a1 = 10.0; |
| a2.a2 = -11.0; |
| a2.a3 = 12.0; |
| a3.a0 = -13.0; |
| a3.a1 = 14.0; |
| a3.a2 = -15.0; |
| a3.a3 = 16.0; |
| a4.a0 = -17.0; |
| a4.a1 = 18.0; |
| a4.a2 = -19.0; |
| a4.a3 = 20.0; |
| |
| final result = passStruct32BytesHomogeneousDoublex5Leaf(a0, a1, a2, a3, a4); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(10.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a4Pointer); |
| } |
| |
| final passStruct40BytesHomogeneousDoubleLeaf = ffiTestFunctions.lookupFunction< |
| Double Function(Struct40BytesHomogeneousDouble), |
| double Function(Struct40BytesHomogeneousDouble)>( |
| "PassStruct40BytesHomogeneousDouble", |
| isLeaf: true); |
| |
| /// Argument too big to go into FPU registers in arm64. |
| void testPassStruct40BytesHomogeneousDoubleLeaf() { |
| final a0Pointer = calloc<Struct40BytesHomogeneousDouble>(); |
| final Struct40BytesHomogeneousDouble a0 = a0Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a0.a3 = 4.0; |
| a0.a4 = -5.0; |
| |
| final result = passStruct40BytesHomogeneousDoubleLeaf(a0); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-3.0, result); |
| |
| calloc.free(a0Pointer); |
| } |
| |
| final passStruct1024BytesHomogeneousUint64Leaf = |
| ffiTestFunctions.lookupFunction< |
| Uint64 Function(Struct1024BytesHomogeneousUint64), |
| int Function(Struct1024BytesHomogeneousUint64)>( |
| "PassStruct1024BytesHomogeneousUint64", |
| isLeaf: true); |
| |
| /// Test 1kb struct. |
| void testPassStruct1024BytesHomogeneousUint64Leaf() { |
| final a0Pointer = calloc<Struct1024BytesHomogeneousUint64>(); |
| final Struct1024BytesHomogeneousUint64 a0 = a0Pointer.ref; |
| |
| a0.a0 = 1; |
| a0.a1 = 2; |
| a0.a2 = 3; |
| a0.a3 = 4; |
| a0.a4 = 5; |
| a0.a5 = 6; |
| a0.a6 = 7; |
| a0.a7 = 8; |
| a0.a8 = 9; |
| a0.a9 = 10; |
| a0.a10 = 11; |
| a0.a11 = 12; |
| a0.a12 = 13; |
| a0.a13 = 14; |
| a0.a14 = 15; |
| a0.a15 = 16; |
| a0.a16 = 17; |
| a0.a17 = 18; |
| a0.a18 = 19; |
| a0.a19 = 20; |
| a0.a20 = 21; |
| a0.a21 = 22; |
| a0.a22 = 23; |
| a0.a23 = 24; |
| a0.a24 = 25; |
| a0.a25 = 26; |
| a0.a26 = 27; |
| a0.a27 = 28; |
| a0.a28 = 29; |
| a0.a29 = 30; |
| a0.a30 = 31; |
| a0.a31 = 32; |
| a0.a32 = 33; |
| a0.a33 = 34; |
| a0.a34 = 35; |
| a0.a35 = 36; |
| a0.a36 = 37; |
| a0.a37 = 38; |
| a0.a38 = 39; |
| a0.a39 = 40; |
| a0.a40 = 41; |
| a0.a41 = 42; |
| a0.a42 = 43; |
| a0.a43 = 44; |
| a0.a44 = 45; |
| a0.a45 = 46; |
| a0.a46 = 47; |
| a0.a47 = 48; |
| a0.a48 = 49; |
| a0.a49 = 50; |
| a0.a50 = 51; |
| a0.a51 = 52; |
| a0.a52 = 53; |
| a0.a53 = 54; |
| a0.a54 = 55; |
| a0.a55 = 56; |
| a0.a56 = 57; |
| a0.a57 = 58; |
| a0.a58 = 59; |
| a0.a59 = 60; |
| a0.a60 = 61; |
| a0.a61 = 62; |
| a0.a62 = 63; |
| a0.a63 = 64; |
| a0.a64 = 65; |
| a0.a65 = 66; |
| a0.a66 = 67; |
| a0.a67 = 68; |
| a0.a68 = 69; |
| a0.a69 = 70; |
| a0.a70 = 71; |
| a0.a71 = 72; |
| a0.a72 = 73; |
| a0.a73 = 74; |
| a0.a74 = 75; |
| a0.a75 = 76; |
| a0.a76 = 77; |
| a0.a77 = 78; |
| a0.a78 = 79; |
| a0.a79 = 80; |
| a0.a80 = 81; |
| a0.a81 = 82; |
| a0.a82 = 83; |
| a0.a83 = 84; |
| a0.a84 = 85; |
| a0.a85 = 86; |
| a0.a86 = 87; |
| a0.a87 = 88; |
| a0.a88 = 89; |
| a0.a89 = 90; |
| a0.a90 = 91; |
| a0.a91 = 92; |
| a0.a92 = 93; |
| a0.a93 = 94; |
| a0.a94 = 95; |
| a0.a95 = 96; |
| a0.a96 = 97; |
| a0.a97 = 98; |
| a0.a98 = 99; |
| a0.a99 = 100; |
| a0.a100 = 101; |
| a0.a101 = 102; |
| a0.a102 = 103; |
| a0.a103 = 104; |
| a0.a104 = 105; |
| a0.a105 = 106; |
| a0.a106 = 107; |
| a0.a107 = 108; |
| a0.a108 = 109; |
| a0.a109 = 110; |
| a0.a110 = 111; |
| a0.a111 = 112; |
| a0.a112 = 113; |
| a0.a113 = 114; |
| a0.a114 = 115; |
| a0.a115 = 116; |
| a0.a116 = 117; |
| a0.a117 = 118; |
| a0.a118 = 119; |
| a0.a119 = 120; |
| a0.a120 = 121; |
| a0.a121 = 122; |
| a0.a122 = 123; |
| a0.a123 = 124; |
| a0.a124 = 125; |
| a0.a125 = 126; |
| a0.a126 = 127; |
| a0.a127 = 128; |
| |
| final result = passStruct1024BytesHomogeneousUint64Leaf(a0); |
| |
| print("result = $result"); |
| |
| Expect.equals(8256, result); |
| |
| calloc.free(a0Pointer); |
| } |
| |
| final passFloatStruct16BytesHomogeneousFloatFloatStruct1Leaf = |
| ffiTestFunctions.lookupFunction< |
| Float Function( |
| Float, |
| Struct16BytesHomogeneousFloat, |
| Float, |
| Struct16BytesHomogeneousFloat, |
| Float, |
| Struct16BytesHomogeneousFloat, |
| Float, |
| Struct16BytesHomogeneousFloat, |
| Float), |
| double Function( |
| double, |
| Struct16BytesHomogeneousFloat, |
| double, |
| Struct16BytesHomogeneousFloat, |
| double, |
| Struct16BytesHomogeneousFloat, |
| double, |
| Struct16BytesHomogeneousFloat, |
| double)>("PassFloatStruct16BytesHomogeneousFloatFloatStruct1", |
| isLeaf: true); |
| |
| /// Tests the alignment of structs in FPU registers and backfilling. |
| void testPassFloatStruct16BytesHomogeneousFloatFloatStruct1Leaf() { |
| double a0; |
| final a1Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a1 = a1Pointer.ref; |
| double a2; |
| final a3Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a3 = a3Pointer.ref; |
| double a4; |
| final a5Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a5 = a5Pointer.ref; |
| double a6; |
| final a7Pointer = calloc<Struct16BytesHomogeneousFloat>(); |
| final Struct16BytesHomogeneousFloat a7 = a7Pointer.ref; |
| double a8; |
| |
| a0 = -1.0; |
| a1.a0 = 2.0; |
| a1.a1 = -3.0; |
| a1.a2 = 4.0; |
| a1.a3 = -5.0; |
| a2 = 6.0; |
| a3.a0 = -7.0; |
| a3.a1 = 8.0; |
| a3.a2 = -9.0; |
| a3.a3 = 10.0; |
| a4 = -11.0; |
| a5.a0 = 12.0; |
| a5.a1 = -13.0; |
| a5.a2 = 14.0; |
| a5.a3 = -15.0; |
| a6 = 16.0; |
| a7.a0 = -17.0; |
| a7.a1 = 18.0; |
| a7.a2 = -19.0; |
| a7.a3 = 20.0; |
| a8 = -21.0; |
| |
| final result = passFloatStruct16BytesHomogeneousFloatFloatStruct1Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-11.0, result); |
| |
| calloc.free(a1Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a7Pointer); |
| } |
| |
| final passFloatStruct32BytesHomogeneousDoubleFloatStructLeaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function( |
| Float, |
| Struct32BytesHomogeneousDouble, |
| Float, |
| Struct32BytesHomogeneousDouble, |
| Float, |
| Struct32BytesHomogeneousDouble, |
| Float, |
| Struct32BytesHomogeneousDouble, |
| Float), |
| double Function( |
| double, |
| Struct32BytesHomogeneousDouble, |
| double, |
| Struct32BytesHomogeneousDouble, |
| double, |
| Struct32BytesHomogeneousDouble, |
| double, |
| Struct32BytesHomogeneousDouble, |
| double)>("PassFloatStruct32BytesHomogeneousDoubleFloatStruct", |
| isLeaf: true); |
| |
| /// Tests the alignment of structs in FPU registers and backfilling. |
| void testPassFloatStruct32BytesHomogeneousDoubleFloatStructLeaf() { |
| double a0; |
| final a1Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a1 = a1Pointer.ref; |
| double a2; |
| final a3Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a3 = a3Pointer.ref; |
| double a4; |
| final a5Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a5 = a5Pointer.ref; |
| double a6; |
| final a7Pointer = calloc<Struct32BytesHomogeneousDouble>(); |
| final Struct32BytesHomogeneousDouble a7 = a7Pointer.ref; |
| double a8; |
| |
| a0 = -1.0; |
| a1.a0 = 2.0; |
| a1.a1 = -3.0; |
| a1.a2 = 4.0; |
| a1.a3 = -5.0; |
| a2 = 6.0; |
| a3.a0 = -7.0; |
| a3.a1 = 8.0; |
| a3.a2 = -9.0; |
| a3.a3 = 10.0; |
| a4 = -11.0; |
| a5.a0 = 12.0; |
| a5.a1 = -13.0; |
| a5.a2 = 14.0; |
| a5.a3 = -15.0; |
| a6 = 16.0; |
| a7.a0 = -17.0; |
| a7.a1 = 18.0; |
| a7.a2 = -19.0; |
| a7.a3 = 20.0; |
| a8 = -21.0; |
| |
| final result = passFloatStruct32BytesHomogeneousDoubleFloatStructLeaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-11.0, result); |
| |
| calloc.free(a1Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a7Pointer); |
| } |
| |
| final passInt8Struct16BytesMixedInt8Struct16BytesMixedInLeaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function(Int8, Struct16BytesMixed, Int8, Struct16BytesMixed, |
| Int8, Struct16BytesMixed, Int8, Struct16BytesMixed, Int8), |
| double Function( |
| int, |
| Struct16BytesMixed, |
| int, |
| Struct16BytesMixed, |
| int, |
| Struct16BytesMixed, |
| int, |
| Struct16BytesMixed, |
| int)>("PassInt8Struct16BytesMixedInt8Struct16BytesMixedIn", |
| isLeaf: true); |
| |
| /// Tests the alignment of structs in integers registers and on the stack. |
| /// Arm32 aligns this struct at 8. |
| /// Also, arm32 allocates the second struct partially in registers, partially |
| /// on stack. |
| /// Test backfilling of integer registers. |
| void testPassInt8Struct16BytesMixedInt8Struct16BytesMixedInLeaf() { |
| int a0; |
| final a1Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a1 = a1Pointer.ref; |
| int a2; |
| final a3Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a3 = a3Pointer.ref; |
| int a4; |
| final a5Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a5 = a5Pointer.ref; |
| int a6; |
| final a7Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a7 = a7Pointer.ref; |
| int a8; |
| |
| a0 = -1; |
| a1.a0 = 2.0; |
| a1.a1 = -3; |
| a2 = 4; |
| a3.a0 = -5.0; |
| a3.a1 = 6; |
| a4 = -7; |
| a5.a0 = 8.0; |
| a5.a1 = -9; |
| a6 = 10; |
| a7.a0 = -11.0; |
| a7.a1 = 12; |
| a8 = -13; |
| |
| final result = passInt8Struct16BytesMixedInt8Struct16BytesMixedInLeaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-7.0, result); |
| |
| calloc.free(a1Pointer); |
| calloc.free(a3Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a7Pointer); |
| } |
| |
| final passDoublex6Struct16BytesMixedx4Int32Leaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function( |
| Double, |
| Double, |
| Double, |
| Double, |
| Double, |
| Double, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Int32), |
| double Function( |
| double, |
| double, |
| double, |
| double, |
| double, |
| double, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| int)>("PassDoublex6Struct16BytesMixedx4Int32", isLeaf: true); |
| |
| /// On Linux x64, it will exhaust xmm registers first, after 6 doubles and 2 |
| /// structs. The rest of the structs will go on the stack. |
| /// The int will be backfilled into the int register. |
| void testPassDoublex6Struct16BytesMixedx4Int32Leaf() { |
| double a0; |
| double a1; |
| double a2; |
| double a3; |
| double a4; |
| double a5; |
| final a6Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a7 = a7Pointer.ref; |
| final a8Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a8 = a8Pointer.ref; |
| final a9Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a9 = a9Pointer.ref; |
| int a10; |
| |
| a0 = -1.0; |
| a1 = 2.0; |
| a2 = -3.0; |
| a3 = 4.0; |
| a4 = -5.0; |
| a5 = 6.0; |
| a6.a0 = -7.0; |
| a6.a1 = 8; |
| a7.a0 = -9.0; |
| a7.a1 = 10; |
| a8.a0 = -11.0; |
| a8.a1 = 12; |
| a9.a0 = -13.0; |
| a9.a1 = 14; |
| a10 = -15; |
| |
| final result = passDoublex6Struct16BytesMixedx4Int32Leaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8, a9, a10); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-8.0, result); |
| |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| calloc.free(a8Pointer); |
| calloc.free(a9Pointer); |
| } |
| |
| final passInt32x4Struct16BytesMixedx4DoubleLeaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function(Int32, Int32, Int32, Int32, Struct16BytesMixed, |
| Struct16BytesMixed, Struct16BytesMixed, Struct16BytesMixed, Double), |
| double Function( |
| int, |
| int, |
| int, |
| int, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| Struct16BytesMixed, |
| double)>("PassInt32x4Struct16BytesMixedx4Double", isLeaf: true); |
| |
| /// On Linux x64, it will exhaust int registers first. |
| /// The rest of the structs will go on the stack. |
| /// The double will be backfilled into the xmm register. |
| void testPassInt32x4Struct16BytesMixedx4DoubleLeaf() { |
| int a0; |
| int a1; |
| int a2; |
| int a3; |
| final a4Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a4 = a4Pointer.ref; |
| final a5Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a5 = a5Pointer.ref; |
| final a6Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a6 = a6Pointer.ref; |
| final a7Pointer = calloc<Struct16BytesMixed>(); |
| final Struct16BytesMixed a7 = a7Pointer.ref; |
| double a8; |
| |
| a0 = -1; |
| a1 = 2; |
| a2 = -3; |
| a3 = 4; |
| a4.a0 = -5.0; |
| a4.a1 = 6; |
| a5.a0 = -7.0; |
| a5.a1 = 8; |
| a6.a0 = -9.0; |
| a6.a1 = 10; |
| a7.a0 = -11.0; |
| a7.a1 = 12; |
| a8 = -13.0; |
| |
| final result = passInt32x4Struct16BytesMixedx4DoubleLeaf( |
| a0, a1, a2, a3, a4, a5, a6, a7, a8); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-7.0, result); |
| |
| calloc.free(a4Pointer); |
| calloc.free(a5Pointer); |
| calloc.free(a6Pointer); |
| calloc.free(a7Pointer); |
| } |
| |
| final passStruct40BytesHomogeneousDoubleStruct4BytesHomoLeaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function(Struct40BytesHomogeneousDouble, |
| Struct4BytesHomogeneousInt16, Struct8BytesHomogeneousFloat), |
| double Function(Struct40BytesHomogeneousDouble, |
| Struct4BytesHomogeneousInt16, Struct8BytesHomogeneousFloat)>( |
| "PassStruct40BytesHomogeneousDoubleStruct4BytesHomo", |
| isLeaf: true); |
| |
| /// On various architectures, first struct is allocated on stack. |
| /// Check that the other two arguments are allocated on registers. |
| void testPassStruct40BytesHomogeneousDoubleStruct4BytesHomoLeaf() { |
| final a0Pointer = calloc<Struct40BytesHomogeneousDouble>(); |
| final Struct40BytesHomogeneousDouble a0 = a0Pointer.ref; |
| final a1Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a1 = a1Pointer.ref; |
| final a2Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a2 = a2Pointer.ref; |
| |
| a0.a0 = -1.0; |
| a0.a1 = 2.0; |
| a0.a2 = -3.0; |
| a0.a3 = 4.0; |
| a0.a4 = -5.0; |
| a1.a0 = 6; |
| a1.a1 = -7; |
| a2.a0 = 8.0; |
| a2.a1 = -9.0; |
| |
| final result = |
| passStruct40BytesHomogeneousDoubleStruct4BytesHomoLeaf(a0, a1, a2); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(-5.0, result); |
| |
| calloc.free(a0Pointer); |
| calloc.free(a1Pointer); |
| calloc.free(a2Pointer); |
| } |
| |
| final passInt32x8Doublex8Int64Int8Struct1ByteIntInt64IntLeaf = |
| ffiTestFunctions.lookupFunction< |
| Double Function( |
| Int32, |
| Int32, |
| Int32, |
| Int32, |
| Int32, |
| Int32, |
| Int32, |
| Int32, |
| Double, |
| Double, |
| Double, |
| Double, |
| Double, |
| Double, |
| Double, |
| Double, |
| Int64, |
| Int8, |
| Struct1ByteInt, |
| Int64, |
| Int8, |
| Struct4BytesHomogeneousInt16, |
| Int64, |
| Int8, |
| Struct8BytesInt, |
| Int64, |
| Int8, |
| Struct8BytesHomogeneousFloat, |
| Int64, |
| Int8, |
| Struct8BytesMixed, |
| Int64, |
| Int8, |
| StructAlignmentInt16, |
| Int64, |
| Int8, |
| StructAlignmentInt32, |
| Int64, |
| Int8, |
| StructAlignmentInt64), |
| double Function( |
| int, |
| int, |
| int, |
| int, |
| int, |
| int, |
| int, |
| int, |
| double, |
| double, |
| double, |
| double, |
| double, |
| double, |
| double, |
| double, |
| int, |
| int, |
| Struct1ByteInt, |
| int, |
| int, |
| Struct4BytesHomogeneousInt16, |
| int, |
| int, |
| Struct8BytesInt, |
| int, |
| int, |
| Struct8BytesHomogeneousFloat, |
| int, |
| int, |
| Struct8BytesMixed, |
| int, |
| int, |
| StructAlignmentInt16, |
| int, |
| int, |
| StructAlignmentInt32, |
| int, |
| int, |
| StructAlignmentInt64)>("PassInt32x8Doublex8Int64Int8Struct1ByteIntInt64Int", isLeaf: true); |
| |
| /// Test alignment and padding of 16 byte int within struct. |
| void testPassInt32x8Doublex8Int64Int8Struct1ByteIntInt64IntLeaf() { |
| int a0; |
| int a1; |
| int a2; |
| int a3; |
| int a4; |
| int a5; |
| int a6; |
| int a7; |
| double a8; |
| double a9; |
| double a10; |
| double a11; |
| double a12; |
| double a13; |
| double a14; |
| double a15; |
| int a16; |
| int a17; |
| final a18Pointer = calloc<Struct1ByteInt>(); |
| final Struct1ByteInt a18 = a18Pointer.ref; |
| int a19; |
| int a20; |
| final a21Pointer = calloc<Struct4BytesHomogeneousInt16>(); |
| final Struct4BytesHomogeneousInt16 a21 = a21Pointer.ref; |
| int a22; |
| int a23; |
| final a24Pointer = calloc<Struct8BytesInt>(); |
| final Struct8BytesInt a24 = a24Pointer.ref; |
| int a25; |
| int a26; |
| final a27Pointer = calloc<Struct8BytesHomogeneousFloat>(); |
| final Struct8BytesHomogeneousFloat a27 = a27Pointer.ref; |
| int a28; |
| int a29; |
| final a30Pointer = calloc<Struct8BytesMixed>(); |
| final Struct8BytesMixed a30 = a30Pointer.ref; |
| int a31; |
| int a32; |
| final a33Pointer = calloc<StructAlignmentInt16>(); |
| final StructAlignmentInt16 a33 = a33Pointer.ref; |
| int a34; |
| int a35; |
| final a36Pointer = calloc<StructAlignmentInt32>(); |
| final StructAlignmentInt32 a36 = a36Pointer.ref; |
| int a37; |
| int a38; |
| final a39Pointer = calloc<StructAlignmentInt64>(); |
| final StructAlignmentInt64 a39 = a39Pointer.ref; |
| |
| a0 = -1; |
| a1 = 2; |
| a2 = -3; |
| a3 = 4; |
| a4 = -5; |
| a5 = 6; |
| a6 = -7; |
| a7 = 8; |
| a8 = -9.0; |
| a9 = 10.0; |
| a10 = -11.0; |
| a11 = 12.0; |
| a12 = -13.0; |
| a13 = 14.0; |
| a14 = -15.0; |
| a15 = 16.0; |
| a16 = -17; |
| a17 = 18; |
| a18.a0 = -19; |
| a19 = 20; |
| a20 = -21; |
| a21.a0 = 22; |
| a21.a1 = -23; |
| a22 = 24; |
| a23 = -25; |
| a24.a0 = 26; |
| a24.a1 = -27; |
| a24.a2 = 28; |
| a25 = -29; |
| a26 = 30; |
| a27.a0 = -31.0; |
| a27.a1 = 32.0; |
| a28 = -33; |
| a29 = 34; |
| a30.a0 = -35.0; |
| a30.a1 = 36; |
| a30.a2 = -37; |
| a31 = 38; |
| a32 = -39; |
| a33.a0 = 40; |
| a33.a1 = -41; |
| a33.a2 = 42; |
| a34 = -43; |
| a35 = 44; |
| a36.a0 = -45; |
| a36.a1 = 46; |
| a36.a2 = -47; |
| a37 = 48; |
| a38 = -49; |
| a39.a0 = 50; |
| a39.a1 = -51; |
| a39.a2 = 52; |
| |
| final result = passInt32x8Doublex8Int64Int8Struct1ByteIntInt64IntLeaf( |
| a0, |
| a1, |
| a2, |
| a3, |
| a4, |
| a5, |
| a6, |
| a7, |
| a8, |
| a9, |
| a10, |
| a11, |
| a12, |
| a13, |
| a14, |
| a15, |
| a16, |
| a17, |
| a18, |
| a19, |
| a20, |
| a21, |
| a22, |
| a23, |
| a24, |
| a25, |
| a26, |
| a27, |
| a28, |
| a29, |
| a30, |
| a31, |
| a32, |
| a33, |
| a34, |
| a35, |
| a36, |
| a37, |
| a38, |
| a39); |
| |
| print("result = $result"); |
| |
| Expect.approxEquals(26.0, result); |
| |
| calloc.free(a18Pointer); |
| calloc.free(a21Pointer); |
| calloc.free(a24Pointer); |
| calloc.free(a27Pointer); |
| calloc.free(a30Pointer); |
| calloc.free(a33Pointer); |
| calloc.free(a36Pointer); |
| calloc.free(a39Pointer); |
| } |
| |
| final passStructAlignmentInt16Leaf = ffiTestFunctions.lookupFunction< |
| Int64 Function(StructAlignmentInt16), |
| int Function( |
| StructAlignmentInt16)>("PassStructAlignmentInt16", isLeaf: true); |
| |
| /// Test alignment and padding of 16 byte int within struct. |
| void testPassStructAlignmentInt16Leaf() { |
| final a0Pointer = calloc<StructAlignmentInt16>(); |
| final StructAlignmentInt16 a0 = a0Pointer.ref; |
| |
| a0.a0 = -1; |
|
|