/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include namespace { #if defined( SAL_W32) #pragma pack(push, 8) #endif struct C1 { sal_Int16 n1; }; struct C2 : public C1 { sal_Int32 n2 CPPU_GCC3_ALIGN( C1 ); }; struct C3 : public C2 { double d3; sal_Int32 n3; }; struct C4 : public C3 { sal_Int32 n4 CPPU_GCC3_ALIGN( C3 ); double d4; }; struct C5 : public C4 { sal_Int64 n5; sal_Bool b5; }; struct C6 : public C1 { C5 c6 CPPU_GCC3_ALIGN( C1 ); sal_Bool b6; }; struct D { sal_Int16 d; sal_Int32 e; }; struct E { sal_Bool a; sal_Bool b; sal_Bool c; sal_Int16 d; sal_Int32 e; }; struct M { sal_Int32 n; sal_Int16 o; }; struct N : public M { sal_Int16 p CPPU_GCC3_ALIGN( M ); }; struct N2 { M m; sal_Int16 p; }; struct O : public M { double p; sal_Int16 q; }; struct O2 : public O { sal_Int16 p2 CPPU_GCC3_ALIGN( O ); }; struct P : public N { double p2; }; struct empty { }; struct second : public empty { int a; }; struct AlignSize_Impl { sal_Int16 nInt16; double dDouble; }; struct Char1 { char c1; }; struct Char2 : public Char1 { char c2 CPPU_GCC3_ALIGN( Char1 ); }; struct Char3 : public Char2 { char c3 CPPU_GCC3_ALIGN( Char2 ); }; struct Char4 { Char3 chars; char c; }; enum Enum { v = SAL_MAX_ENUM }; #ifdef SAL_W32 # pragma pack(pop) #endif static_assert( static_cast(true) == sal_True, "must be binary compatible" ); static_assert( static_cast(false) == sal_False, "must be binary compatible" ); #if SAL_TYPES_ALIGNMENT8 == 2 static_assert(offsetof(AlignSize_Impl, dDouble) == 2, "offsetof(AlignSize_Impl, dDouble) != 2"); static_assert(sizeof(AlignSize_Impl) == 12, "sizeof(AlignSize_Impl) != 12"); #elif SAL_TYPES_ALIGNMENT8 == 4 static_assert(offsetof(AlignSize_Impl, dDouble) == 4, "offsetof(AlignSize_Impl, dDouble) != 4"); static_assert(sizeof(AlignSize_Impl) == 12, "sizeof(AlignSize_Impl) != 12"); #elif SAL_TYPES_ALIGNMENT8 == 8 static_assert(offsetof(AlignSize_Impl, dDouble) == 8, "offsetof(AlignSize_Impl, dDouble) != 8"); static_assert(sizeof(AlignSize_Impl) == 16, "sizeof(AlignSize_Impl) != 16"); #else # error unexpected alignment of 8 byte types #endif // sequence static_assert((SAL_SEQUENCE_HEADER_SIZE % 8) == 0, "binary compatibility test failed: (SAL_SEQUENCE_HEADER_SIZE % 8) == 0!!!"); // enum static_assert(sizeof(Enum) == sizeof(sal_Int32), "binary compatibility test failed: (sizeof(Enum) == sizeof(sal_Int32))"); // any static_assert(sizeof(void *) >= sizeof(sal_Int32), "binary compatibility test failed: (sizeof(void *) >= sizeof(sal_Int32))"); static_assert(sizeof(uno_Any) == sizeof(void *) * 3, "binary compatibility test failed: (sizeof(uno_Any) == sizeof(void *) * 3"); static_assert(offsetof(uno_Any, pType) == 0, "offsetof(uno_Any, pType) != 0"); static_assert(offsetof(uno_Any, pData) == 1 * sizeof(void *), "offsetof(uno_Any, pTData) != (1 * sizeof(void *))"); static_assert(offsetof(uno_Any, pReserved) == 2 * sizeof(void *), "offsetof(uno_Any, pReserved) != (2 * sizeof(void *))"); // string static_assert(sizeof(OUString) == sizeof(rtl_uString *), "binary compatibility test failed: sizeof(OUString) != sizeof(rtl_uString *)"); // struct static_assert(sizeof(M) == 8, "sizeof(M) != 8"); static_assert(offsetof(M, o) == 4, "offsetof(M, o) != 4"); static_assert(sizeof(N) == 12, "sizeof(N) != 12"); static_assert(sizeof(N2) == 12, "sizeof(N2) != 12"); static_assert(offsetof(N2, p) == 8, "offsetof(N2, p) != 8"); #if SAL_TYPES_ALIGNMENT8 == 2 static_assert(sizeof(O) == 16, "sizeof(O) != 16"); #elif SAL_TYPES_ALIGNMENT8 == 4 static_assert(sizeof(O) == 20, "sizeof(O) != 20"); #elif SAL_TYPES_ALIGNMENT8 == 8 static_assert(sizeof(O) == 24, "sizeof(O) != 24"); #else # error unexpected alignment of 8 byte types #endif static_assert(sizeof(D) == 8, "sizeof(D) != 8"); static_assert(offsetof(D, e) == 4, "offsetof(D, e) != 4"); static_assert(offsetof(E, d) == 4, "offsetof(E, d) != 4"); static_assert(offsetof(E, e) == 8, "offsetof(E, e) != 8"); static_assert(sizeof(C1) == 2, "sizeof(C1) != 2"); static_assert(sizeof(C2) == 8, "sizeof(C2) != 8"); #if SAL_TYPES_ALIGNMENT8 == 2 static_assert(sizeof(C3) == 18, "sizeof(C3) != 18"); static_assert(sizeof(C4) == 30, "sizeof(C4) != 30"); static_assert(sizeof(C5) == 40, "sizeof(C5) != 40"); static_assert(sizeof(C6) == 44, "sizeof(C6) != 44"); static_assert(sizeof(O2) == 18, "sizeof(O2) != 18"); #elif SAL_TYPES_ALIGNMENT8 == 4 static_assert(sizeof(C3) == 20, "sizeof(C3) != 20"); static_assert(sizeof(C4) == 32, "sizeof(C4) != 32"); static_assert(sizeof(C5) == 44, "sizeof(C5) != 44"); static_assert(sizeof(C6) == 52, "sizeof(C6) != 52"); static_assert(sizeof(O2) == 24, "sizeof(O2) != 24"); #elif SAL_TYPES_ALIGNMENT8 == 8 static_assert(sizeof(C3) == 24, "sizeof(C3) != 24"); static_assert(sizeof(C4) == 40, "sizeof(C4) != 40"); static_assert(sizeof(C5) == 56, "sizeof(C5) != 56"); static_assert(sizeof(C6) == 72, "sizeof(C6) != 72"); static_assert(sizeof(O2) == 32, "sizeof(O2) != 32"); #else # error unexpected alignment of 8 byte types #endif static_assert(sizeof(Char3) == 3, "sizeof(Char3) != 3"); #if SAL_TYPES_ALIGNMENT8 == 2 // max alignment is 2 static_assert(sizeof(P) == 16, "sizeof(P) != 16"); #elif SAL_TYPES_ALIGNMENT8 == 4 // max alignment is 4 static_assert(sizeof(P) == 20, "sizeof(P) != 20"); #elif SAL_TYPES_ALIGNMENT8 == 8 // alignment of P is 8, because of P[] ... static_assert(sizeof(P) == 24, "sizeof(P) != 24"); static_assert(sizeof(second) == sizeof(int), "sizeof(second) != sizeof(int)"); #else # error unexpected alignment of 8 byte types #endif #if OSL_DEBUG_LEVEL > 0 #define OFFSET_OF( s, m ) reinterpret_cast< size_t >(reinterpret_cast(&reinterpret_cast(16)->m) -16) class BinaryCompatible_Impl { public: BinaryCompatible_Impl(); }; BinaryCompatible_Impl::BinaryCompatible_Impl() { assert(OFFSET_OF(N, p) == 8); assert(OFFSET_OF(C2, n2) == 4); #if SAL_TYPES_ALIGNMENT8 == 2 assert(OFFSET_OF(C3, d3) == 6); assert(OFFSET_OF(C3, n3) == 14); assert(OFFSET_OF(C4, n4) == 18); assert(OFFSET_OF(C4, d4) == 22); assert(OFFSET_OF(C5, n5) == 30); assert(OFFSET_OF(C5, b5) == 38); assert(OFFSET_OF(C6, c6) == 2); assert(OFFSET_OF(C6, b6) == 42); assert(OFFSET_OF(O2, p2) == 16); #elif SAL_TYPES_ALIGNMENT8 == 4 assert(OFFSET_OF(C3, d3) == 8); assert(OFFSET_OF(C3, n3) == 16); assert(OFFSET_OF(C4, n4) == 20); assert(OFFSET_OF(C4, d4) == 24); assert(OFFSET_OF(C5, n5) == 32); assert(OFFSET_OF(C5, b5) == 40); assert(OFFSET_OF(C6, c6) == 4); assert(OFFSET_OF(C6, b6) == 48); assert(OFFSET_OF(O2, p2) == 20); #elif SAL_TYPES_ALIGNMENT8 == 8 assert(OFFSET_OF(C3, d3) == 8); assert(OFFSET_OF(C3, n3) == 16); assert(OFFSET_OF(C4, n4) == 24); assert(OFFSET_OF(C4, d4) == 32); assert(OFFSET_OF(C5, n5) == 40); assert(OFFSET_OF(C5, b5) == 48); assert(OFFSET_OF(C6, c6) == 8); assert(OFFSET_OF(C6, b6) == 64); assert(OFFSET_OF(O2, p2) == 24); #else # error unexpected alignment of 8 byte types #endif assert(OFFSET_OF(Char4, c) == 3); } static BinaryCompatible_Impl aTest; #endif } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */