Symaptic: os/kernelhwsrv/kerneltest/e32test/system/t

sl@0	1	// Copyright (c) 1995-2009 Nokia Corporation and/or its subsidiary(-ies).
sl@0	2	// All rights reserved.
sl@0	3	// This component and the accompanying materials are made available
sl@0	4	// under the terms of the License "Eclipse Public License v1.0"
sl@0	5	// which accompanies this distribution, and is available
sl@0	6	// at the URL "http://www.eclipse.org/legal/epl-v10.html".
sl@0	7	//
sl@0	8	// Initial Contributors:
sl@0	9	// Nokia Corporation - initial contribution.
sl@0	10	//
sl@0	11	// Contributors:
sl@0	12	//
sl@0	13	// Description:
sl@0	14	// e32test\system\t_ref.cpp
sl@0	15	// Overview:
sl@0	16	// Test the methods of the RRef class.
sl@0	17	// API Information:
sl@0	18	// RRef
sl@0	19	// Details:
sl@0	20	// - Check for the existence of all RRef methods.
sl@0	21	// - Test and verify the results of the RRef constructors.
sl@0	22	// - Test and verify the results of the RRef assignment methods.
sl@0	23	// - Test and verify the results of the RRef smart pointer methods.
sl@0	24	// - Attempt to allocate all available heap space, verify that it
sl@0	25	// cause a leave.
sl@0	26	// - Test and verify the results of the RRef allocation methods.
sl@0	27	// Platforms/Drives/Compatibility:
sl@0	28	// All.
sl@0	29	// Assumptions/Requirement/Pre-requisites:
sl@0	30	// Failures and causes:
sl@0	31	// Base Port information:
sl@0	32	//
sl@0	33	//
sl@0	34
sl@0	35	#include <e32test.h>
sl@0	36
sl@0	37	LOCAL_D RTest test(_L("T_REF"));
sl@0	38
sl@0	39	struct SObj
sl@0	40	{
sl@0	41	TInt iInt;
sl@0	42	TBuf<0x100> aBuf;
sl@0	43	};
sl@0	44
sl@0	45	void Test1()
sl@0	46	// All methods
sl@0	47	{
sl@0	48
sl@0	49	__UHEAP_MARK;
sl@0	50	SObj anObj;
sl@0	51	anObj.iInt=10;
sl@0	52	anObj.aBuf=_L("Hello World");
sl@0	53	RRef<SObj> aRef1;
sl@0	54	aRef1.Alloc(anObj);
sl@0	55	RRef<SObj> aRef2(aRef1);
sl@0	56	aRef2=aRef1;
sl@0	57	aRef2.AllocL(anObj);
sl@0	58	test(aRef1->iInt==10);
sl@0	59	test(((SObj*)aRef1)->aBuf==_L("Hello World"));
sl@0	60	aRef1.Free();
sl@0	61	aRef2.Free();
sl@0	62	__UHEAP_MARKEND;
sl@0	63	}
sl@0	64
sl@0	65	void Test2()
sl@0	66	// Constructors
sl@0	67	{
sl@0	68	__UHEAP_MARK;
sl@0	69	__UHEAP_MARK;
sl@0	70	SObj anObj;
sl@0	71	anObj.iInt=10;
sl@0	72	anObj.aBuf=_L("Hello World");
sl@0	73	RRef<SObj> aRef1;
sl@0	74	aRef1.Alloc(anObj);
sl@0	75	RRef<SObj> aRef2(aRef1);
sl@0	76	test(aRef1->iInt==10);
sl@0	77	test(aRef1->aBuf==_L("Hello World"));
sl@0	78	test(aRef2->iInt==10);
sl@0	79	test(aRef2->aBuf==_L("Hello World"));
sl@0	80	aRef1.Free();
sl@0	81	__UHEAP_MARKENDC(1);
sl@0	82	aRef2.Free();
sl@0	83	__UHEAP_MARKEND;
sl@0	84	}
sl@0	85
sl@0	86	void Test3()
sl@0	87	// Assignment methods
sl@0	88	{
sl@0	89	__UHEAP_MARK;
sl@0	90	__UHEAP_MARK;
sl@0	91	SObj anObj;
sl@0	92	anObj.iInt=10;
sl@0	93	anObj.aBuf=_L("Hello World");
sl@0	94	RRef<SObj> aRef1;
sl@0	95	RRef<SObj> aRef2;
sl@0	96	aRef1.Alloc(anObj);
sl@0	97	aRef2=aRef1;
sl@0	98	test(aRef1->iInt==10);
sl@0	99	test(aRef1->aBuf==_L("Hello World"));
sl@0	100	test(aRef2->iInt==10);
sl@0	101	test(aRef2->aBuf==_L("Hello World"));
sl@0	102	aRef1.Free();
sl@0	103	__UHEAP_MARKENDC(1);
sl@0	104	aRef2.Free();
sl@0	105	__UHEAP_MARKEND;
sl@0	106	}
sl@0	107
sl@0	108	void Test4()
sl@0	109	// Smart Pointer methods
sl@0	110	{
sl@0	111	SObj anObj;
sl@0	112	anObj.iInt=10;
sl@0	113	anObj.aBuf=_L("Hello World");
sl@0	114	RRef<SObj> aRef1;
sl@0	115	aRef1.Alloc(anObj);
sl@0	116	test(aRef1->iInt==10);
sl@0	117	test(aRef1->aBuf==_L("Hello World"));
sl@0	118	SObj* pObj=(SObj*)aRef1;
sl@0	119	test(pObj->iInt==10);
sl@0	120	test(pObj->aBuf==_L("Hello World"));
sl@0	121	}
sl@0	122
sl@0	123	void allocAllL(TInt*& aPtr,RRef<SObj>& aRef1,SObj& anObj)
sl@0	124	//
sl@0	125	// Alloc all and cause leave.
sl@0	126	//
sl@0	127	{
sl@0	128
sl@0	129	TInt temp;
sl@0	130	TInt avail=User::Available(temp);
sl@0	131	aPtr=(TInt*)User::AllocL(avail);
sl@0	132	aRef1.AllocL(anObj);
sl@0	133
sl@0	134	/*
sl@0	135
sl@0	136	Reinstate if some method is found of forcing alloc fail
sl@0	137	This test no longer works due to heap growing functionality of E32 057
sl@0	138
sl@0	139	... so leave with KErrNoMemory to simulate alloc failure
sl@0	140	*/
sl@0	141	User::Leave(KErrNoMemory);
sl@0	142	}
sl@0	143
sl@0	144	void Test5()
sl@0	145	//
sl@0	146	// Allocation methods
sl@0	147	//
sl@0	148	{
sl@0	149
sl@0	150	__UHEAP_MARK;
sl@0	151	SObj anObj;
sl@0	152	anObj.iInt=10;
sl@0	153	anObj.aBuf=_L("Hello World");
sl@0	154	RRef<SObj> aRef1;
sl@0	155	aRef1.Alloc(anObj);
sl@0	156	test(aRef1->iInt==10);
sl@0	157	test(aRef1->aBuf==_L("Hello World"));
sl@0	158	aRef1.Alloc(anObj,sizeof(SObj)-245*sizeof(TText));
sl@0	159	test(aRef1->iInt==10);
sl@0	160	test(aRef1->aBuf==_L("Hello World"));
sl@0	161	aRef1.AllocL(anObj);
sl@0	162	test(aRef1->iInt==10);
sl@0	163	test(aRef1->aBuf==_L("Hello World"));
sl@0	164	aRef1.AllocL(anObj,sizeof(SObj)-245*sizeof(TText));
sl@0	165	test(aRef1->iInt==10);
sl@0	166	test(aRef1->aBuf==_L("Hello World"));
sl@0	167	TInt* p=0;
sl@0	168	TRAPD(ret,allocAllL(p,aRef1,anObj))
sl@0	169	test(ret==KErrNoMemory);
sl@0	170	User::Free(p);
sl@0	171	aRef1.AllocL(anObj);
sl@0	172	test(aRef1->iInt==10);
sl@0	173	test(aRef1->aBuf==_L("Hello World"));
sl@0	174	aRef1.Free();
sl@0	175	__UHEAP_MARKEND;
sl@0	176	}
sl@0	177
sl@0	178	TInt E32Main()
sl@0	179	{
sl@0	180
sl@0	181	test.Title();
sl@0	182	test.Start(_L("class RRef"));
sl@0	183	test.Next(_L("Test all methods"));
sl@0	184	Test1();
sl@0	185	test.Next(_L("Constructors"));
sl@0	186	Test2();
sl@0	187	test.Next(_L("Assignment methods"));
sl@0	188	Test3();
sl@0	189	test.Next(_L("Smart pointer methods"));
sl@0	190	Test4();
sl@0	191	test.Next(_L("Allocation methods"));
sl@0	192	Test5();
sl@0	193	test.End();
sl@0	194	return(0);
sl@0	195	}
sl@0	196
sl@0	197

author	sl
	Tue, 10 Jun 2014 14:32:02 +0200
changeset 1	260cb5ec6c19
permissions	-rw-r--r--