/* $Id: tstVector.cpp 37829 2011-07-08 08:35:47Z vboxsync $ */ /** @file * IPRT Testcase - Vector container structure. */ /* * Copyright (C) 2011 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /******************************************************************************* * Header Files * *******************************************************************************/ #include #include #include /* For realloc */ /** Counter of the number of delete calls made so far */ static unsigned s_cDeleteCalls = 0; /** Record the argument of the delete function here. */ static void *s_apvDeleteArg[10]; /** Dummy delete function for vector-of-void pointer elements */ static void deletePVoid(void **ppv) { if (s_cDeleteCalls < RT_ELEMENTS(s_apvDeleteArg)) s_apvDeleteArg[s_cDeleteCalls] = *ppv; ++s_cDeleteCalls; } /** Dummy delete by value function for vector-of-void pointer elements */ static void deletePVoidValue(void *pv) { if (s_cDeleteCalls < RT_ELEMENTS(s_apvDeleteArg)) s_apvDeleteArg[s_cDeleteCalls] = pv; ++s_cDeleteCalls; } /* Start by instantiating each function once for syntax checking */ RTVEC_DECL_STRUCT(tstInstance, void *) RTVEC_DECL_STRUCT(tstInstance2, void *) RTVEC_DECLFN_DELETE_ADAPTER_ID(tstInstance, void *) RTVEC_DECLFN_DELETE_ADAPTER_TO_VALUE(tstInstance, void *) RTVEC_DECLFN_SIZE(tstInstance, void *) RTVEC_DECLFN_RESERVE(tstInstance, void *, rtvecReallocDefTag) RTVEC_DECLFN_BEGIN(tstInstance, void *) RTVEC_DECLFN_END(tstInstance, void *) RTVEC_DECLFN_PUSHBACK(tstInstance, void *) RTVEC_DECLFN_POPBACK(tstInstance) RTVEC_DECLFN_POPBACK_DELETE(tstInstance2, void *, deletePVoid, tstInstanceDeleteAdapterId) RTVEC_DECLFN_CLEAR(tstInstance) RTVEC_DECLFN_CLEAR_DELETE(tstInstance2, deletePVoid, tstInstanceDeleteAdapterId) RTVEC_DECLFN_DETACH(tstInstance, void *) RTVEC_DECL(tstSimple, void *) static void testVectorSimple(RTTEST hTest) { RTTestISub("Vector structure, no cleanup callback"); struct tstSimple myVec = RTVEC_INITIALIZER; void **ppvVal; RTTESTI_CHECK(tstSimpleSize(&myVec) == 0); ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ RTTESTI_CHECK(ppvVal == tstSimpleBegin(&myVec)); RTTESTI_CHECK(ppvVal + 1 == tstSimpleEnd(&myVec)); RTTESTI_CHECK(tstSimpleSize(&myVec) == 1); *ppvVal = (void *)1; ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ RTTESTI_CHECK(ppvVal - 1 == tstSimpleBegin(&myVec)); RTTESTI_CHECK(ppvVal + 1 == tstSimpleEnd(&myVec)); RTTESTI_CHECK(tstSimpleSize(&myVec) == 2); RTTESTI_CHECK(ppvVal[-1] == (void *)1); *ppvVal = (void *)3; ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ RTTESTI_CHECK(ppvVal - 2 == tstSimpleBegin(&myVec)); RTTESTI_CHECK(ppvVal + 1 == tstSimpleEnd(&myVec)); RTTESTI_CHECK(tstSimpleSize(&myVec) == 3); RTTESTI_CHECK(ppvVal[-2] == (void *)1); RTTESTI_CHECK(ppvVal[-1] == (void *)3); tstSimplePopBack(&myVec); RTTESTI_CHECK(tstSimpleBegin(&myVec) + 2 == tstSimpleEnd(&myVec)); RTTESTI_CHECK(*tstSimpleBegin(&myVec) == (void *)1); RTTESTI_CHECK(*(tstSimpleEnd(&myVec) - 1) == (void *)3); tstSimpleClear(&myVec); RTTESTI_CHECK(tstSimpleBegin(&myVec) == tstSimpleEnd(&myVec)); ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ RTTESTI_CHECK(ppvVal == tstSimpleBegin(&myVec)); RTTESTI_CHECK(ppvVal + 1 == tstSimpleEnd(&myVec)); tstSimpleClear(&myVec); ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)1; ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)3; ppvVal = tstSimplePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)2; ppvVal = tstSimpleDetach(&myVec); RTTESTI_CHECK(tstSimpleBegin(&myVec) == NULL); RTTESTI_CHECK(tstSimpleSize(&myVec) == 0); RTTESTI_CHECK(ppvVal[0] == (void *)1); RTTESTI_CHECK(ppvVal[1] == (void *)3); RTTESTI_CHECK(ppvVal[2] == (void *)2); } RTVEC_DECL_DELETE(tstDelete, void *, deletePVoid) static void testVectorDelete(RTTEST hTest) { RTTestISub("Vector structure with cleanup by pointer callback"); struct tstDelete myVec = RTVEC_INITIALIZER; void **ppvVal; ppvVal = tstDeletePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)1; ppvVal = tstDeletePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)3; ppvVal = tstDeletePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)2; s_cDeleteCalls = 0; tstDeletePopBack(&myVec); RTTESTI_CHECK(s_cDeleteCalls == 1); RTTESTI_CHECK(s_apvDeleteArg[0] == (void *)2); RTTESTI_CHECK(tstDeleteBegin(&myVec) + 2 == tstDeleteEnd(&myVec)); RTTESTI_CHECK(*tstDeleteBegin(&myVec) == (void *)1); RTTESTI_CHECK(*(tstDeleteEnd(&myVec) - 1) == (void *)3); s_cDeleteCalls = 0; tstDeleteClear(&myVec); RTTESTI_CHECK(s_cDeleteCalls == 2); RTTESTI_CHECK(s_apvDeleteArg[0] == (void *)1); RTTESTI_CHECK(s_apvDeleteArg[1] == (void *)3); RTTESTI_CHECK(tstDeleteBegin(&myVec) == tstDeleteEnd(&myVec)); ppvVal = tstDeletePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ RTTESTI_CHECK(ppvVal == tstDeleteBegin(&myVec)); RTTESTI_CHECK(ppvVal + 1 == tstDeleteEnd(&myVec)); } RTVEC_DECL_DELETE_BY_VALUE(tstDeleteValue, void *, deletePVoidValue) static void testVectorDeleteValue(RTTEST hTest) { RTTestISub("Vector structure with cleanup by value callback"); struct tstDeleteValue myVec = RTVEC_INITIALIZER; void **ppvVal; ppvVal = tstDeleteValuePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)1; ppvVal = tstDeleteValuePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)3; ppvVal = tstDeleteValuePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ *ppvVal = (void *)2; s_cDeleteCalls = 0; tstDeleteValuePopBack(&myVec); RTTESTI_CHECK(s_cDeleteCalls == 1); RTTESTI_CHECK(s_apvDeleteArg[0] == (void *)2); RTTESTI_CHECK( tstDeleteValueBegin(&myVec) + 2 == tstDeleteValueEnd(&myVec)); RTTESTI_CHECK(*tstDeleteValueBegin(&myVec) == (void *)1); RTTESTI_CHECK(*(tstDeleteValueEnd(&myVec) - 1) == (void *)3); s_cDeleteCalls = 0; tstDeleteValueClear(&myVec); RTTESTI_CHECK(s_cDeleteCalls == 2); RTTESTI_CHECK(s_apvDeleteArg[0] == (void *)1); RTTESTI_CHECK(s_apvDeleteArg[1] == (void *)3); RTTESTI_CHECK(tstDeleteValueBegin(&myVec) == tstDeleteValueEnd(&myVec)); ppvVal = tstDeleteValuePushBack(&myVec); /* AssertPtrReturnVoid(ppvVal); */ RTTESTI_CHECK(ppvVal == tstDeleteValueBegin(&myVec)); RTTESTI_CHECK(ppvVal + 1 == tstDeleteValueEnd(&myVec)); } int main() { RTTEST hTest; RTEXITCODE rcExit = RTTestInitAndCreate("tstVector", &hTest); if (rcExit != RTEXITCODE_SUCCESS) return rcExit; testVectorSimple(hTest); testVectorDelete(hTest); testVectorDeleteValue(hTest); return RTTestSummaryAndDestroy(hTest); }