author | hgs |
Mon, 12 Jul 2010 14:24:01 +0100 | |
changeset 202 | 9aca3be14c27 |
parent 177 | a232af6b0b1f |
child 291 | 206a6eaaeb71 |
permissions | -rw-r--r-- |
0 | 1 |
// Copyright (c) 1994-2009 Nokia Corporation and/or its subsidiary(-ies). |
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// All rights reserved. |
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// This component and the accompanying materials are made available |
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// under the terms of the License "Eclipse Public License v1.0" |
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// which accompanies this distribution, and is available |
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// at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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// |
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// Initial Contributors: |
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// Nokia Corporation - initial contribution. |
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// |
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// Contributors: |
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// |
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// Description: |
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// e32\include\e32std.h |
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// |
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// |
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#ifndef __E32STD_H__ |
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#define __E32STD_H__ |
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#ifdef __KERNEL_MODE__ |
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#error !! Including e32std.h in kernel code !! |
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#endif |
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#include <e32cmn.h> |
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/** |
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@publishedAll |
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@released |
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*/ |
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class TFunctor |
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{ |
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public: |
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IMPORT_C virtual void operator()() =0; |
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}; |
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/** |
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@publishedAll |
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@released |
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Encapsulates a general call-back function. |
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The class encapsulates: |
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1. a pointer to a function which takes an argument of type TAny* and returns |
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a TInt. |
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2. a pointer which is passed to the function every time it is called. |
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The pointer can point to any object. It can also be NULL. |
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The callback function can be a static function of a class, |
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e.g. TInt X::Foo(TAny *) or it can be a function which is not a member of |
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any class, e.g. TInt Foo(TAny *). |
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When used with the CIdle and the CPeriodic classes, the callback function |
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is intended to be called repeatedly; the encapsulated pointer is passed on |
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each call. Typically, the pointer refers to an object which records the state |
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of the task across each call. When used with CIdle, the callback function |
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should also return a true (non-zero) value if it is intended to be called |
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again, otherwise it should return a false (zero) value. |
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@see CIdle |
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@see CPeriodic |
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*/ |
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class TCallBack |
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{ |
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public: |
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inline TCallBack(); |
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inline TCallBack(TInt (*aFunction)(TAny* aPtr)); |
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inline TCallBack(TInt (*aFunction)(TAny* aPtr),TAny* aPtr); |
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inline TInt CallBack() const; |
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public: |
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/** |
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A pointer to the callback function. |
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*/ |
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TInt (*iFunction)(TAny* aPtr); |
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/** |
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A pointer that is passed to the callback function when |
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the function is called. |
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*/ |
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TAny* iPtr; |
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}; |
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/** |
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@publishedAll |
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@released |
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An object embedded within a class T so that objects of type T can form part |
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of a singly linked list. |
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A link object encapsulates a pointer to the next link object in the list. |
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@see TSglQue |
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*/ |
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class TSglQueLink |
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{ |
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#if defined _DEBUG |
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public: |
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inline TSglQueLink() : iNext(NULL) |
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/** |
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An explicitly coded default constructor that is only defined for DEBUG builds. |
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It sets the pointer to the next link object to NULL. |
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@see iNext |
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*/ |
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{} |
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#endif |
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private: |
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IMPORT_C void Enque(TSglQueLink* aLink); |
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public: |
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/** |
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A pointer to the next link object in the list. |
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*/ |
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TSglQueLink* iNext; |
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friend class TSglQueBase; |
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}; |
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/** |
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@publishedAll |
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@released |
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A base class that provides implementation for the link object of a doubly |
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linked list. |
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It also encapsulates pointers both to the next and the previous link |
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objects in the doubly linked list. |
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The class is abstract and is not intended to be instantiated. |
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@see TDblQueLink |
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*/ |
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class TDblQueLinkBase |
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{ |
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public: |
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inline TDblQueLinkBase() : iNext(NULL) |
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/** |
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Default constructor. |
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It sets the pointer to the next link object to NULL. |
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@see iNext |
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*/ |
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{} |
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IMPORT_C void Enque(TDblQueLinkBase* aLink); |
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IMPORT_C void AddBefore(TDblQueLinkBase* aLink); |
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public: |
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/** |
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A pointer to the next link object in the list. |
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*/ |
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TDblQueLinkBase* iNext; |
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/** |
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A pointer to the previous link object in the list. |
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*/ |
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TDblQueLinkBase* iPrev; |
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}; |
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/** |
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@publishedAll |
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@released |
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An object embedded within a class T so that objects of type T can form part |
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of a doubly linked list. |
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*/ |
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class TDblQueLink : public TDblQueLinkBase |
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{ |
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public: |
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IMPORT_C void Deque(); |
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}; |
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/** |
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@publishedAll |
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@released |
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An object embedded within a class T so that objects of type T can form part |
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of an ordered doubly linked list. |
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Objects are added to the doubly linked list in descending priority order. |
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*/ |
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class TPriQueLink : public TDblQueLink |
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{ |
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public: |
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/** |
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The priority value. |
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Objects are added to the doubly linked list in descending order of this value. |
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*/ |
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TInt iPriority; |
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}; |
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/** |
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@publishedAll |
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@released |
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An object embedded within a class T so that objects of type T can form part |
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of a delta doubly linked list. |
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*/ |
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class TDeltaQueLink : public TDblQueLinkBase |
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{ |
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public: |
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/** |
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The delta value. |
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*/ |
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TInt iDelta; |
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}; |
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/** |
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@publishedAll |
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@released |
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An object embedded within a class T so that objects of type T can form part |
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of a doubly linked list sorted by tick count. |
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*/ |
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class TTickCountQueLink : public TDblQueLink |
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{ |
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public: |
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/** |
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The tick count. |
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*/ |
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TUint iTickCount; |
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}; |
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/** |
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@publishedAll |
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@released |
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A base class that provides implementation for the singly linked list header. |
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It also encapsulates the offset value of a link object. |
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The class is abstract and is not intended to be instantiated. |
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@see TSglQue |
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*/ |
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class TSglQueBase |
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{ |
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public: |
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IMPORT_C TBool IsEmpty() const; |
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IMPORT_C void SetOffset(TInt aOffset); |
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IMPORT_C void Reset(); |
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protected: |
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IMPORT_C TSglQueBase(); |
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IMPORT_C TSglQueBase(TInt aOffset); |
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IMPORT_C void DoAddFirst(TAny* aPtr); |
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IMPORT_C void DoAddLast(TAny* aPtr); |
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IMPORT_C void DoRemove(TAny* aPtr); |
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protected: |
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/** |
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A pointer to the first element in the list. |
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*/ |
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TSglQueLink* iHead; |
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/** |
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A pointer to the last element in the list. |
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*/ |
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TSglQueLink* iLast; |
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/** |
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The offset of a component link object within elements that form the list. |
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*/ |
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TInt iOffset; |
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private: |
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TSglQueBase(const TSglQueBase& aQue); |
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TSglQueBase &operator=(const TSglQueBase& aQue); |
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friend class TSglQueIterBase; |
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}; |
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/** |
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@publishedAll |
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@released |
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A base class that provides implementation for the doubly linked list header. |
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It also encapsulates the offset value of a link object. |
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The class is abstract and is not intended to be instantiated. |
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@see TDblQue |
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*/ |
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class TDblQueBase |
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{ |
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public: |
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IMPORT_C TBool IsEmpty() const; |
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IMPORT_C void SetOffset(TInt aOffset); |
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IMPORT_C void Reset(); |
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protected: |
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IMPORT_C TDblQueBase(); |
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IMPORT_C TDblQueBase(TInt aOffset); |
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IMPORT_C void DoAddFirst(TAny* aPtr); |
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IMPORT_C void DoAddLast(TAny* aPtr); |
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IMPORT_C void DoAddPriority(TAny* aPtr); |
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IMPORT_C void __DbgTestEmpty() const; |
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protected: |
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/** |
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The head, or anchor point of the queue. |
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*/ |
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TDblQueLink iHead; |
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/** |
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The offset of a component link object within elements that form the list. |
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*/ |
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TInt iOffset; |
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private: |
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TDblQueBase(const TDblQueBase& aQue); |
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TDblQueBase& operator=(const TDblQueBase& aQue); |
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friend class TDblQueIterBase; |
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}; |
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/** |
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@publishedAll |
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@released |
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A base class that provides implementation for the TDeltaQue template class. |
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The class is abstract and is not intended to be instantiated. |
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@see TDeltaQue |
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*/ |
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class TDeltaQueBase : public TDblQueBase |
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{ |
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public: |
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IMPORT_C TBool CountDown(); |
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IMPORT_C TBool CountDown(TInt aValue); |
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IMPORT_C TBool FirstDelta(TInt& aValue); |
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IMPORT_C void Reset(); |
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protected: |
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IMPORT_C TDeltaQueBase(); |
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IMPORT_C TDeltaQueBase(TInt aOffset); |
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IMPORT_C void DoAddDelta(TAny* aPtr,TInt aDelta); |
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IMPORT_C void DoRemove(TAny* aPtr); |
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IMPORT_C TAny* DoRemoveFirst(); |
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protected: |
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/** |
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Pointer to the delta value in the first link element. |
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*/ |
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TInt* iFirstDelta; |
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}; |
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/** |
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@publishedAll |
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@released |
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A templated class that provides the behaviour for managing a singly linked |
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list. |
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It also acts as the head of the list, maintaining the pointers into the list. |
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The template parameter defines the type of element that forms the singly linked |
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list and is the class that acts as host to the link object. |
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@see TSglQueLink |
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*/ |
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template <class T> |
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class TSglQue : public TSglQueBase |
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{ |
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public: |
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inline TSglQue(); |
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inline explicit TSglQue(TInt aOffset); |
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inline void AddFirst(T& aRef); |
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inline void AddLast(T& aRef); |
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inline TBool IsFirst(const T* aPtr) const; |
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inline TBool IsLast(const T* aPtr) const; |
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inline T* First() const; |
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inline T* Last() const; |
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inline void Remove(T& aRef); |
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}; |
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/** |
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@publishedAll |
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@released |
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A templated class that provides the behaviour for managing a doubly linked |
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list. |
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It also acts as the head of the list, maintaining the pointers into the list. |
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The template parameter defines the type of element that forms the doubly linked |
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list and is the class that acts as host to the link object. |
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@see TDblQueLink |
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*/ |
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template <class T> |
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class TDblQue : public TDblQueBase |
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{ |
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public: |
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inline TDblQue(); |
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inline explicit TDblQue(TInt aOffset); |
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inline void AddFirst(T& aRef); |
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inline void AddLast(T& aRef); |
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inline TBool IsHead(const T* aPtr) const; |
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inline TBool IsFirst(const T* aPtr) const; |
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inline TBool IsLast(const T* aPtr) const; |
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inline T* First() const; |
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inline T* Last() const; |
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}; |
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/** |
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@publishedAll |
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@released |
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440 |
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A templated class that provides the behaviour for managing a doubly linked |
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list in which the elements are added in descending priority order. |
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Priority is defined by the value of the TPriQueLink::iPriority member of |
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the link element. |
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The template parameter defines the type of element that forms the doubly linked |
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list and is the class that acts as host to the link object. |
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@see TPriQueLink |
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@see TPriQueLink::iPriority |
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*/ |
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template <class T> |
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class TPriQue : public TDblQueBase |
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{ |
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public: |
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inline TPriQue(); |
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inline explicit TPriQue(TInt aOffset); |
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inline void Add(T& aRef); |
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inline TBool IsHead(const T* aPtr) const; |
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inline TBool IsFirst(const T* aPtr) const; |
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inline TBool IsLast(const T* aPtr) const; |
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inline T* First() const; |
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inline T* Last() const; |
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}; |
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/** |
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@publishedAll |
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@released |
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A templated class that provides the behaviour for managing a doubly linked |
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list in which elements represent values which are increments, or deltas, on |
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the value represented by a preceding element. |
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The list is ordered so that the head of the queue represents a nominal zero |
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point. |
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The delta value of a new element represents its 'distance' from the nominal |
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zero point. The new element is added into the list, and the delta values of |
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adjacent elements (and of the new element, if necessary) are adjusted, so |
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that the sum of all deltas, up to and including the new element, is the same |
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as the new element's intended 'distance' from the nominal zero point. |
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A common use for a list of this type is as a queue of timed events, where |
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the delta values represent the intervals between the events. |
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The delta value is defined by the value of the TDeltaQueLink::iDelta member |
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of the link element. |
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The template parameter defines the type of element that forms the doubly linked |
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list and is the class that acts as host to the link object. |
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@see TDeltaQueLink |
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@see TDeltaQueLink::iDelta |
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*/ |
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template <class T> |
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class TDeltaQue : public TDeltaQueBase |
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{ |
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public: |
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inline TDeltaQue(); |
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inline explicit TDeltaQue(TInt aOffset); |
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inline void Add(T& aRef,TInt aDelta); |
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inline void Remove(T& aRef); |
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inline T* RemoveFirst(); |
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}; |
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// Forward declaration |
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class TTickCountQueLink; |
|
515 |
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/** |
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@internalComponent |
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@released |
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519 |
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A class that provides the behaviour for managing a doubly linked list |
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in which elements are added in order of the time until their tick count. |
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522 |
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A common use for a list of this type is as a queue of timed events, where |
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the tick counts are the expiry times of the events. |
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The tick count is defined by the value of the TTickCountQueLink::iTickCount |
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member of the link element. |
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@see TTickCountQueLink |
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@see TTickCountQueLink::iTickCount |
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*/ |
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class TTickCountQue : public TDblQueBase |
|
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{ |
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public: |
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535 |
TTickCountQue(); |
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void Add(TTickCountQueLink& aRef); |
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TTickCountQueLink* First() const; |
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TTickCountQueLink* RemoveFirst(); |
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TTickCountQueLink* RemoveFirst(TUint aTickCount); |
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}; |
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541 |
||
542 |
||
543 |
||
544 |
||
545 |
/** |
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@publishedAll |
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@released |
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548 |
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A base class that provides implementation for the singly linked list iterator. |
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550 |
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551 |
It also encapsulates a pointer to the current link link list element. |
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552 |
||
553 |
The class is abstract and is not intended to be instantiated. |
|
554 |
*/ |
|
555 |
class TSglQueIterBase |
|
556 |
{ |
|
557 |
public: |
|
558 |
IMPORT_C void SetToFirst(); |
|
559 |
protected: |
|
560 |
IMPORT_C TSglQueIterBase(TSglQueBase& aQue); |
|
561 |
IMPORT_C TAny* DoPostInc(); |
|
562 |
IMPORT_C TAny* DoCurrent(); |
|
563 |
IMPORT_C void DoSet(TAny* aLink); |
|
564 |
protected: |
|
565 |
TInt iOffset; |
|
566 |
TSglQueLink* iHead; |
|
567 |
TSglQueLink* iNext; |
|
568 |
}; |
|
569 |
||
570 |
||
571 |
||
572 |
||
573 |
/** |
|
574 |
@publishedAll |
|
575 |
@released |
|
576 |
||
577 |
A templated class that provides the behaviour for iterating through a set of |
|
578 |
singly linked list elements. |
|
579 |
||
580 |
The template parameter defines the type of element that forms the singly linked |
|
581 |
list. The class defined in the template parameter contains the link object. |
|
582 |
*/ |
|
583 |
template <class T> |
|
584 |
class TSglQueIter : public TSglQueIterBase |
|
585 |
{ |
|
586 |
public: |
|
587 |
inline TSglQueIter(TSglQueBase& aQue); |
|
588 |
inline void Set(T& aLink); |
|
589 |
inline operator T*(); |
|
590 |
inline T* operator++(TInt); |
|
591 |
}; |
|
592 |
||
593 |
||
594 |
||
595 |
||
596 |
/** |
|
597 |
@publishedAll |
|
598 |
@released |
|
599 |
||
600 |
A base class that provides implementation for the doubly linked list iterator. |
|
601 |
||
602 |
It also encapsulates a pointer to the current link list element. |
|
603 |
||
604 |
The class is abstract and is not intended to be instantiated. |
|
605 |
*/ |
|
606 |
class TDblQueIterBase |
|
607 |
{ |
|
608 |
public: |
|
609 |
IMPORT_C void SetToFirst(); |
|
610 |
IMPORT_C void SetToLast(); |
|
611 |
protected: |
|
612 |
IMPORT_C TDblQueIterBase(TDblQueBase& aQue); |
|
613 |
IMPORT_C TAny* DoPostInc(); |
|
614 |
IMPORT_C TAny* DoPostDec(); |
|
615 |
IMPORT_C TAny* DoCurrent(); |
|
616 |
IMPORT_C void DoSet(TAny* aLink); |
|
617 |
protected: |
|
618 |
/** |
|
619 |
The offset of a component link object within elements that form the list. |
|
620 |
*/ |
|
621 |
TInt iOffset; |
|
622 |
||
623 |
/** |
|
624 |
Pointer to the anchor for the list. |
|
625 |
*/ |
|
626 |
TDblQueLinkBase* iHead; |
|
627 |
||
628 |
/** |
|
629 |
Pointer to the current element. |
|
630 |
*/ |
|
631 |
TDblQueLinkBase* iNext; |
|
632 |
}; |
|
633 |
||
634 |
||
635 |
||
636 |
||
637 |
/** |
|
638 |
@publishedAll |
|
639 |
@released |
|
640 |
||
641 |
A templated class that provides the behaviour for iterating through a set of |
|
642 |
doubly linked list elements. |
|
643 |
||
644 |
The template parameter defines the type of element that forms the doubly linked |
|
645 |
list. The class defined in the template parameter contains the link object. |
|
646 |
*/ |
|
647 |
template <class T> |
|
648 |
class TDblQueIter : public TDblQueIterBase |
|
649 |
{ |
|
650 |
public: |
|
651 |
inline TDblQueIter(TDblQueBase& aQue); |
|
652 |
inline void Set(T& aLink); |
|
653 |
inline operator T*(); |
|
654 |
inline T* operator++(TInt); |
|
655 |
inline T* operator--(TInt); |
|
656 |
}; |
|
657 |
||
658 |
||
659 |
||
660 |
||
661 |
/** |
|
662 |
@publishedAll |
|
663 |
@released |
|
664 |
||
665 |
Governs the type of comparison to be made between descriptor keys or between |
|
666 |
text keys. |
|
667 |
||
668 |
@see TKeyArrayFix |
|
669 |
@see TKeyArrayVar |
|
670 |
@see TKeyArrayPak |
|
671 |
*/ |
|
672 |
enum TKeyCmpText |
|
673 |
{ |
|
674 |
/** |
|
675 |
For a Unicode build, this is the same as ECmpNormal16. |
|
676 |
For a non-Unicode build, this is the same as ECmpNormal8. |
|
677 |
||
678 |
Using the build independent names (i.e. TPtrC, TPtr, TBufC, TBuf or TText) |
|
679 |
allows the compiler to chose the correct variant according to the build. |
|
680 |
*/ |
|
681 |
ECmpNormal, |
|
682 |
||
683 |
||
684 |
/** |
|
685 |
For descriptor keys, the key is assumed to be the 8 bit variant, derived |
|
686 |
from TDesc8. A simple comparison is done between the content of the |
|
687 |
descriptors; the data is not folded and collation rules are not applied for |
|
688 |
the purpose of the comparison. |
|
689 |
||
690 |
For text keys, the key is assumed to be the 8 bit variant, of type TText8. |
|
691 |
A normal comparison is done between the text data; the data is not folded |
|
692 |
and collation rules are not applied for the purpose of the comparison. |
|
693 |
*/ |
|
694 |
ECmpNormal8, |
|
695 |
||
696 |
||
697 |
/** |
|
698 |
For descriptor keys, the key is assumed to be the 16 bit variant, derived |
|
699 |
from TDesc16. A simple comparison is done between the content of the |
|
700 |
descriptors; the data is not folded and collation rules are not applied for |
|
701 |
the purpose of the comparison. |
|
702 |
||
703 |
For text keys, the key is assumed to be the 16 bit variant, of type |
|
704 |
TText16. A normal comparison is done between the text data; the data is |
|
705 |
not folded and collation rules are not applied for the purpose of the |
|
706 |
comparison. |
|
707 |
*/ |
|
708 |
ECmpNormal16, |
|
709 |
||
710 |
||
711 |
/** |
|
712 |
For a Unicode build, this is the same as EcmpFolded16. |
|
713 |
For a non-Unicode build, this is the same as EcmpFolded8. |
|
714 |
||
715 |
Using the build independent names (i.e. TPtrC, TPtr, TBufC, TBuf or TText) |
|
716 |
allows the compiler to chose the correct variant according to the build. |
|
717 |
*/ |
|
718 |
ECmpFolded, |
|
719 |
||
720 |
||
721 |
/** |
|
722 |
For descriptor keys, the key is assumed to be the 8 bit variant, |
|
723 |
derived from TDesc8. The descriptor contents are folded for the purpose |
|
724 |
of the comparison. |
|
725 |
||
726 |
For text keys, the key is assumed to be the 8 bit variant, of type |
|
727 |
TText8. The text data is folded for the purpose of the comparison. |
|
728 |
*/ |
|
729 |
ECmpFolded8, |
|
730 |
||
731 |
||
732 |
/** |
|
733 |
For descriptor keys, the key is assumed to be the 16 bit variant, |
|
734 |
derived from TDesc16. The descriptor contents are folded for the purpose |
|
735 |
of the comparison. |
|
736 |
||
737 |
For text keys, the key is assumed to be the 16 bit variant, of type |
|
738 |
TText16. The text data is folded for the purpose of the comparison. |
|
739 |
*/ |
|
740 |
ECmpFolded16, |
|
741 |
||
742 |
||
743 |
/** |
|
744 |
For a Unicode build, this is the same as EcmpCollated16. |
|
745 |
For a non-Unicode build, this is the same as EcmpCollated8. |
|
746 |
||
747 |
Using the build independent names (i.e. TPtrC, TPtr, TBufC, TBuf or TText) |
|
748 |
allows the compiler to chose the correct variant according to the build. |
|
749 |
*/ |
|
750 |
ECmpCollated, |
|
751 |
||
752 |
||
753 |
/** |
|
754 |
For descriptor keys, the key is assumed to be the 8 bit variant, |
|
755 |
derived from TDesc8. Collation rules are applied for the purpose of |
|
756 |
the comparison. |
|
757 |
||
758 |
For text keys, the key is assumed to be the 8 bit variant, of type |
|
759 |
TText8. Collation rules are applied for the purpose of the comparison. |
|
760 |
*/ |
|
761 |
ECmpCollated8, |
|
762 |
||
763 |
||
764 |
/** |
|
765 |
For descriptor keys, the key is assumed to be the 16 bit variant, |
|
766 |
derived from TDesc16. Collation rules are applied for the purpose of |
|
767 |
the comparison. |
|
768 |
||
769 |
For text keys, the key is assumed to be the 16 bit variant, |
|
770 |
of type TText16. Collation rules are applied for the purpose of |
|
771 |
the comparison. |
|
772 |
*/ |
|
773 |
ECmpCollated16 |
|
774 |
}; |
|
775 |
||
776 |
||
777 |
||
778 |
||
779 |
/** |
|
780 |
@publishedAll |
|
781 |
@released |
|
782 |
||
783 |
Governs the type of comparison to be made between numeric keys. |
|
784 |
||
785 |
@see TKeyArrayFix |
|
786 |
@see TKeyArrayVar |
|
787 |
@see TKeyArrayPak |
|
788 |
*/ |
|
789 |
enum TKeyCmpNumeric |
|
790 |
{ |
|
791 |
/** |
|
792 |
The key is assumed to be of type TInt8. |
|
793 |
*/ |
|
794 |
ECmpTInt8=((ECmpCollated16+1)<<1), |
|
795 |
||
796 |
||
797 |
/** |
|
798 |
The key is assumed to be of type TInt16. |
|
799 |
*/ |
|
800 |
ECmpTInt16, |
|
801 |
||
802 |
||
803 |
/** |
|
804 |
The key is assumed to be of type TInt32. |
|
805 |
*/ |
|
806 |
ECmpTInt32, |
|
807 |
||
808 |
||
809 |
/** |
|
810 |
The key is assumed to be of type TInt. |
|
811 |
*/ |
|
812 |
ECmpTInt, |
|
813 |
||
814 |
||
815 |
/** |
|
816 |
The key is assumed to be of type TUint8. |
|
817 |
*/ |
|
818 |
ECmpTUint8, |
|
819 |
||
820 |
||
821 |
/** |
|
822 |
The key is assumed to be of type TUint16. |
|
823 |
*/ |
|
824 |
ECmpTUint16, |
|
825 |
||
826 |
||
827 |
/** |
|
828 |
The key is assumed to be of type TUint32. |
|
829 |
*/ |
|
830 |
ECmpTUint32, |
|
831 |
||
832 |
||
833 |
/** |
|
834 |
The key is assumed to be of type TUint. |
|
835 |
*/ |
|
836 |
ECmpTUint, |
|
837 |
||
838 |
||
839 |
/** |
|
840 |
The key is assumed to be of type TInt64. |
|
841 |
*/ |
|
842 |
ECmpTInt64 |
|
843 |
}; |
|
844 |
||
845 |
||
846 |
||
847 |
||
848 |
/** |
|
849 |
@publishedAll |
|
850 |
@released |
|
851 |
||
852 |
Defines the characteristics of a key used to access the elements of an array. |
|
853 |
||
854 |
The class is abstract and cannot be instantiated. A derived class must be |
|
855 |
defined and implemented. |
|
856 |
||
857 |
The classes TKeyArrayFix, TKeyArrayVar and TKeyArrayPak, derived from TKey, |
|
858 |
are already supplied to implement keys for the fixed length element, variable |
|
859 |
length element and packed arrays. |
|
860 |
||
861 |
A derived class would normally be written to define the characteristics of |
|
862 |
a key for a non standard array. |
|
863 |
||
864 |
@see TKeyArrayFix |
|
865 |
@see TKeyArrayVar |
|
866 |
@see TKeyArrayPak |
|
867 |
*/ |
|
868 |
class TKey |
|
869 |
{ |
|
870 |
public: |
|
871 |
inline void SetPtr(const TAny* aPtr); |
|
872 |
IMPORT_C virtual TInt Compare(TInt aLeft,TInt aRight) const; |
|
873 |
IMPORT_C virtual TAny* At(TInt anIndex) const; |
|
874 |
protected: |
|
875 |
IMPORT_C TKey(); |
|
876 |
IMPORT_C TKey(TInt aOffset,TKeyCmpText aType); |
|
877 |
IMPORT_C TKey(TInt aOffset,TKeyCmpText aType,TInt aLength); |
|
878 |
IMPORT_C TKey(TInt aOffset,TKeyCmpNumeric aType); |
|
879 |
protected: |
|
880 |
TInt iKeyOffset; |
|
881 |
TInt iKeyLength; |
|
882 |
TInt iCmpType; |
|
883 |
const TAny* iPtr; |
|
884 |
}; |
|
885 |
||
886 |
/** |
|
887 |
@publishedAll |
|
888 |
@released |
|
889 |
||
890 |
Defines the basic behaviour for swapping two elements of an array. |
|
891 |
||
892 |
The class is abstract. A derived class must be defined and implemented to |
|
893 |
use the functionality. |
|
894 |
||
895 |
A derived class can define how to swap two elements of an array. In practice, |
|
896 |
this means providing an implementation for the virtual function Swap(). |
|
897 |
||
898 |
To support this, the derived class is also likely to need a pointer to the |
|
899 |
array itself and suitable constructors and/or other member functions to set |
|
900 |
such a pointer. |
|
901 |
*/ |
|
902 |
class TSwap |
|
903 |
{ |
|
904 |
public: |
|
905 |
IMPORT_C TSwap(); |
|
906 |
IMPORT_C virtual void Swap(TInt aLeft,TInt aRight) const; |
|
907 |
}; |
|
908 |
||
909 |
||
910 |
||
911 |
||
912 |
/** |
|
913 |
@publishedAll |
|
914 |
@released |
|
915 |
||
916 |
Folds a specified character and provides functions to fold additional |
|
917 |
characters after construction of the object. |
|
918 |
||
919 |
Folding converts the character to a form which can be used in tolerant |
|
920 |
comparisons without control over the operations performed. Tolerant comparisons |
|
921 |
are those which ignore character differences like case and accents. |
|
922 |
||
923 |
Note that folding is locale-independent behaviour. It is also important to |
|
924 |
note that there can be no guarantee that folding is in any way culturally |
|
925 |
appropriate, and should not be used for matching characters in |
|
926 |
natural language. |
|
927 |
||
928 |
@see User::Fold |
|
929 |
*/ |
|
930 |
class TCharF : public TChar |
|
931 |
{ |
|
932 |
public: |
|
933 |
inline TCharF(TUint aChar); |
|
934 |
inline TCharF(const TChar& aChar); |
|
935 |
inline TCharF& operator=(TUint aChar); |
|
936 |
inline TCharF& operator=(const TChar& aChar); |
|
937 |
}; |
|
938 |
||
939 |
||
940 |
||
941 |
||
942 |
/** |
|
943 |
@publishedAll |
|
944 |
@released |
|
945 |
||
946 |
Converts a specified character to lower case and provides functions to convert |
|
947 |
additional characters after construction of the object. |
|
948 |
*/ |
|
949 |
class TCharLC : public TChar |
|
950 |
{ |
|
951 |
public: |
|
952 |
inline TCharLC(TUint aChar); |
|
953 |
inline TCharLC(const TChar& aChar); |
|
954 |
inline TCharLC& operator=(TUint aChar); |
|
955 |
inline TCharLC& operator=(const TChar& aChar); |
|
956 |
}; |
|
957 |
||
958 |
||
959 |
||
960 |
||
961 |
/** |
|
962 |
@publishedAll |
|
963 |
@released |
|
964 |
||
965 |
Converts a specified character to upper case and provides functions to convert |
|
966 |
additional characters after construction of the object. |
|
967 |
*/ |
|
968 |
class TCharUC : public TChar |
|
969 |
{ |
|
970 |
public: |
|
971 |
inline TCharUC(TUint aChar); |
|
972 |
inline TCharUC(const TChar& aChar); |
|
973 |
inline TCharUC& operator=(TUint aChar); |
|
974 |
inline TCharUC& operator=(const TChar& aChar); |
|
975 |
}; |
|
976 |
||
977 |
||
978 |
||
979 |
/** |
|
980 |
@publishedAll |
|
981 |
@released |
|
982 |
||
983 |
Defines the character representation of a real number type such |
|
984 |
as a TReal or a TRealX. |
|
985 |
||
986 |
An object of this type is used by functions that convert real values to |
|
987 |
character format, for example, the descriptor functions: |
|
988 |
Num(), AppendNum() and Format(). |
|
989 |
||
990 |
There are three constructors for constructing a suitable object. |
|
991 |
The data members of the class, however, are public and can be |
|
992 |
explicitly set after construction. |
|
993 |
*/ |
|
994 |
class TRealFormat |
|
995 |
{ |
|
996 |
public: |
|
997 |
IMPORT_C TRealFormat(); |
|
998 |
IMPORT_C TRealFormat(TInt aWidth); |
|
999 |
IMPORT_C TRealFormat(TInt aWidth,TInt aDecimalPlaces); |
|
1000 |
public: |
|
1001 |
/** |
|
1002 |
Governs the format of the character representation of the real number. |
|
1003 |
||
1004 |
This is set to one of the defined format types. |
|
1005 |
||
1006 |
One or more of the defined format flags can subsequently be ORed into this member. |
|
1007 |
||
1008 |
@see KRealFormatFixed |
|
1009 |
@see KRealFormatExponent |
|
1010 |
@see KRealFormatGeneral |
|
1011 |
@see KRealFormatNoExponent |
|
1012 |
@see KRealFormatCalculator |
|
1013 |
@see KExtraSpaceForSign |
|
1014 |
@see KAllowThreeDigitExp |
|
1015 |
@see KDoNotUseTriads |
|
1016 |
@see KGeneralLimit |
|
1017 |
@see KUseSigFigs |
|
1018 |
*/ |
|
1019 |
TInt iType; |
|
1020 |
||
1021 |
||
1022 |
/** |
|
1023 |
Defines the maximum number of characters required to represent the number. |
|
1024 |
*/ |
|
1025 |
TInt iWidth; |
|
1026 |
||
1027 |
||
1028 |
/** |
|
1029 |
Defines either the number of characters to be used to represent the decimal |
|
1030 |
portion of the number, or the maximum number of significant digits in |
|
1031 |
the character representation of the number. |
|
1032 |
||
1033 |
The interpretation depends on the chosen format as defined by iType. |
|
1034 |
||
1035 |
@see TRealFormat::iType |
|
1036 |
*/ |
|
1037 |
TInt iPlaces; |
|
1038 |
||
1039 |
||
1040 |
/** |
|
1041 |
Defines the character to be used to separate the integer portion of |
|
1042 |
a number representation from its decimal portion. |
|
1043 |
||
1044 |
In general, the character used for this purpose is a matter of local |
|
1045 |
convention. The TLocale::DecimalSeparator() function can supply the |
|
1046 |
desired character. |
|
1047 |
||
1048 |
@see TLocale |
|
1049 |
*/ |
|
1050 |
TChar iPoint; |
|
1051 |
||
1052 |
||
1053 |
/** |
|
1054 |
Defines the character to be used to delimit groups of three digits in |
|
1055 |
the integer part of the number. |
|
1056 |
||
1057 |
In general, the character used for this purpose is a matter of local |
|
1058 |
convention. The TLocale::ThousandsSeparator() function can supply the |
|
1059 |
desired character. |
|
1060 |
||
1061 |
@see TLocale |
|
1062 |
*/ |
|
1063 |
TChar iTriad; |
|
1064 |
||
1065 |
||
1066 |
/** |
|
1067 |
Defines the threshold number of digits above which triad separation is to |
|
1068 |
occur. A value of zero disables triad separation and no triad separation |
|
1069 |
character (i.e. the character held in iTriad) is inserted into the |
|
1070 |
resulting character representation regardless of the number of characters. |
|
1071 |
||
1072 |
For example, a value of 1 causes the number 1000 to be represented by the |
|
1073 |
characters "1,000" whereas a value of 4 causes the same number to be |
|
1074 |
represented by the characters "1000" (This assumes the ‘,’ triad separation |
|
1075 |
character). |
|
1076 |
||
1077 |
Note that no triad separation occurs if the flag KDoNotUseTriads is set in |
|
1078 |
the iType data member. |
|
1079 |
||
1080 |
@see TRealFormat::iTriad |
|
1081 |
@see KDoNotUseTriads |
|
1082 |
*/ |
|
1083 |
TInt iTriLen; |
|
1084 |
}; |
|
1085 |
||
1086 |
||
1087 |
||
1088 |
||
1089 |
/** |
|
1090 |
@publishedAll |
|
1091 |
@released |
|
1092 |
||
1093 |
Defines the extraction mark used by the TLex8 class to indicate the current |
|
1094 |
lexical element being analysed. |
|
1095 |
||
1096 |
In practice, objects of this type are accessed through the TLexMark typedef. |
|
1097 |
||
1098 |
@see TLexMark |
|
1099 |
@see TLex8 |
|
1100 |
*/ |
|
1101 |
class TLexMark8 |
|
1102 |
{ |
|
1103 |
public: |
|
1104 |
inline TLexMark8(); |
|
1105 |
private: |
|
1106 |
inline TLexMark8(const TUint8* aString); |
|
1107 |
const TUint8* iPtr; |
|
1108 |
friend class TLex8; |
|
1109 |
__DECLARE_TEST; |
|
1110 |
}; |
|
1111 |
||
1112 |
||
1113 |
||
1114 |
||
1115 |
class TRealX; |
|
1116 |
/** |
|
1117 |
@publishedAll |
|
1118 |
@released |
|
1119 |
||
1120 |
Provides general string-parsing functions suitable for numeric format |
|
1121 |
conversions and syntactical-element parsing. |
|
1122 |
||
1123 |
The class is the 8-bit variant for non-Unicode strings and 8-bit wide |
|
1124 |
characters. |
|
1125 |
||
1126 |
An instance of this class stores a string, maintaining an extraction mark |
|
1127 |
to indicate the current lexical element being analysed and a pointer to the |
|
1128 |
next character to be examined. |
|
1129 |
||
1130 |
Objects of this type are normally accessed through the build independent type |
|
1131 |
TLex. |
|
1132 |
||
1133 |
@see TLex |
|
1134 |
*/ |
|
1135 |
class TLex8 |
|
1136 |
{ |
|
1137 |
public: |
|
1138 |
IMPORT_C TLex8(); |
|
1139 |
inline TLex8(const TUint8* aString); |
|
1140 |
inline TLex8(const TDesC8& aDes); |
|
1141 |
inline TLex8& operator=(const TUint8* aString); |
|
1142 |
inline TLex8& operator=(const TDesC8& aDes); |
|
1143 |
inline TBool Eos() const; |
|
1144 |
inline void Mark(TLexMark8& aMark) const; |
|
1145 |
inline void Mark(); |
|
1146 |
IMPORT_C void Inc(); |
|
1147 |
IMPORT_C void Inc(TInt aNumber); |
|
1148 |
IMPORT_C TChar Get(); |
|
1149 |
IMPORT_C TChar Peek() const; |
|
1150 |
IMPORT_C void UnGet(); |
|
1151 |
inline void UnGetToMark(); |
|
1152 |
IMPORT_C void UnGetToMark(const TLexMark8 aMark); |
|
1153 |
IMPORT_C void SkipSpace(); |
|
1154 |
inline void SkipAndMark(TInt aNumber); |
|
1155 |
IMPORT_C void SkipAndMark(TInt aNumber, TLexMark8& aMark); |
|
1156 |
inline void SkipSpaceAndMark(); |
|
1157 |
IMPORT_C void SkipSpaceAndMark(TLexMark8& aMark); |
|
1158 |
IMPORT_C void SkipCharacters(); |
|
1159 |
inline TInt TokenLength() const; |
|
1160 |
IMPORT_C TInt TokenLength(const TLexMark8 aMark) const; |
|
1161 |
IMPORT_C TPtrC8 MarkedToken() const; |
|
1162 |
IMPORT_C TPtrC8 MarkedToken(const TLexMark8 aMark) const; |
|
1163 |
IMPORT_C TPtrC8 NextToken(); |
|
1164 |
IMPORT_C TPtrC8 Remainder() const; |
|
1165 |
IMPORT_C TPtrC8 RemainderFromMark() const; |
|
1166 |
IMPORT_C TPtrC8 RemainderFromMark(const TLexMark8 aMark) const; |
|
1167 |
IMPORT_C TInt Offset() const; |
|
1168 |
inline TInt MarkedOffset() const; |
|
1169 |
IMPORT_C TInt MarkedOffset(const TLexMark8 aMark) const; |
|
1170 |
IMPORT_C TInt Val(TInt8& aVal); |
|
1171 |
IMPORT_C TInt Val(TInt16& aVal); |
|
1172 |
IMPORT_C TInt Val(TInt32& aVal); |
|
1173 |
IMPORT_C TInt Val(TInt64& aVal); |
|
1174 |
inline TInt Val(TInt& aVal); |
|
1175 |
IMPORT_C TInt Val(TUint8& aVal,TRadix aRadix); |
|
1176 |
IMPORT_C TInt Val(TUint16& aVal,TRadix aRadix); |
|
1177 |
IMPORT_C TInt Val(TUint32& aVal,TRadix aRadix); |
|
1178 |
IMPORT_C TInt Val(TInt64& aVal, TRadix aRadix); |
|
1179 |
inline TInt Val(TUint& aVal,TRadix aRadix=EDecimal); |
|
1180 |
IMPORT_C TInt BoundedVal(TInt32& aVal,TInt aLimit); |
|
1181 |
IMPORT_C TInt BoundedVal(TInt64& aVal, const TInt64& aLimit); |
|
1182 |
IMPORT_C TInt BoundedVal(TUint32& aVal,TRadix aRadix,TUint aLimit); |
|
1183 |
IMPORT_C TInt BoundedVal(TInt64& aVal, TRadix aRadix, const TInt64& aLimit); |
|
1184 |
IMPORT_C TInt Val(TReal32& aVal); |
|
1185 |
IMPORT_C TInt Val(TReal32& aVal,TChar aPoint); |
|
1186 |
IMPORT_C TInt Val(TReal64& aVal); |
|
1187 |
IMPORT_C TInt Val(TReal64& aVal,TChar aPoint); |
|
1188 |
inline void Assign(const TLex8& aLex); |
|
1189 |
IMPORT_C void Assign(const TUint8* aString); |
|
1190 |
IMPORT_C void Assign(const TDesC8& aDes); |
|
1191 |
TInt Val(TRealX& aVal); |
|
1192 |
TInt Val(TRealX& aVal, TChar aPoint); |
|
1193 |
||
1194 |
/** @deprecated Use BoundedVal(TInt32& aVal,TInt aLimit) */ |
|
1195 |
inline TInt Val(TInt32& aVal,TInt aLimit) { return BoundedVal(aVal,aLimit); }; |
|
1196 |
||
1197 |
/** @deprecated Use BoundedVal(TInt64& aVal,const TInt64& aLimit) */ |
|
1198 |
inline TInt Val(TInt64& aVal,const TInt64& aLimit) { return BoundedVal(aVal,aLimit); }; |
|
1199 |
||
1200 |
/** @deprecated Use BoundedVal(TUint32& aVal,TRadix aRadix,TUint aLimit) */ |
|
1201 |
inline TInt Val(TUint32& aVal,TRadix aRadix,TUint aLimit) { return BoundedVal(aVal,aRadix,aLimit); }; |
|
1202 |
||
1203 |
/** @deprecated Use BoundedVal(TInt64& aVal,TRadix aRadix,const TInt64& aLimit) */ |
|
1204 |
inline TInt Val(TInt64& aVal,TRadix aRadix,const TInt64& aLimit) { return BoundedVal(aVal,aRadix,aLimit); }; |
|
1205 |
private: |
|
1206 |
void Scndig(TInt& aSig, TInt& aExp, TUint64& aDl); |
|
1207 |
void ScndigAfterPoint(TInt& aSig, TUint64& aDl); |
|
1208 |
void ValidateMark(const TLexMark8 aMark) const; |
|
1209 |
private: |
|
1210 |
const TUint8* iNext; |
|
1211 |
const TUint8* iBuf; |
|
1212 |
const TUint8* iEnd; |
|
1213 |
TLexMark8 iMark; |
|
1214 |
__DECLARE_TEST; |
|
1215 |
}; |
|
1216 |
||
1217 |
||
1218 |
||
1219 |
||
1220 |
/** |
|
1221 |
@publishedAll |
|
1222 |
@released |
|
1223 |
||
1224 |
Defines the extraction mark used by the TLex16 class to indicate the current |
|
1225 |
lexical element being analysed. |
|
1226 |
||
1227 |
In practice, objects of this type are accessed through the TLexMark typedef. |
|
1228 |
||
1229 |
@see TLexMark |
|
1230 |
@see TLex16 |
|
1231 |
*/ |
|
1232 |
class TLexMark16 |
|
1233 |
{ |
|
1234 |
public: |
|
1235 |
inline TLexMark16(); |
|
1236 |
private: |
|
1237 |
inline TLexMark16(const TUint16* aString); |
|
1238 |
const TUint16* iPtr; |
|
1239 |
friend class TLex16; |
|
1240 |
__DECLARE_TEST; |
|
1241 |
}; |
|
1242 |
||
1243 |
||
1244 |
||
1245 |
||
1246 |
/** |
|
1247 |
@publishedAll |
|
1248 |
@released |
|
1249 |
||
1250 |
Provides general string-parsing functions suitable for numeric format |
|
1251 |
conversions and syntactical-element parsing. |
|
1252 |
||
1253 |
The class is the 16-bit variant for Unicode strings and 16-bit wide |
|
1254 |
characters. |
|
1255 |
||
1256 |
An instance of this class stores a string, maintaining an extraction mark |
|
1257 |
to indicate the current lexical element being analysed and a pointer to the |
|
1258 |
next character to be examined. |
|
1259 |
||
1260 |
Objects of this type are normally accessed through the build independent type |
|
1261 |
TLex. |
|
1262 |
||
1263 |
@see TLex |
|
1264 |
*/ |
|
1265 |
class TLex16 |
|
1266 |
{ |
|
1267 |
public: |
|
1268 |
IMPORT_C TLex16(); |
|
1269 |
inline TLex16(const TUint16* aString); |
|
1270 |
inline TLex16(const TDesC16& aDes); |
|
1271 |
inline TLex16& operator=(const TUint16* aString); |
|
1272 |
inline TLex16& operator=(const TDesC16& aDes); |
|
1273 |
inline TBool Eos() const; |
|
1274 |
inline void Mark(); |
|
1275 |
inline void Mark(TLexMark16& aMark) const; |
|
1276 |
IMPORT_C void Inc(); |
|
1277 |
IMPORT_C void Inc(TInt aNumber); |
|
1278 |
IMPORT_C TChar Get(); |
|
1279 |
IMPORT_C TChar Peek() const; |
|
1280 |
IMPORT_C void UnGet(); |
|
1281 |
inline void UnGetToMark(); |
|
1282 |
IMPORT_C void UnGetToMark(const TLexMark16 aMark); |
|
1283 |
IMPORT_C void SkipSpace(); |
|
1284 |
inline void SkipAndMark(TInt aNumber); |
|
1285 |
IMPORT_C void SkipAndMark(TInt aNumber, TLexMark16& aMark); |
|
1286 |
IMPORT_C void SkipSpaceAndMark(TLexMark16& aMark); |
|
1287 |
inline void SkipSpaceAndMark(); |
|
1288 |
IMPORT_C void SkipCharacters(); |
|
1289 |
inline TInt TokenLength() const; |
|
1290 |
IMPORT_C TInt TokenLength(const TLexMark16 aMark) const; |
|
1291 |
IMPORT_C TPtrC16 MarkedToken() const; |
|
1292 |
IMPORT_C TPtrC16 MarkedToken(const TLexMark16 aMark) const; |
|
1293 |
IMPORT_C TPtrC16 NextToken(); |
|
1294 |
IMPORT_C TPtrC16 Remainder() const; |
|
1295 |
IMPORT_C TPtrC16 RemainderFromMark() const; |
|
1296 |
IMPORT_C TPtrC16 RemainderFromMark(const TLexMark16 aMark) const; |
|
1297 |
IMPORT_C TInt Offset() const; |
|
1298 |
inline TInt MarkedOffset() const; |
|
1299 |
IMPORT_C TInt MarkedOffset(const TLexMark16 aMark) const; |
|
1300 |
IMPORT_C TInt Val(TInt8& aVal); |
|
1301 |
IMPORT_C TInt Val(TInt16& aVal); |
|
1302 |
IMPORT_C TInt Val(TInt32& aVal); |
|
1303 |
IMPORT_C TInt Val(TInt64& aVal); |
|
1304 |
inline TInt Val(TInt& aVal); |
|
1305 |
IMPORT_C TInt Val(TUint8& aVal,TRadix aRadix); |
|
1306 |
IMPORT_C TInt Val(TUint16& aVal,TRadix aRadix); |
|
1307 |
IMPORT_C TInt Val(TUint32& aVal,TRadix aRadix); |
|
1308 |
IMPORT_C TInt Val(TInt64& aVal, TRadix aRadix); |
|
1309 |
// inline TInt Val(TInt64& aVal, TRadix aRadix) {return Val(aVal,aRadix);} |
|
1310 |
inline TInt Val(TUint& aVal,TRadix aRadix=EDecimal); |
|
1311 |
IMPORT_C TInt BoundedVal(TInt32& aVal,TInt aLimit); |
|
1312 |
IMPORT_C TInt BoundedVal(TInt64& aVal, const TInt64& aLimit); |
|
1313 |
IMPORT_C TInt BoundedVal(TUint32& aVal,TRadix aRadix,TUint aLimit); |
|
1314 |
IMPORT_C TInt BoundedVal(TInt64& aVal, TRadix aRadix, const TInt64& aLimit); |
|
1315 |
IMPORT_C TInt Val(TReal32& aVal); |
|
1316 |
IMPORT_C TInt Val(TReal32& aVal,TChar aPoint); |
|
1317 |
IMPORT_C TInt Val(TReal64& aVal); |
|
1318 |
IMPORT_C TInt Val(TReal64& aVal,TChar aPoint); |
|
1319 |
inline void Assign(const TLex16& aLex); |
|
1320 |
IMPORT_C void Assign(const TUint16* aString); |
|
1321 |
IMPORT_C void Assign(const TDesC16& aDes); |
|
1322 |
TInt Val(TRealX& aVal); |
|
1323 |
TInt Val(TRealX& aVal, TChar aPoint); |
|
1324 |
||
1325 |
/** @deprecated Use BoundedVal(TInt32& aVal,TInt aLimit) */ |
|
1326 |
inline TInt Val(TInt32& aVal,TInt aLimit) { return BoundedVal(aVal,aLimit); }; |
|
1327 |
||
1328 |
/** @deprecated Use BoundedVal(TInt64& aVal,const TInt64& aLimit) */ |
|
1329 |
inline TInt Val(TInt64& aVal,const TInt64& aLimit) { return BoundedVal(aVal,aLimit); }; |
|
1330 |
||
1331 |
/** @deprecated Use BoundedVal(TUint32& aVal,TRadix aRadix,TUint aLimit) */ |
|
1332 |
inline TInt Val(TUint32& aVal,TRadix aRadix,TUint aLimit) { return BoundedVal(aVal,aRadix,aLimit); }; |
|
1333 |
||
1334 |
/** @deprecated Use BoundedVal(TInt64& aVal,TRadix aRadix,const TInt64& aLimit) */ |
|
1335 |
inline TInt Val(TInt64& aVal,TRadix aRadix,const TInt64& aLimit) { return BoundedVal(aVal,aRadix,aLimit); }; |
|
1336 |
private: |
|
1337 |
void Scndig(TInt& aSig, TInt& aExp, TUint64& aDl); |
|
1338 |
void ValidateMark(const TLexMark16 aMark) const; |
|
1339 |
private: |
|
1340 |
const TUint16* iNext; |
|
1341 |
const TUint16* iBuf; |
|
1342 |
const TUint16* iEnd; |
|
1343 |
TLexMark16 iMark; |
|
1344 |
__DECLARE_TEST; |
|
1345 |
}; |
|
1346 |
||
1347 |
||
1348 |
||
1349 |
||
1350 |
#if defined(_UNICODE) |
|
1351 |
/** |
|
1352 |
@publishedAll |
|
1353 |
@released |
|
1354 |
||
1355 |
Provides access to general string-parsing functions suitable for numeric format |
|
1356 |
conversions and syntactical-element parsing. |
|
1357 |
||
1358 |
It maps directly to either a TLex16 for a Unicode build or a TLex8 for a non-Unicode |
|
1359 |
build. |
|
1360 |
||
1361 |
The build independent type should always be used unless an explicit 16 bit |
|
1362 |
or 8 bit build variant is required. |
|
1363 |
||
1364 |
@see TLex16 |
|
1365 |
@see TLex8 |
|
1366 |
*/ |
|
1367 |
typedef TLex16 TLex; |
|
1368 |
||
1369 |
||
1370 |
||
1371 |
||
1372 |
/** |
|
1373 |
@publishedAll |
|
1374 |
@released |
|
1375 |
||
1376 |
Defines the extraction mark used by the TLex classes to indicate the current |
|
1377 |
lexical element being analysed. |
|
1378 |
||
1379 |
It maps directly to either a TLexMark16 for a Unicode build or a TLexMark8 |
|
1380 |
for a non-Unicode build. |
|
1381 |
||
1382 |
The build independent type should always be used unless an explicit 16 bit |
|
1383 |
or 8 bit build variant is required. |
|
1384 |
*/ |
|
1385 |
typedef TLexMark16 TLexMark; |
|
1386 |
||
1387 |
||
1388 |
||
1389 |
||
1390 |
#else |
|
1391 |
||
1392 |
||
1393 |
||
1394 |
/** |
|
1395 |
@publishedAll |
|
1396 |
@released |
|
1397 |
||
1398 |
Provides access to general string-parsing functions suitable for numeric format |
|
1399 |
conversions and syntactical-element parsing. |
|
1400 |
||
1401 |
It maps directly to either a TLex16 for a Unicode build or a TLex8 for a non-Unicode |
|
1402 |
build. |
|
1403 |
||
1404 |
The build independent type should always be used unless an explicit 16 bit |
|
1405 |
or 8 bit build variant is required. |
|
1406 |
||
1407 |
@see TLex16 |
|
1408 |
@see TLex8 |
|
1409 |
*/ |
|
1410 |
typedef TLex8 TLex; |
|
1411 |
||
1412 |
||
1413 |
||
1414 |
||
1415 |
/** |
|
1416 |
@publishedAll |
|
1417 |
@released |
|
1418 |
||
1419 |
Defines the extraction mark used by the TLex classes to indicate the current |
|
1420 |
lexical element being analysed. |
|
1421 |
||
1422 |
It maps directly to either a TLexMark16 for a Unicode build or a TLexMark8 |
|
1423 |
for a non-Unicode build. |
|
1424 |
||
1425 |
The build independent type should always be used unless an explicit 16 bit |
|
1426 |
or 8 bit build variant is required. |
|
1427 |
*/ |
|
1428 |
typedef TLexMark8 TLexMark; |
|
1429 |
#endif |
|
1430 |
||
1431 |
||
1432 |
||
1433 |
||
1434 |
/** |
|
1435 |
@publishedAll |
|
1436 |
@released |
|
1437 |
||
1438 |
Packages a Uid type together with a checksum. |
|
1439 |
||
1440 |
@see TUidType |
|
1441 |
*/ |
|
1442 |
class TCheckedUid |
|
1443 |
{ |
|
1444 |
public: |
|
1445 |
IMPORT_C TCheckedUid(); |
|
1446 |
IMPORT_C TCheckedUid(const TUidType& aUidType); |
|
1447 |
IMPORT_C TCheckedUid(const TDesC8& aPtr); |
|
1448 |
IMPORT_C void Set(const TUidType& aUidType); |
|
1449 |
IMPORT_C void Set(const TDesC8& aPtr); |
|
1450 |
IMPORT_C TPtrC8 Des() const; |
|
1451 |
inline const TUidType& UidType() const; |
|
1452 |
protected: |
|
1453 |
IMPORT_C TUint Check() const; |
|
1454 |
private: |
|
1455 |
TUidType iType; |
|
1456 |
TUint iCheck; |
|
1457 |
}; |
|
1458 |
||
1459 |
||
1460 |
||
1461 |
||
1462 |
/** |
|
1463 |
@publishedAll |
|
1464 |
@released |
|
1465 |
||
1466 |
A date and time object in which the individual components are accessible in |
|
1467 |
human-readable form. |
|
1468 |
||
1469 |
The individual components are: year, month, day, hour, minute, |
|
1470 |
second and microsecond. |
|
1471 |
||
1472 |
These components are stored as integers and all except the year are checked for |
|
1473 |
validity when a TDateTime is constructed or assigned new values. |
|
1474 |
||
1475 |
This class only supports getting and setting the entire date/time or any component |
|
1476 |
of it. It does not support adding or subtracting intervals to or from a time. |
|
1477 |
For functions which manipulate times, use class TTime. |
|
1478 |
||
1479 |
@see TTime |
|
1480 |
*/ |
|
1481 |
class TDateTime |
|
1482 |
{ |
|
1483 |
public: |
|
1484 |
inline TDateTime(); |
|
1485 |
IMPORT_C TDateTime(TInt aYear,TMonth aMonth,TInt aDay,TInt aHour,TInt aMinute, TInt aSecond,TInt aMicroSecond); |
|
1486 |
IMPORT_C TInt Set(TInt aYear,TMonth aMonth,TInt aDay,TInt aHour,TInt aMinute, TInt aSecond,TInt aMicroSecond); |
|
1487 |
IMPORT_C TInt SetYear(TInt aYear); |
|
1488 |
IMPORT_C TInt SetYearLeapCheck(TInt aYear); |
|
1489 |
IMPORT_C TInt SetMonth(TMonth aMonth); |
|
1490 |
IMPORT_C TInt SetDay(TInt aDay); |
|
1491 |
IMPORT_C TInt SetHour(TInt aHour); |
|
1492 |
IMPORT_C TInt SetMinute(TInt aMinute); |
|
1493 |
IMPORT_C TInt SetSecond(TInt aSecond); |
|
1494 |
IMPORT_C TInt SetMicroSecond(TInt aMicroSecond); |
|
1495 |
inline TInt Year() const; |
|
1496 |
inline TMonth Month() const; |
|
1497 |
inline TInt Day() const; |
|
1498 |
inline TInt Hour() const; |
|
1499 |
inline TInt Minute() const; |
|
1500 |
inline TInt Second() const; |
|
1501 |
inline TInt MicroSecond() const; |
|
1502 |
private: |
|
1503 |
TInt iYear; |
|
1504 |
TMonth iMonth; |
|
1505 |
TInt iDay; |
|
1506 |
TInt iHour; |
|
1507 |
TInt iMinute; |
|
1508 |
TInt iSecond; |
|
1509 |
TInt iMicroSecond; |
|
1510 |
}; |
|
1511 |
||
1512 |
||
1513 |
||
1514 |
||
1515 |
/** |
|
1516 |
@publishedAll |
|
1517 |
@released |
|
1518 |
||
1519 |
Represents a time interval of a millionth of a second stored as |
|
1520 |
a 64-bit integer. |
|
1521 |
||
1522 |
It supports the initialisation, setting and getting of an interval and provides |
|
1523 |
standard comparison operations. Objects of this class can be added to and |
|
1524 |
subtracted from TTime objects. |
|
1525 |
||
1526 |
@see TTime |
|
1527 |
*/ |
|
1528 |
class TTimeIntervalMicroSeconds |
|
1529 |
{ |
|
1530 |
public: |
|
1531 |
inline TTimeIntervalMicroSeconds(); |
|
1532 |
inline TTimeIntervalMicroSeconds(const TInt64& aInterval); |
|
1533 |
inline TTimeIntervalMicroSeconds& operator=(const TInt64& aInterval); |
|
1534 |
inline TBool operator==(const TTimeIntervalMicroSeconds& aInterval) const; |
|
1535 |
inline TBool operator!=(const TTimeIntervalMicroSeconds& aInterval) const; |
|
1536 |
inline TBool operator>=(const TTimeIntervalMicroSeconds& aInterval) const; |
|
1537 |
inline TBool operator<=(const TTimeIntervalMicroSeconds& aInterval) const; |
|
1538 |
inline TBool operator>(const TTimeIntervalMicroSeconds& aInterval) const; |
|
1539 |
inline TBool operator<(const TTimeIntervalMicroSeconds& aInterval) const; |
|
1540 |
inline const TInt64& Int64() const; |
|
1541 |
private: |
|
1542 |
TInt64 iInterval; |
|
1543 |
}; |
|
1544 |
||
1545 |
||
1546 |
||
1547 |
||
1548 |
/** |
|
1549 |
@publishedAll |
|
1550 |
@released |
|
1551 |
||
1552 |
Provides a base class for all time interval classes using |
|
1553 |
a 32-bit representation. |
|
1554 |
||
1555 |
It supports retrieving the interval and provides various operations for |
|
1556 |
comparing intervals. Its concrete derived classes can be added to and |
|
1557 |
subtracted from a TTime. |
|
1558 |
||
1559 |
The comparison operators simply compare the integer representations of the |
|
1560 |
two intervals. They do not take account of different time interval units. |
|
1561 |
So, for example, when comparing for equality an interval of three hours with |
|
1562 |
an interval of three days, the result is true. |
|
1563 |
||
1564 |
@see TTime |
|
1565 |
*/ |
|
1566 |
class TTimeIntervalBase |
|
1567 |
{ |
|
1568 |
public: |
|
1569 |
inline TBool operator==(TTimeIntervalBase aInterval) const; |
|
1570 |
inline TBool operator!=(TTimeIntervalBase aInterval) const; |
|
1571 |
inline TBool operator>=(TTimeIntervalBase aInterval) const; |
|
1572 |
inline TBool operator<=(TTimeIntervalBase aInterval) const; |
|
1573 |
inline TBool operator>(TTimeIntervalBase aInterval) const; |
|
1574 |
inline TBool operator<(TTimeIntervalBase aInterval) const; |
|
1575 |
inline TInt Int() const; |
|
1576 |
protected: |
|
1577 |
inline TTimeIntervalBase(); |
|
1578 |
inline TTimeIntervalBase(TInt aInterval); |
|
1579 |
protected: |
|
1580 |
TInt iInterval; |
|
1581 |
}; |
|
1582 |
||
1583 |
||
1584 |
||
1585 |
||
1586 |
/** |
|
1587 |
@publishedAll |
|
1588 |
@released |
|
1589 |
||
1590 |
Represents a microsecond time interval stored in 32 rather than 64 bits. |
|
1591 |
||
1592 |
Its range is +-2147483647, which is +-35 minutes, 47 seconds. Comparison and |
|
1593 |
interval retrieval functions are provided by the base class TTimeIntervalBase. |
|
1594 |
*/ |
|
1595 |
class TTimeIntervalMicroSeconds32 : public TTimeIntervalBase |
|
1596 |
{ |
|
1597 |
public: |
|
1598 |
inline TTimeIntervalMicroSeconds32(); |
|
1599 |
inline TTimeIntervalMicroSeconds32(TInt aInterval); |
|
1600 |
inline TTimeIntervalMicroSeconds32& operator=(TInt aInterval); |
|
1601 |
}; |
|
1602 |
||
1603 |
||
1604 |
||
1605 |
||
1606 |
/** |
|
1607 |
@publishedAll |
|
1608 |
@released |
|
1609 |
||
1610 |
Represents a time interval in seconds. |
|
1611 |
||
1612 |
Comparison and interval retrieval functions |
|
1613 |
are provided by the base class TTimeIntervalBase. |
|
1614 |
||
1615 |
The range of values which it can represent is +-2147483647, which is equal to |
|
1616 |
+-24855 days (approximately 68 years). |
|
1617 |
*/ |
|
1618 |
class TTimeIntervalSeconds : public TTimeIntervalBase |
|
1619 |
{ |
|
1620 |
public: |
|
1621 |
inline TTimeIntervalSeconds(); |
|
1622 |
inline TTimeIntervalSeconds(TInt aInterval); |
|
1623 |
inline TTimeIntervalSeconds& operator=(TInt aInterval); |
|
1624 |
}; |
|
1625 |
||
1626 |
||
1627 |
||
1628 |
||
1629 |
/** |
|
1630 |
@publishedAll |
|
1631 |
@released |
|
1632 |
||
1633 |
Represents a time interval in minutes. |
|
1634 |
||
1635 |
Comparison and interval retrieval functions |
|
1636 |
are provided by the base class TTimeIntervalBase. |
|
1637 |
*/ |
|
1638 |
class TTimeIntervalMinutes : public TTimeIntervalBase |
|
1639 |
{ |
|
1640 |
public: |
|
1641 |
inline TTimeIntervalMinutes(); |
|
1642 |
inline TTimeIntervalMinutes(TInt aInterval); |
|
1643 |
inline TTimeIntervalMinutes& operator=(TInt aInterval); |
|
1644 |
}; |
|
1645 |
||
1646 |
||
1647 |
||
1648 |
||
1649 |
/** |
|
1650 |
@publishedAll |
|
1651 |
@released |
|
1652 |
||
1653 |
Represents a time interval in hours. |
|
1654 |
||
1655 |
Comparison and interval retrieval functions |
|
1656 |
are provided by the base class TTimeIntervalBase. |
|
1657 |
*/ |
|
1658 |
class TTimeIntervalHours : public TTimeIntervalBase |
|
1659 |
{ |
|
1660 |
public: |
|
1661 |
inline TTimeIntervalHours(); |
|
1662 |
inline TTimeIntervalHours(TInt aInterval); |
|
1663 |
inline TTimeIntervalHours& operator=(TInt aInterval); |
|
1664 |
}; |
|
1665 |
||
1666 |
||
1667 |
||
1668 |
||
1669 |
/** |
|
1670 |
@publishedAll |
|
1671 |
@released |
|
1672 |
||
1673 |
Represents a time interval in days. |
|
1674 |
||
1675 |
Comparison and interval retrieval functions |
|
1676 |
are provided by the base class TTimeIntervalBase. |
|
1677 |
*/ |
|
1678 |
class TTimeIntervalDays : public TTimeIntervalBase |
|
1679 |
{ |
|
1680 |
public: |
|
1681 |
inline TTimeIntervalDays(); |
|
1682 |
inline TTimeIntervalDays(TInt aInterval); |
|
1683 |
inline TTimeIntervalDays& operator=(TInt aInterval); |
|
1684 |
}; |
|
1685 |
||
1686 |
||
1687 |
||
1688 |
||
1689 |
/** |
|
1690 |
@publishedAll |
|
1691 |
@released |
|
1692 |
||
1693 |
Represents a time interval in months. |
|
1694 |
||
1695 |
Comparison and interval retrieval functions |
|
1696 |
are provided by the base class TTimeIntervalBase. |
|
1697 |
*/ |
|
1698 |
class TTimeIntervalMonths : public TTimeIntervalBase |
|
1699 |
{ |
|
1700 |
public: |
|
1701 |
inline TTimeIntervalMonths(); |
|
1702 |
inline TTimeIntervalMonths(TInt aInterval); |
|
1703 |
inline TTimeIntervalMonths& operator=(TInt aInterval); |
|
1704 |
}; |
|
1705 |
||
1706 |
||
1707 |
||
1708 |
||
1709 |
/** |
|
1710 |
@publishedAll |
|
1711 |
@released |
|
1712 |
||
1713 |
Represents a time interval in years. |
|
1714 |
||
1715 |
Comparison and interval retrieval functions |
|
1716 |
are provided by the base class TTimeIntervalBase. |
|
1717 |
*/ |
|
1718 |
class TTimeIntervalYears : public TTimeIntervalBase |
|
1719 |
{ |
|
1720 |
public: |
|
1721 |
inline TTimeIntervalYears(); |
|
1722 |
inline TTimeIntervalYears(TInt aInterval); |
|
1723 |
inline TTimeIntervalYears& operator=(TInt aInterval); |
|
1724 |
}; |
|
1725 |
||
1726 |
||
1727 |
||
1728 |
/** |
|
1729 |
@publishedAll |
|
1730 |
@released |
|
1731 |
||
1732 |
An enumeration one or both of whose enumerator values may be returned |
|
1733 |
by TTime::Parse(). |
|
1734 |
||
1735 |
@see TTime::Parse |
|
1736 |
*/ |
|
1737 |
enum { |
|
1738 |
/** |
|
1739 |
Indicates that a time is present. |
|
1740 |
||
1741 |
@see TTime::Parse |
|
1742 |
*/ |
|
1743 |
EParseTimePresent=0x1, |
|
1744 |
/** |
|
1745 |
Indicates that a date is present. |
|
1746 |
||
1747 |
@see TTime::Parse |
|
1748 |
*/ |
|
1749 |
EParseDatePresent=0x2 |
|
1750 |
}; |
|
1751 |
||
1752 |
||
1753 |
||
1754 |
class TLocale; |
|
1755 |
/** |
|
1756 |
@publishedAll |
|
1757 |
@released |
|
1758 |
||
1759 |
Stores and manipulates the date and time. |
|
1760 |
||
1761 |
It represents a date and time as a number of microseconds since midnight, |
|
1762 |
January 1st, 1 AD nominal Gregorian. BC dates are represented by negative |
|
1763 |
TTime values. A TTime object may be constructed from a TInt64, a TDateTime |
|
1764 |
a string literal, or by default, which initialises the time to an arbitrary |
|
1765 |
value. To access human-readable time information, the TTime may be converted |
|
1766 |
from a TInt64 into a TDateTime, which represents the date and time as seven |
|
1767 |
numeric fields and provides functions to extract these fields. Alternatively, |
|
1768 |
to display the time as text, the time may be formatted and placed into a |
|
1769 |
descriptor using a variety of formatting commands and which may or may not |
|
1770 |
honour the system's locale settings. The conversion between time and text may |
|
1771 |
be performed the other way around, so that a descriptor can be parsed and |
|
1772 |
converted into a TTime value. |
|
1773 |
||
1774 |
In addition to setting and getting the date and time and converting between |
|
1775 |
text and time, TTime provides functions to get intervals between times and |
|
1776 |
standard comparison and arithmetic operators which enable time intervals to |
|
1777 |
be added or subtracted to or from the time. |
|
1778 |
||
1779 |
@see TInt64 |
|
1780 |
@see TDateTime |
|
1781 |
*/ |
|
1782 |
class TTime |
|
1783 |
{ |
|
1784 |
public: |
|
1785 |
inline TTime(); |
|
1786 |
inline TTime(const TInt64& aTime); |
|
1787 |
IMPORT_C TTime(const TDesC& aString); |
|
1788 |
IMPORT_C TTime(const TDateTime& aDateTime); |
|
1789 |
inline TTime& operator=(const TInt64& aTime); |
|
1790 |
IMPORT_C TTime& operator=(const TDateTime& aDateTime); |
|
1791 |
IMPORT_C void HomeTime(); |
|
1792 |
IMPORT_C void UniversalTime(); |
|
1793 |
IMPORT_C TInt Set(const TDesC& aString); |
|
1794 |
IMPORT_C TInt HomeTimeSecure(); |
|
1795 |
IMPORT_C TInt UniversalTimeSecure(); |
|
1796 |
||
1797 |
IMPORT_C TDateTime DateTime() const; |
|
1798 |
IMPORT_C TTimeIntervalMicroSeconds MicroSecondsFrom(TTime aTime) const; |
|
1799 |
IMPORT_C TInt SecondsFrom(TTime aTime,TTimeIntervalSeconds& aInterval) const; |
|
1800 |
IMPORT_C TInt MinutesFrom(TTime aTime,TTimeIntervalMinutes& aInterval) const; |
|
1801 |
IMPORT_C TInt HoursFrom(TTime aTime,TTimeIntervalHours& aInterval) const; |
|
1802 |
IMPORT_C TTimeIntervalDays DaysFrom(TTime aTime) const; |
|
1803 |
IMPORT_C TTimeIntervalMonths MonthsFrom(TTime aTime) const; |
|
1804 |
IMPORT_C TTimeIntervalYears YearsFrom(TTime aTime) const; |
|
1805 |
||
1806 |
IMPORT_C TInt DaysInMonth() const; |
|
1807 |
IMPORT_C TDay DayNoInWeek() const; |
|
1808 |
IMPORT_C TInt DayNoInMonth() const; |
|
1809 |
IMPORT_C TInt DayNoInYear() const; |
|
1810 |
IMPORT_C TInt DayNoInYear(TTime aStartDate) const; |
|
1811 |
IMPORT_C TInt WeekNoInYear() const; |
|
1812 |
IMPORT_C TInt WeekNoInYear(TTime aStartDate) const; |
|
1813 |
IMPORT_C TInt WeekNoInYear(TFirstWeekRule aRule) const; |
|
1814 |
IMPORT_C TInt WeekNoInYear(TTime aStartDate,TFirstWeekRule aRule) const; |
|
1815 |
IMPORT_C void FormatL(TDes& aDes,const TDesC& aFormat) const; |
|
1816 |
IMPORT_C void FormatL(TDes& aDes,const TDesC& aFormat,const TLocale& aLocale) const; |
|
1817 |
IMPORT_C void RoundUpToNextMinute(); |
|
1818 |
IMPORT_C TInt Parse(const TDesC& aDes,TInt aCenturyOffset=0); |
|
1819 |
||
1820 |
IMPORT_C TTime operator+(TTimeIntervalYears aYear) const; |
|
1821 |
IMPORT_C TTime operator+(TTimeIntervalMonths aMonth) const; |
|
1822 |
IMPORT_C TTime operator+(TTimeIntervalDays aDay) const; |
|
1823 |
IMPORT_C TTime operator+(TTimeIntervalHours aHour) const; |
|
1824 |
IMPORT_C TTime operator+(TTimeIntervalMinutes aMinute) const; |
|
1825 |
IMPORT_C TTime operator+(TTimeIntervalSeconds aSecond) const; |
|
1826 |
IMPORT_C TTime operator+(TTimeIntervalMicroSeconds aMicroSecond) const; |
|
1827 |
IMPORT_C TTime operator+(TTimeIntervalMicroSeconds32 aMicroSecond) const; |
|
1828 |
IMPORT_C TTime operator-(TTimeIntervalYears aYear) const; |
|
1829 |
IMPORT_C TTime operator-(TTimeIntervalMonths aMonth) const; |
|
1830 |
IMPORT_C TTime operator-(TTimeIntervalDays aDay) const; |
|
1831 |
IMPORT_C TTime operator-(TTimeIntervalHours aHour) const; |
|
1832 |
IMPORT_C TTime operator-(TTimeIntervalMinutes aMinute) const; |
|
1833 |
IMPORT_C TTime operator-(TTimeIntervalSeconds aSecond) const; |
|
1834 |
IMPORT_C TTime operator-(TTimeIntervalMicroSeconds aMicroSecond) const; |
|
1835 |
IMPORT_C TTime operator-(TTimeIntervalMicroSeconds32 aMicroSecond) const; |
|
1836 |
IMPORT_C TTime& operator+=(TTimeIntervalYears aYear); |
|
1837 |
IMPORT_C TTime& operator+=(TTimeIntervalMonths aMonth); |
|
1838 |
IMPORT_C TTime& operator+=(TTimeIntervalDays aDay); |
|
1839 |
IMPORT_C TTime& operator+=(TTimeIntervalHours aHour); |
|
1840 |
IMPORT_C TTime& operator+=(TTimeIntervalMinutes aMinute); |
|
1841 |
IMPORT_C TTime& operator+=(TTimeIntervalSeconds aSecond); |
|
1842 |
IMPORT_C TTime& operator+=(TTimeIntervalMicroSeconds aMicroSecond); |
|
1843 |
IMPORT_C TTime& operator+=(TTimeIntervalMicroSeconds32 aMicroSecond); |
|
1844 |
IMPORT_C TTime& operator-=(TTimeIntervalYears aYear); |
|
1845 |
IMPORT_C TTime& operator-=(TTimeIntervalMonths aMonth); |
|
1846 |
IMPORT_C TTime& operator-=(TTimeIntervalDays aDay); |
|
1847 |
IMPORT_C TTime& operator-=(TTimeIntervalHours aHour); |
|
1848 |
IMPORT_C TTime& operator-=(TTimeIntervalMinutes aMinute); |
|
1849 |
IMPORT_C TTime& operator-=(TTimeIntervalSeconds aSecond); |
|
1850 |
IMPORT_C TTime& operator-=(TTimeIntervalMicroSeconds aMicroSecond); |
|
1851 |
IMPORT_C TTime& operator-=(TTimeIntervalMicroSeconds32 aMicroSecond); |
|
1852 |
inline TBool operator==(TTime aTime) const; |
|
1853 |
inline TBool operator!=(TTime aTime) const; |
|
1854 |
inline TBool operator>=(TTime aTime) const; |
|
1855 |
inline TBool operator<=(TTime aTime) const; |
|
1856 |
inline TBool operator>(TTime aTime) const; |
|
1857 |
inline TBool operator<(TTime aTime) const; |
|
1858 |
inline const TInt64& Int64() const; |
|
1859 |
private: |
|
1860 |
static TTime Convert(const TDateTime& aDateTime); |
|
1861 |
private: |
|
1862 |
TInt64 iTime; |
|
1863 |
__DECLARE_TEST; |
|
1864 |
}; |
|
1865 |
||
1866 |
||
1867 |
||
1868 |
||
1869 |
/** |
|
1870 |
@publishedAll |
|
1871 |
@released |
|
1872 |
||
1873 |
A utility class whose functions may be used by the other date/time related |
|
1874 |
classes. |
|
1875 |
*/ |
|
1876 |
class Time |
|
1877 |
{ |
|
1878 |
public: |
|
1879 |
IMPORT_C static TTime NullTTime(); |
|
1880 |
IMPORT_C static TTime MaxTTime(); |
|
1881 |
IMPORT_C static TTime MinTTime(); |
|
1882 |
IMPORT_C static TInt DaysInMonth(TInt aYear, TMonth aMonth); |
|
1883 |
IMPORT_C static TBool IsLeapYear(TInt aYear); |
|
1884 |
IMPORT_C static TInt LeapYearsUpTo(TInt aYear); |
|
1885 |
}; |
|
1886 |
||
1887 |
||
1888 |
||
1889 |
||
1890 |
/** |
|
1891 |
@publishedAll |
|
1892 |
@released |
|
1893 |
||
1894 |
Gets a copy of the current locale's full text name for a day of the week. |
|
1895 |
||
1896 |
After construction or after a call to Set(), the copy of the text can be accessed |
|
1897 |
and manipulated using the standard descriptor member functions provided by |
|
1898 |
the base class. |
|
1899 |
||
1900 |
@see KMaxDayName |
|
1901 |
*/ |
|
1902 |
class TDayName : public TBuf<KMaxDayName> |
|
1903 |
{ |
|
1904 |
public: |
|
1905 |
IMPORT_C TDayName(); |
|
1906 |
IMPORT_C TDayName(TDay aDay); |
|
1907 |
IMPORT_C void Set(TDay aDay); |
|
1908 |
}; |
|
1909 |
||
1910 |
||
1911 |
||
1912 |
||
1913 |
/** |
|
1914 |
@publishedAll |
|
1915 |
@released |
|
1916 |
||
1917 |
Gets a copy of the current locale's abbreviated text name for a day of the |
|
1918 |
week. |
|
1919 |
||
1920 |
After construction or after a call to Set(), the copy of the abbreviated text |
|
1921 |
can be accessed and manipulated using the standard descriptor member functions |
|
1922 |
provided by the base class. |
|
1923 |
||
1924 |
The abbreviated day name cannot be assumed to be one character. In English, |
|
1925 |
it is 3 characters (Mon, Tue, Wed etc.), but the length can vary from locale |
|
1926 |
to locale, with a maximum length of KMaxDayNameAbb. |
|
1927 |
||
1928 |
@see KMaxDayNameAbb |
|
1929 |
*/ |
|
1930 |
class TDayNameAbb : public TBuf<KMaxDayNameAbb> |
|
1931 |
{ |
|
1932 |
public: |
|
1933 |
IMPORT_C TDayNameAbb(); |
|
1934 |
IMPORT_C TDayNameAbb(TDay aDay); |
|
1935 |
IMPORT_C void Set(TDay aDay); |
|
1936 |
}; |
|
1937 |
||
1938 |
||
1939 |
||
1940 |
||
1941 |
/** |
|
1942 |
@publishedAll |
|
1943 |
@released |
|
1944 |
||
1945 |
Gets a copy of the current locale's full text name for a month. |
|
1946 |
||
1947 |
After construction or after a call to Set(), the copy of the text can be accessed |
|
1948 |
and manipulated using the standard descriptor member functions provided by |
|
1949 |
the base class. |
|
1950 |
||
1951 |
@see KMaxMonthName |
|
1952 |
*/ |
|
1953 |
class TMonthName : public TBuf<KMaxMonthName> |
|
1954 |
{ |
|
1955 |
public: |
|
1956 |
IMPORT_C TMonthName(); |
|
1957 |
IMPORT_C TMonthName(TMonth aMonth); |
|
1958 |
IMPORT_C void Set(TMonth aMonth); |
|
1959 |
}; |
|
1960 |
||
1961 |
||
1962 |
||
1963 |
||
1964 |
/** |
|
1965 |
@publishedAll |
|
1966 |
@released |
|
1967 |
||
1968 |
Gets a copy of the current locale's abbreviated text name for a month. |
|
1969 |
||
1970 |
After construction or after a call to Set(), the copy of the abbreviated text |
|
1971 |
can be accessed and manipulated using the standard descriptor member functions |
|
1972 |
provided by the base class. |
|
1973 |
||
1974 |
@see KMaxMonthNameAbb |
|
1975 |
*/ |
|
1976 |
class TMonthNameAbb : public TBuf<KMaxMonthNameAbb> |
|
1977 |
{ |
|
1978 |
public: |
|
1979 |
IMPORT_C TMonthNameAbb(); |
|
1980 |
IMPORT_C TMonthNameAbb(TMonth aMonth); |
|
1981 |
IMPORT_C void Set(TMonth aMonth); |
|
1982 |
}; |
|
1983 |
||
1984 |
||
1985 |
||
1986 |
||
1987 |
/** |
|
1988 |
@publishedAll |
|
1989 |
@released |
|
1990 |
||
1991 |
Gets a copy of the current locale's date suffix text for a specific day in |
|
1992 |
the month. |
|
1993 |
||
1994 |
The text is the set of characters which can be appended to dates of the month |
|
1995 |
(e.g. in English, st for 1st, nd for 2nd etc). |
|
1996 |
||
1997 |
After construction or after a call to Set(), the copy of the suffix text can |
|
1998 |
be accessed and manipulated using the standard descriptor member functions |
|
1999 |
provided by the base class. |
|
2000 |
*/ |
|
2001 |
class TDateSuffix : public TBuf<KMaxSuffix> |
|
2002 |
{ |
|
2003 |
public: |
|
2004 |
IMPORT_C TDateSuffix(); |
|
2005 |
IMPORT_C TDateSuffix(TInt aDateSuffix); |
|
2006 |
IMPORT_C void Set(TInt aDateSuffix); |
|
2007 |
}; |
|
2008 |
||
2009 |
||
2010 |
||
2011 |
||
2012 |
/** |
|
2013 |
@publishedAll |
|
2014 |
@released |
|
2015 |
||
2016 |
Current locale's am/pm text |
|
2017 |
||
2018 |
This class retrieves a copy of the current locale's text identifying time |
|
2019 |
before and after noon. In English, this is am and pm. |
|
2020 |
||
2021 |
After construction or after a call to Set(), the copy of the text can be accessed |
|
2022 |
and manipulated using the standard descriptor member functions provided by |
|
2023 |
the base class. |
|
2024 |
*/ |
|
2025 |
class TAmPmName : public TBuf<KMaxAmPmName> |
|
2026 |
{ |
|
2027 |
public: |
|
2028 |
IMPORT_C TAmPmName(); |
|
2029 |
IMPORT_C TAmPmName(TAmPm aSelector); |
|
2030 |
IMPORT_C void Set(TAmPm aSelector); |
|
2031 |
}; |
|
2032 |
||
2033 |
||
2034 |
||
2035 |
||
2036 |
/** |
|
2037 |
@publishedAll |
|
2038 |
@released |
|
2039 |
||
2040 |
Gets a copy of the currency symbol(s) in use by the current locale. |
|
2041 |
||
2042 |
After construction or after a call to TCurrencySymbol::Set(), the copy of |
|
2043 |
the currency symbol(s) can be accessed and manipulated using the standard |
|
2044 |
descriptor member functions provided by the base class. |
|
2045 |
*/ |
|
2046 |
class TCurrencySymbol : public TBuf<KMaxCurrencySymbol> |
|
2047 |
{ |
|
2048 |
public: |
|
2049 |
IMPORT_C TCurrencySymbol(); |
|
2050 |
IMPORT_C void Set(); |
|
2051 |
}; |
|
2052 |
||
2053 |
||
2054 |
||
2055 |
||
2056 |
/** |
|
2057 |
@publishedAll |
|
2058 |
@released |
|
2059 |
||
2060 |
Contains a format list that defines the short date format. |
|
2061 |
||
2062 |
An instance of this class should be passed as the second argument |
|
2063 |
to TTime::FormatL(). |
|
2064 |
The string does not include any time components. The content of the long |
|
2065 |
date format specification is taken from the system-wide settings. |
|
2066 |
||
2067 |
For example, in the English locale, the short date format would be something |
|
2068 |
like 14/1/2000. |
|
2069 |
||
2070 |
This class is used as follows: |
|
2071 |
||
2072 |
@code |
|
2073 |
TTime now; |
|
2074 |
now.HomeTime(); |
|
2075 |
TBuf<KMaxShortDateFormatSpec*2> buffer; |
|
2076 |
now.FormatL(buffer,TShortDateFormatSpec()); |
|
2077 |
@endcode |
|
2078 |
||
2079 |
@see KMaxShortDateFormatSpec |
|
2080 |
@see TTime::FormatL |
|
2081 |
*/ |
|
2082 |
class TShortDateFormatSpec : public TBuf<KMaxShortDateFormatSpec> // to be passed into TTime::FormatL |
|
2083 |
{ |
|
2084 |
public: |
|
2085 |
IMPORT_C TShortDateFormatSpec(); |
|
2086 |
IMPORT_C void Set(); |
|
2087 |
}; |
|
2088 |
||
2089 |
||
2090 |
||
2091 |
||
2092 |
/** |
|
2093 |
@publishedAll |
|
2094 |
@released |
|
2095 |
||
2096 |
Contains a format list that defines the long date format. |
|
2097 |
||
2098 |
An instance of this class should be passed as the second argument |
|
2099 |
to TTime::FormatL(). |
|
2100 |
The string does not include any time components. The content of the long |
|
2101 |
date format specification is taken from the system-wide settings. |
|
2102 |
||
2103 |
For example, in the English locale, the long date format would be |
|
2104 |
something like 14th January 2000. |
|
2105 |
||
2106 |
This class is used as follows: |
|
2107 |
||
2108 |
@code |
|
2109 |
TTime now; |
|
2110 |
now.HomeTime(); |
|
2111 |
TBuf<KMaxLongDateFormatSpec*2> buffer; |
|
2112 |
now.FormatL(buffer,TLongDateFormatSpec()); |
|
2113 |
@endcode |
|
2114 |
||
2115 |
@see KMaxLongDateFormatSpec |
|
2116 |
@see TTime::FormatL |
|
2117 |
*/ |
|
2118 |
class TLongDateFormatSpec : public TBuf<KMaxLongDateFormatSpec> // to be passed into TTime::FormatL |
|
2119 |
{ |
|
2120 |
public: |
|
2121 |
IMPORT_C TLongDateFormatSpec(); |
|
2122 |
IMPORT_C void Set(); |
|
2123 |
}; |
|
2124 |
||
2125 |
||
2126 |
||
2127 |
||
2128 |
/** |
|
2129 |
@publishedAll |
|
2130 |
@released |
|
2131 |
||
2132 |
Contains a format list that defines the time string format. |
|
2133 |
||
2134 |
An instance of this class should be passed as the second argument |
|
2135 |
to TTime::FormatL(). |
|
2136 |
The string does not include any time components. The content of the time format |
|
2137 |
specification is taken from the system-wide settings. |
|
2138 |
||
2139 |
This class is used as follows: |
|
2140 |
||
2141 |
@code |
|
2142 |
TTime now; |
|
2143 |
now.HomeTime(); |
|
2144 |
TBuf<KMaxTimeFormatSpec*2> buffer; |
|
2145 |
now.FormatL(buffer,TTimeFormatSpec()); |
|
2146 |
@endcode |
|
2147 |
||
2148 |
@see KMaxTimeFormatSpec |
|
2149 |
@see TTime::FormatL |
|
2150 |
*/ |
|
2151 |
class TTimeFormatSpec : public TBuf<KMaxTimeFormatSpec> // to be passed into TTime::FormatL |
|
2152 |
{ |
|
2153 |
public: |
|
2154 |
IMPORT_C TTimeFormatSpec(); |
|
2155 |
IMPORT_C void Set(); |
|
2156 |
}; |
|
2157 |
||
2158 |
||
2159 |
||
2160 |
||
2161 |
/** |
|
2162 |
@publishedAll |
|
2163 |
@released |
|
2164 |
||
2165 |
Sets and gets the system's locale settings. |
|
2166 |
||
2167 |
Symbian OS maintains the locale information internally. On |
|
2168 |
construction, this object is initialized with the system information |
|
2169 |
for all locale items. |
|
2170 |
*/ |
|
2171 |
class TLocale |
|
2172 |
{ |
|
2173 |
public: |
|
2174 |
||
2175 |
/** |
|
2176 |
Indicates how negative currency values are formatted. |
|
2177 |
*/ |
|
2178 |
enum TNegativeCurrencyFormat |
|
2179 |
{ |
|
2180 |
/** |
|
2181 |
A minus sign is inserted before the currency symbol and value. |
|
2182 |
*/ |
|
2183 |
ELeadingMinusSign, |
|
2184 |
||
2185 |
/** |
|
2186 |
The currency value and symbol are enclosed in brackets (no minus sign |
|
2187 |
is used). |
|
2188 |
*/ |
|
2189 |
EInBrackets, //this one must be non-zero for binary compatibility with the old TBool TLocale::iCurrencyNegativeInBrackets which was exposed in the binary interface because it was accessed via *inline* functions |
|
2190 |
||
2191 |
/** |
|
2192 |
A minus sign is inserted after the currency symbol and value. |
|
2193 |
*/ |
|
2194 |
ETrailingMinusSign, |
|
2195 |
||
2196 |
/** |
|
2197 |
A minus sign is inserted between the currency symbol and the value. |
|
2198 |
*/ |
|
2199 |
EInterveningMinusSign |
|
2200 |
}; |
|
2201 |
||
2202 |
/** |
|
2203 |
Flags for negative currency values formatting |
|
2204 |
*/ |
|
2205 |
enum |
|
2206 |
{ |
|
2207 |
/** |
|
2208 |
If this flag is set and the currency value being formatted is negative, |
|
2209 |
if there is a space between the currency symbol and the value, |
|
2210 |
that space is lost. |
|
2211 |
*/ |
|
2212 |
EFlagNegativeLoseSpace = 0x00000001, |
|
2213 |
||
2214 |
/** |
|
2215 |
If this flag is set and the currency value being formatted is negative, |
|
2216 |
the position of the currency symbol is placed in the opposite direction |
|
2217 |
from the position set for the positive currency value. |
|
2218 |
*/ |
|
2219 |
EFlagNegativeCurrencySymbolOpposite=0x00000002 |
|
2220 |
}; |
|
2221 |
/** Indicates how the device universal time is maintained */ |
|
2222 |
enum TDeviceTimeState |
|
2223 |
{ |
|
2224 |
/** Universal time is maintained by the device RTC and the user selection |
|
2225 |
of the locale of the device indicating offset from GMT and daylight saving*/ |
|
2226 |
EDeviceUserTime, |
|
2227 |
||
2228 |
/** Universal time and offset from GMT is supplied by the mobile network |
|
2229 |
and maintained by device RTC */ |
|
2230 |
ENITZNetworkTimeSync |
|
2231 |
}; |
|
2232 |
public: |
|
2233 |
IMPORT_C TLocale(); |
|
2234 |
inline TLocale(TInt); |
|
2235 |
IMPORT_C void Refresh(); |
|
2236 |
IMPORT_C TInt Set() const; |
|
2237 |
IMPORT_C void FormatCurrency(TDes& aText, TInt aAmount); |
|
2238 |
IMPORT_C void FormatCurrency(TDes& aText, TInt64 aAmount); |
|
2239 |
IMPORT_C void FormatCurrency(TDes& aText, TDesOverflow& aOverflowHandler, TInt aAmount); |
|
2240 |
IMPORT_C void FormatCurrency(TDes& aText, TDesOverflow& aOverflowHandler, TInt64 aAmount); |
|
2241 |
||
2242 |
inline TInt CountryCode() const; |
|
2243 |
inline void SetCountryCode(TInt aCode); |
|
2244 |
inline TTimeIntervalSeconds UniversalTimeOffset() const; |
|
2245 |
inline TDateFormat DateFormat() const; |
|
2246 |
inline void SetDateFormat(TDateFormat aFormat); |
|
2247 |
inline TTimeFormat TimeFormat() const; |
|
2248 |
inline void SetTimeFormat(TTimeFormat aFormat); |
|
2249 |
inline TLocalePos CurrencySymbolPosition() const; |
|
2250 |
inline void SetCurrencySymbolPosition(TLocalePos aPos); |
|
2251 |
inline TBool CurrencySpaceBetween() const; |
|
2252 |
inline void SetCurrencySpaceBetween(TBool aSpace); |
|
2253 |
inline TInt CurrencyDecimalPlaces() const; |
|
2254 |
inline void SetCurrencyDecimalPlaces(TInt aPlaces); |
|
2255 |
inline TBool CurrencyNegativeInBrackets() const; // These two functions are deprecated |
|
2256 |
inline void SetCurrencyNegativeInBrackets(TBool aBool); // They are here to maintain compatibility. Use the New functions -> NegativeCurrencyFormat setter/getter. |
|
2257 |
inline TBool CurrencyTriadsAllowed() const; |
|
2258 |
inline void SetCurrencyTriadsAllowed(TBool aBool); |
|
2259 |
inline TChar ThousandsSeparator() const; |
|
2260 |
inline void SetThousandsSeparator(const TChar& aChar); |
|
2261 |
inline TChar DecimalSeparator() const; |
|
2262 |
inline void SetDecimalSeparator(const TChar& aChar); |
|
2263 |
inline TChar DateSeparator(TInt aIndex) const; |
|
2264 |
inline void SetDateSeparator(const TChar& aChar,TInt aIndex); |
|
2265 |
inline TChar TimeSeparator(TInt aIndex) const; |
|
2266 |
inline void SetTimeSeparator(const TChar& aChar,TInt aIndex); |
|
2267 |
inline TBool AmPmSpaceBetween() const; |
|
2268 |
inline void SetAmPmSpaceBetween(TBool aSpace); |
|
2269 |
inline TLocalePos AmPmSymbolPosition() const; |
|
2270 |
inline void SetAmPmSymbolPosition(TLocalePos aPos); |
|
2271 |
inline TUint DaylightSaving() const; |
|
2272 |
inline TBool QueryHomeHasDaylightSavingOn() const; |
|
2273 |
inline TDaylightSavingZone HomeDaylightSavingZone() const; |
|
2274 |
inline TUint WorkDays() const; |
|
2275 |
inline void SetWorkDays(TUint aMask); |
|
2276 |
inline TDay StartOfWeek() const; |
|
2277 |
inline void SetStartOfWeek(TDay aDay); |
|
2278 |
inline TClockFormat ClockFormat() const; |
|
2279 |
inline void SetClockFormat(TClockFormat aFormat); |
|
2280 |
inline TUnitsFormat UnitsGeneral() const; |
|
2281 |
inline void SetUnitsGeneral(TUnitsFormat aFormat); |
|
2282 |
inline TUnitsFormat UnitsDistanceShort() const; |
|
2283 |
inline void SetUnitsDistanceShort(TUnitsFormat aFormat); |
|
2284 |
inline TUnitsFormat UnitsDistanceLong() const; |
|
2285 |
inline void SetUnitsDistanceLong(TUnitsFormat aFormat); |
|
2286 |
inline TNegativeCurrencyFormat NegativeCurrencyFormat() const; |
|
2287 |
inline void SetNegativeCurrencyFormat(TNegativeCurrencyFormat aNegativeCurrencyFormat); |
|
2288 |
inline TBool NegativeLoseSpace() const; |
|
2289 |
inline void SetNegativeLoseSpace(TBool aBool); |
|
2290 |
inline TBool NegativeCurrencySymbolOpposite() const; |
|
2291 |
inline void SetNegativeCurrencySymbolOpposite(TBool aBool); |
|
2292 |
inline TLanguage LanguageDowngrade(TInt aIndex) const; // 0 <= aIndex < 3 |
|
2293 |
inline void SetLanguageDowngrade(TInt aIndex, TLanguage aLanguage); |
|
2294 |
inline TDigitType DigitType() const; |
|
2295 |
inline void SetDigitType(TDigitType aDigitType); |
|
2296 |
inline TDeviceTimeState DeviceTime() const; |
|
2297 |
inline void SetDeviceTime(TDeviceTimeState aState); |
|
2298 |
inline TInt RegionCode() const; |
|
2299 |
||
2300 |
void SetDefaults(); /**< @internalComponent */ |
|
2301 |
||
2302 |
private: |
|
2303 |
friend class TExtendedLocale; |
|
2304 |
private: |
|
2305 |
TInt iCountryCode; |
|
2306 |
TTimeIntervalSeconds iUniversalTimeOffset; |
|
2307 |
TDateFormat iDateFormat; |
|
2308 |
TTimeFormat iTimeFormat; |
|
2309 |
TLocalePos iCurrencySymbolPosition; |
|
2310 |
TBool iCurrencySpaceBetween; |
|
2311 |
TInt iCurrencyDecimalPlaces; |
|
2312 |
TNegativeCurrencyFormat iNegativeCurrencyFormat; // replaced TBool iCurrencyNegativeInBrackets |
|
2313 |
TBool iCurrencyTriadsAllowed; |
|
2314 |
TChar iThousandsSeparator; |
|
2315 |
TChar iDecimalSeparator; |
|
2316 |
TChar iDateSeparator[KMaxDateSeparators]; |
|
2317 |
TChar iTimeSeparator[KMaxTimeSeparators]; |
|
2318 |
TLocalePos iAmPmSymbolPosition; |
|
2319 |
TBool iAmPmSpaceBetween; |
|
2320 |
TUint iDaylightSaving; |
|
2321 |
TDaylightSavingZone iHomeDaylightSavingZone; |
|
2322 |
TUint iWorkDays; |
|
2323 |
TDay iStartOfWeek; |
|
2324 |
TClockFormat iClockFormat; |
|
2325 |
TUnitsFormat iUnitsGeneral; |
|
2326 |
TUnitsFormat iUnitsDistanceShort; |
|
2327 |
TUnitsFormat iUnitsDistanceLong; |
|
2328 |
TUint iExtraNegativeCurrencyFormatFlags; |
|
2329 |
TUint16 iLanguageDowngrade[3]; |
|
2330 |
TUint16 iRegionCode; |
|
2331 |
TDigitType iDigitType; |
|
2332 |
TDeviceTimeState iDeviceTimeState; |
|
2333 |
TInt iSpare[0x1E]; |
|
2334 |
}; |
|
2335 |
||
2336 |
/** |
|
2337 |
@publishedAll |
|
2338 |
@released |
|
2339 |
||
2340 |
TLocaleAspect |
|
2341 |
||
2342 |
Enumeration used with TExtendedLocale::LoadLocaleAspect to select which |
|
2343 |
locale information is to be replaced from the contents of the Locale |
|
2344 |
DLL being loaded. |
|
2345 |
||
2346 |
ELocaleLanguageSettings - Replaces everything that should change with |
|
2347 |
language selection e.g. Month names, Day names, |
|
2348 |
etc, |
|
2349 |
||
2350 |
ELocaleLocaleSettings - Replaces the currently selected currency symbol, |
|
2351 |
TLocale settings, and FAT utility functions |
|
2352 |
||
2353 |
ELocaleTimeAndDateSettings - Replaces the current time and date display |
|
2354 |
format settings. |
|
2355 |
||
2356 |
ELocaleCollateSettings - Replaces the "system" preferred Charset |
|
2357 |
(because that's where the collation table |
|
2358 |
is!). The "Default" charset will remain |
|
2359 |
unchanged until after the next power |
|
2360 |
off/on cycle |
|
2361 |
*/ |
|
2362 |
enum TLocaleAspect |
|
2363 |
{ |
|
2364 |
ELocaleLanguageSettings = 0x01, |
|
2365 |
ELocaleCollateSetting = 0x02, |
|
2366 |
ELocaleLocaleSettings = 0x04, |
|
2367 |
ELocaleTimeDateSettings = 0x08, |
|
2368 |
}; |
|
2369 |
||
2370 |
/** |
|
2371 |
@internalComponent |
|
2372 |
*/ |
|
2373 |
struct SLocaleLanguage |
|
2374 |
{ |
|
2375 |
TLanguage iLanguage; |
|
2376 |
const TText* iDateSuffixTable; |
|
2377 |
const TText* iDayTable; |
|
2378 |
const TText* iDayAbbTable; |
|
2379 |
const TText* iMonthTable; |
|
2380 |
const TText* iMonthAbbTable; |
|
2381 |
const TText* iAmPmTable; |
|
2382 |
const TText16* const* iMsgTable; |
|
2383 |
}; |
|
2384 |
||
2385 |
/** |
|
2386 |
@internalComponent |
|
2387 |
*/ |
|
2388 |
struct SLocaleLocaleSettings |
|
2389 |
{ |
|
2390 |
TText iCurrencySymbol[KMaxCurrencySymbol+1]; |
|
2391 |
TAny* iLocaleExtraSettingsDllPtr; |
|
2392 |
}; |
|
2393 |
||
2394 |
/** |
|
2395 |
@internalComponent |
|
2396 |
*/ |
|
2397 |
struct SLocaleTimeDateFormat |
|
2398 |
{ |
|
2399 |
TText iShortDateFormatSpec[KMaxShortDateFormatSpec+1]; |
|
2400 |
TText iLongDateFormatSpec[KMaxLongDateFormatSpec+1]; |
|
2401 |
TText iTimeFormatSpec[KMaxTimeFormatSpec+1]; |
|
2402 |
TAny* iLocaleTimeDateFormatDllPtr; |
|
2403 |
}; |
|
2404 |
||
2405 |
struct LCharSet; |
|
2406 |
||
2407 |
/** |
|
2408 |
@publishedAll |
|
2409 |
@released |
|
2410 |
||
2411 |
Extended locale class |
|
2412 |
||
2413 |
This class holds a collection of locale information. It contains a TLocale internally. |
|
2414 |
It has methods to load a locale DLL and to set the system wide locale information. |
|
2415 |
||
2416 |
*/ |
|
2417 |
class TExtendedLocale |
|
2418 |
{ |
|
2419 |
public: |
|
2420 |
||
2421 |
// Default constructor, create an empty instance |
|
2422 |
IMPORT_C TExtendedLocale(); |
|
2423 |
||
2424 |
// Initialise to (or restore from!) current system wide locale |
|
2425 |
// settings |
|
2426 |
IMPORT_C void LoadSystemSettings(); |
|
2427 |
||
2428 |
// Overwrite current system wide locale settings with the current |
|
2429 |
// contents of this TExtendedLocale |
|
2430 |
IMPORT_C TInt SaveSystemSettings(); |
|
2431 |
||
2432 |
//load a complete locale data from a single locale dll |
|
2433 |
IMPORT_C TInt LoadLocale(const TDesC& aLocaleDllName); |
|
2434 |
||
2435 |
//load a complete locale data from three locale dlls, which are language lcoale dll, region locale dll, and collation locale dll. |
|
2436 |
IMPORT_C TInt LoadLocale(const TDesC& aLanguageLocaleDllName, const TDesC& aRegionLocaleDllName, const TDesC& aCollationLocaleDllName); |
|
2437 |
||
2438 |
// Load an additional Locale DLL and over-ride a selected subset |
|
2439 |
// (currently ELocaleLanguageSettings to select an alternative set |
|
2440 |
// of language specific text strings, ELocaleCollateSetting to |
|
2441 |
// select a new system collation table, |
|
2442 |
// ELocaleOverRideMatchCollationTable to locally select an |
|
2443 |
// alternative collation order for matching text strings, or |
|
2444 |
// ELocaleOverRideSortCollationTable for ordering text strings) |
|
2445 |
// of settings with its contents |
|
2446 |
IMPORT_C TInt LoadLocaleAspect(TUint aAspectGroup, const TDesC& aLocaleDllName); |
|
2447 |
||
2448 |
//load a locale aspect from a locale dll. |
|
2449 |
//Such as load language locale aspect from locale language dll; |
|
2450 |
//load region locale aspect from locale region dll; |
|
2451 |
//load collation locale aspect from locale collation dll. |
|
2452 |
//There are in all three aspect, which are langauge, region, and collation. |
|
2453 |
IMPORT_C TInt LoadLocaleAspect(const TDesC& aLocaleDllName); |
|
2454 |
||
2455 |
// Set the currency Symbol |
|
2456 |
IMPORT_C TInt SetCurrencySymbol(const TDesC &aSymbol); |
|
2457 |
||
2458 |
// Get the name of the DLL holding the data for a particular set |
|
2459 |
// of Locale properties |
|
2460 |
IMPORT_C TInt GetLocaleDllName(TLocaleAspect aLocaleDataSet, TDes& aDllName); |
|
2461 |
||
2462 |
// Get the preferred collation method. |
|
2463 |
// Note that some Charsets may contain more than one Collation |
|
2464 |
// method (e.g "dictionary" v "phonebook" ordering) so an optional |
|
2465 |
// index parameter can be used to select between them |
|
2466 |
IMPORT_C TCollationMethod GetPreferredCollationMethod(TInt index = 0) ; |
|
2467 |
||
2468 |
//Get the Currency Symbol |
|
2469 |
IMPORT_C TPtrC GetCurrencySymbol(); |
|
2470 |
||
2471 |
//Get the Long Date Format |
|
2472 |
IMPORT_C TPtrC GetLongDateFormatSpec(); |
|
2473 |
||
2474 |
//Get the Short Date Format |
|
2475 |
IMPORT_C TPtrC GetShortDateFormatSpec(); |
|
2476 |
||
2477 |
//Get the Time Format |
|
2478 |
IMPORT_C TPtrC GetTimeFormatSpec(); |
|
2479 |
||
2480 |
// Retrieve a reference to the encapsulated TLocale |
|
2481 |
inline TLocale* GetLocale(); |
|
2482 |
||
2483 |
private: |
|
2484 |
||
2485 |
TInt DoLoadLocale(const TDesC& aLocaleDllName, TLibraryFunction* aExportList); |
|
2486 |
void DoUpdateLanguageSettings(TLibraryFunction* aExportList); |
|
2487 |
void DoUpdateLocaleSettings(TLibraryFunction* aExportList); |
|
2488 |
void DoUpdateTimeDateFormat(TLibraryFunction* aExportList); |
|
2489 |
||
2490 |
#ifdef SYMBIAN_DISTINCT_LOCALE_MODEL |
|
2491 |
void DoUpdateLanguageSettingsV2(TLibraryFunction* aExportList); |
|
2492 |
void DoUpdateLocaleSettingsV2(TLibraryFunction* aExportList); |
|
2493 |
TInt CheckLocaleDllName(const TDesC& aLocaleDllName, TInt& languageID); |
|
2494 |
void AddExtension(TDes& aFileName, TInt aExtension); |
|
2495 |
#endif |
|
2496 |
||
2497 |
private: |
|
2498 |
||
2499 |
TLocale iLocale; |
|
2500 |
SLocaleLanguage iLanguageSettings; |
|
2501 |
SLocaleLocaleSettings iLocaleExtraSettings; |
|
2502 |
SLocaleTimeDateFormat iLocaleTimeDateFormat; |
|
2503 |
const LCharSet* iDefaultCharSet; |
|
2504 |
const LCharSet* iPreferredCharSet; |
|
2505 |
}; |
|
2506 |
||
2507 |
||
2508 |
||
2509 |
||
2510 |
/** |
|
2511 |
@publishedAll |
|
2512 |
@released |
|
2513 |
||
2514 |
Geometric rectangle. |
|
2515 |
||
2516 |
The class represents a rectangle whose sides are parallel with the axes of |
|
2517 |
the co-ordinate system. |
|
2518 |
||
2519 |
The co-ordinates of the top-left and bottom-right corners are used to set |
|
2520 |
the dimensions of the rectangle. The bottom right co-ordinate is outside the |
|
2521 |
rectangle. Thus TRect(TPoint(2,2),TSize(4,4)) is equal |
|
2522 |
to TRect(TPoint(2,2),TPoint(6,6)), |
|
2523 |
and in both cases you get a 4x4 pixel rectangle on the screen. |
|
2524 |
||
2525 |
Functions are provided to initialise and manipulate the rectangle and to extract |
|
2526 |
information about it. |
|
2527 |
*/ |
|
2528 |
class TRect |
|
2529 |
{ |
|
2530 |
public: |
|
2531 |
enum TUninitialized { EUninitialized }; |
|
2532 |
/** |
|
2533 |
Constructs a default rectangle. |
|
2534 |
||
2535 |
This initialises the co-ordinates of its top |
|
2536 |
left and bottom right corners to (0,0). |
|
2537 |
*/ |
|
2538 |
TRect(TUninitialized) {} |
|
2539 |
IMPORT_C TRect(); |
|
2540 |
IMPORT_C TRect(TInt aAx,TInt aAy,TInt aBx,TInt aBy); |
|
2541 |
IMPORT_C TRect(const TPoint& aPointA,const TPoint& aPointB); |
|
2542 |
IMPORT_C TRect(const TPoint& aPoint,const TSize& aSize); |
|
2543 |
IMPORT_C TRect(const TSize& aSize); |
|
2544 |
IMPORT_C TBool operator==(const TRect& aRect) const; |
|
2545 |
IMPORT_C TBool operator!=(const TRect& aRect) const; |
|
2546 |
IMPORT_C void SetRect(TInt aAx,TInt aAy,TInt aBx,TInt aBy); |
|
2547 |
IMPORT_C void SetRect(const TPoint& aPointTL,const TPoint& aPointBR); |
|
2548 |
IMPORT_C void SetRect(const TPoint& aPoint,const TSize& aSize); |
|
2549 |
IMPORT_C void Move(TInt aDx,TInt aDy); |
|
2550 |
IMPORT_C void Move(const TPoint& aOffset); |
|
2551 |
IMPORT_C void Resize(TInt aDx,TInt aDy); |
|
2552 |
IMPORT_C void Resize(const TSize& aSize); |
|
2553 |
IMPORT_C void Shrink(TInt aDx,TInt aDy); |
|
2554 |
IMPORT_C void Shrink(const TSize& aSize); |
|
2555 |
IMPORT_C void Grow(TInt aDx,TInt aDy); |
|
2556 |
IMPORT_C void Grow(const TSize& aSize); |
|
2557 |
IMPORT_C void BoundingRect(const TRect& aRect); |
|
2558 |
IMPORT_C TBool IsEmpty() const; |
|
2559 |
IMPORT_C TBool Intersects(const TRect& aRect) const; |
|
2560 |
IMPORT_C void Intersection(const TRect& aRect); |
|
2561 |
IMPORT_C void Normalize(); |
|
2562 |
IMPORT_C TBool Contains(const TPoint& aPoint) const; |
|
2563 |
IMPORT_C TSize Size() const; |
|
2564 |
IMPORT_C TInt Width() const; |
|
2565 |
IMPORT_C TInt Height() const; |
|
2566 |
IMPORT_C TBool IsNormalized() const; |
|
2567 |
IMPORT_C TPoint Center() const; |
|
2568 |
IMPORT_C void SetSize(const TSize& aSize); |
|
2569 |
IMPORT_C void SetWidth(TInt aWidth); |
|
2570 |
IMPORT_C void SetHeight(TInt aHeight); |
|
2571 |
private: |
|
2572 |
void Adjust(TInt aDx,TInt aDy); |
|
2573 |
public: |
|
2574 |
/** |
|
2575 |
The x and y co-ordinates of the top left hand corner of the rectangle. |
|
2576 |
*/ |
|
2577 |
TPoint iTl; |
|
2578 |
||
2579 |
/** |
|
2580 |
The x and y co-ordinates of the bottom right hand corner of the rectangle. |
|
2581 |
*/ |
|
2582 |
TPoint iBr; |
|
2583 |
}; |
|
2584 |
||
2585 |
||
2586 |
||
2587 |
||
2588 |
/** |
|
2589 |
@publishedAll |
|
2590 |
@released |
|
2591 |
||
2592 |
Clipping region - abstract base class. |
|
2593 |
||
2594 |
This abstract base class represents a 2-dimensional area which is used by |
|
2595 |
Graphics, the graphics window server, and the text window server to define |
|
2596 |
regions of the display which need to be updated, or regions within which all |
|
2597 |
operations must occur. |
|
2598 |
||
2599 |
A TRegion is defined in terms of an array of TRects and the more complex the |
|
2600 |
region, the more TRects are required to represent it. |
|
2601 |
||
2602 |
A clipping region initially has space allocated for five rectangles. |
|
2603 |
If manipulations result in a region which requires more than this, an attempt |
|
2604 |
is made to allocate more rectangles. If this cannot be done, an error flag |
|
2605 |
is set, and all subsequent operations involving the region have no effect |
|
2606 |
(except possibly to propagate the error flag to other regions). |
|
2607 |
The CheckError() member function allows |
|
2608 |
the error flag to be tested; Clear() can be used to clear it. |
|
2609 |
||
2610 |
The redraw logic of application programs may use the TRegion in various ways: |
|
2611 |
||
2612 |
1. minimally, they pass it to the graphics context as the clipping region; when |
|
2613 |
a graphics context is activated to a window, the clipping region is set up |
|
2614 |
automatically |
|
2615 |
||
2616 |
2. if they wish to avoid redrawing objects which are outside the general area |
|
2617 |
of the region, they may use TRegion::BoundingRect() to return the rectangle |
|
2618 |
which bounds the clipping region, and draw only primitives that lie within |
|
2619 |
that rectangle |
|
2620 |
||
2621 |
3. if they wish to exercise finer control, they may extract the individual rectangles |
|
2622 |
that comprise the clipping region using Operator[](). |
|
2623 |
||
2624 |
Application programs may also manipulate clipping regions in order to constrain |
|
2625 |
parts of their redrawing to narrower areas of the screen than the clipping |
|
2626 |
region offered by the window server. To do this, functions that allow clipping |
|
2627 |
region manipulation may be used; for example, adding or removing rectangles |
|
2628 |
or finding the intersection or union of two regions. |
|
2629 |
*/ |
|
2630 |
class TRegion |
|
2631 |
{ |
|
2632 |
public: |
|
2633 |
inline TInt Count() const; |
|
2634 |
inline const TRect* RectangleList() const; |
|
2635 |
inline TBool CheckError() const; |
|
2636 |
IMPORT_C TBool IsEmpty() const; |
|
2637 |
IMPORT_C TRect BoundingRect() const; |
|
2638 |
IMPORT_C const TRect& operator[](TInt aIndex) const; |
|
2639 |
IMPORT_C void Copy(const TRegion& aRegion); |
|
2640 |
IMPORT_C void AddRect(const TRect& aRect); |
|
2641 |
IMPORT_C void SubRect(const TRect& aRect,TRegion* aSubtractedRegion=NULL); |
|
2642 |
IMPORT_C void Offset(TInt aXoffset,TInt aYoffset); |
|
2643 |
IMPORT_C void Offset(const TPoint& aOffset); |
|
2644 |
IMPORT_C void Union(const TRegion& aRegion); |
|
2645 |
IMPORT_C void Intersection(const TRegion& aRegion,const TRegion& aRegion2); |
|
2646 |
IMPORT_C void Intersect(const TRegion& aRegion); |
|
2647 |
IMPORT_C void SubRegion(const TRegion& aRegion,TRegion* aSubtractedRegion=NULL); |
|
2648 |
IMPORT_C void ClipRect(const TRect& aRect); |
|
2649 |
IMPORT_C void Clear(); |
|
2650 |
IMPORT_C void Tidy(); |
|
2651 |
IMPORT_C TInt Sort(); |
|
2652 |
IMPORT_C TInt Sort(const TPoint& aOffset); |
|
2653 |
IMPORT_C void ForceError(); |
|
2654 |
IMPORT_C TBool IsContainedBy(const TRect& aRect) const; |
|
2655 |
IMPORT_C TBool Contains(const TPoint& aPoint) const; |
|
2656 |
IMPORT_C TBool Intersects(const TRect& aRect) const; |
|
2657 |
protected: |
|
2658 |
IMPORT_C TRect* RectangleListW(); |
|
2659 |
IMPORT_C TRegion(TInt aAllocedRects); |
|
2660 |
inline TRegion(); |
|
2661 |
TBool SetListSize(TInt aCount); |
|
2662 |
void AppendRect(const TRect& aRect); |
|
2663 |
void DeleteRect(TRect* aRect); |
|
2664 |
void AppendRegion(TRegion& aRegion); |
|
2665 |
void MergeRect(const TRect& aRect, TBool aEnclosed); |
|
2666 |
void SubtractRegion(const TRegion &aRegion,TRegion *aSubtractedRegion=NULL); |
|
2667 |
void ShrinkRegion(); |
|
2668 |
TRect* ExpandRegion(TInt aCount); |
|
2669 |
protected: |
|
2670 |
TInt iCount; |
|
2671 |
TBool iError; |
|
2672 |
TInt iAllocedRects; |
|
2673 |
protected: |
|
2674 |
enum {ERRegionBuf=0x40000000}; |
|
2675 |
}; |
|
2676 |
||
2677 |
||
2678 |
||
2679 |
||
2680 |
/** |
|
2681 |
@publishedAll |
|
2682 |
@released |
|
2683 |
||
2684 |
Expandable region. |
|
2685 |
||
2686 |
This class provides for the construction and destruction of a TRegion, including |
|
2687 |
a granularity for expanding the region. A region;s granularity represents |
|
2688 |
the number of memory slots allocated when the object is created, and the number |
|
2689 |
of new memory slots allocated each time an RRegion is expanded beyond the |
|
2690 |
number of free slots. The default granularity is five. |
|
2691 |
*/ |
|
2692 |
class RRegion : public TRegion |
|
2693 |
{ |
|
2694 |
private: |
|
2695 |
enum {EDefaultGranularity=5}; |
|
2696 |
protected: |
|
2697 |
IMPORT_C RRegion(TInt aBuf,TInt aGran); |
|
2698 |
public: |
|
2699 |
IMPORT_C RRegion(); |
|
2700 |
IMPORT_C RRegion(TInt aGran); |
|
2701 |
IMPORT_C RRegion(const RRegion& aRegion); |
|
2702 |
IMPORT_C RRegion(const TRect& aRect,TInt aGran=EDefaultGranularity); |
|
2703 |
IMPORT_C RRegion(TInt aCount,TRect* aRectangleList,TInt aGran=EDefaultGranularity); |
|
2704 |
IMPORT_C void Close(); |
|
2705 |
IMPORT_C void Destroy(); |
|
2706 |
inline TInt CheckSpare() const; |
|
2707 |
private: |
|
2708 |
TInt iGranularity; |
|
2709 |
TRect* iRectangleList; |
|
2710 |
friend class TRegion; |
|
2711 |
}; |
|
2712 |
||
2713 |
||
2714 |
||
2715 |
||
2716 |
/** |
|
2717 |
@publishedAll |
|
2718 |
@released |
|
2719 |
||
2720 |
Region with pre-allocated buffer. |
|
2721 |
||
2722 |
This class provides the functionality of an RRegion, but in addition, for |
|
2723 |
optimisation purposes, uses a buffer containing pre-allocated space for as |
|
2724 |
many rectangles as are specified in the granularity. |
|
2725 |
||
2726 |
When this buffer is full, cell allocation takes place as for an RRegion, and |
|
2727 |
the RRegionBuf effectively becomes an RRegion. In this case, the region does |
|
2728 |
not revert to using the buffer, even if the region were to shrink so that |
|
2729 |
the buffer could, once again, contain the region. When the region is no longer |
|
2730 |
required, call Close(), defined in the base class RRegion, to free up all |
|
2731 |
memory. |
|
2732 |
*/ |
|
2733 |
template <TInt S> |
|
2734 |
class RRegionBuf : public RRegion |
|
2735 |
{ |
|
2736 |
public: |
|
2737 |
inline RRegionBuf(); |
|
2738 |
inline RRegionBuf(const RRegion& aRegion); |
|
2739 |
inline RRegionBuf(const RRegionBuf<S>& aRegion); |
|
2740 |
inline RRegionBuf(const TRect& aRect); |
|
2741 |
private: |
|
2742 |
TInt8 iRectangleBuf[S*sizeof(TRect)]; |
|
2743 |
}; |
|
2744 |
||
2745 |
||
2746 |
||
2747 |
||
2748 |
/** |
|
2749 |
@publishedAll |
|
2750 |
@released |
|
2751 |
||
2752 |
A fixed size region. |
|
2753 |
||
2754 |
The region consists of a fixed number of rectangles; this number is specified |
|
2755 |
in the templated argument. The region cannot be expanded to contain more than |
|
2756 |
this number of rectangles. If an attempt is made to do so, the region's |
|
2757 |
error flag is set, and the region is cleared. |
|
2758 |
||
2759 |
Note that when adding a rectangle to a region, if that rectangle overlaps |
|
2760 |
an existing rectangle, the operation causes more than one rectangle to be |
|
2761 |
created. |
|
2762 |
*/ |
|
2763 |
template <TInt S> |
|
2764 |
class TRegionFix : public TRegion |
|
2765 |
{ |
|
2766 |
public: |
|
2767 |
inline TRegionFix(); |
|
2768 |
inline TRegionFix(const TRect& aRect); |
|
2769 |
inline TRegionFix(const TRegionFix<S>& aRegion); |
|
2770 |
private: |
|
2771 |
TInt8 iRectangleBuf[S*sizeof(TRect)]; |
|
2772 |
}; |
|
2773 |
||
2774 |
||
2775 |
||
2776 |
||
2777 |
/** |
|
2778 |
@publishedAll |
|
2779 |
@released |
|
2780 |
||
2781 |
Base class for searching for global kernel objects. |
|
2782 |
||
2783 |
This is the base class for a number of classes which are used to find specific |
|
2784 |
types of global kernel object such as semaphores, threads and mutexes; |
|
2785 |
TFindSemaphore, TFindThread and TFindMutex are typical examples of such |
|
2786 |
derived classes. |
|
2787 |
||
2788 |
The class implements the common behaviour, specifically, the storage of the |
|
2789 |
match pattern which is used to search for object names. |
|
2790 |
||
2791 |
This class is not intended to be explicitly instantiated; it has public |
|
2792 |
constructors but they are part of the class implementation and are described |
|
2793 |
for information only. |
|
2794 |
*/ |
|
2795 |
class TFindHandleBase : public TFindHandle |
|
2796 |
{ |
|
2797 |
public: |
|
2798 |
IMPORT_C TFindHandleBase(); |
|
2799 |
IMPORT_C TFindHandleBase(const TDesC& aMatch); |
|
2800 |
IMPORT_C void Find(const TDesC& aMatch); |
|
2801 |
protected: |
|
2802 |
TInt NextObject(TFullName& aResult,TInt aObjectType); |
|
2803 |
private: |
|
2804 |
||
2805 |
/** |
|
2806 |
The full name of the last kernel side object found. |
|
2807 |
*/ |
|
2808 |
TFullName iMatch; |
|
2809 |
}; |
|
2810 |
||
2811 |
||
2812 |
||
2813 |
||
2814 |
/** |
|
2815 |
@publishedAll |
|
2816 |
@released |
|
2817 |
||
2818 |
Finds all global semaphores whose full names match a specified pattern. |
|
2819 |
||
2820 |
The match pattern can be set into the TFindSemaphore object at construction; |
|
2821 |
it can also be changed at any time after construction by using the Find() |
|
2822 |
member function of the TFindHandleBase base class. |
|
2823 |
||
2824 |
After construction, the Next() member function can be used repeatedly to find |
|
2825 |
successive global semaphores whose full names match the current pattern. |
|
2826 |
||
2827 |
A successful call to Next() means that a matching global semaphore has been |
|
2828 |
found. To open a handle on this semaphore, call the RSemaphore::Open() function |
|
2829 |
and pass a reference to this TFindSemaphore. |
|
2830 |
||
2831 |
Pattern matching is part of descriptor behaviour. |
|
2832 |
||
2833 |
@see TFindHandleBase::Find |
|
2834 |
@see TFindSemaphore::Next |
|
2835 |
@see RSemaphore::Open |
|
2836 |
@see TDesC16::Match |
|
2837 |
@see TDesC8::Match |
|
2838 |
*/ |
|
2839 |
class TFindSemaphore : public TFindHandleBase |
|
2840 |
{ |
|
2841 |
public: |
|
2842 |
inline TFindSemaphore(); |
|
2843 |
inline TFindSemaphore(const TDesC& aMatch); |
|
2844 |
IMPORT_C TInt Next(TFullName& aResult); |
|
2845 |
}; |
|
2846 |
||
2847 |
||
2848 |
||
2849 |
||
2850 |
/** |
|
2851 |
@publishedAll |
|
2852 |
@released |
|
2853 |
||
2854 |
Finds all global mutexes whose full names match a specified pattern. |
|
2855 |
||
2856 |
The match pattern can be set into the object at construction; it can also |
|
2857 |
be changed at any time after construction by using the Find() member function |
|
2858 |
of the base class. |
|
2859 |
||
2860 |
After construction, the Next() member function may be used repeatedly to find |
|
2861 |
successive global mutexes whose full names match the current pattern. |
|
2862 |
||
2863 |
A successful call to Next() means that a matching global mutex has been found. |
|
2864 |
To open a handle on this mutex, call the Open() member function of RMutex |
|
2865 |
and pass a reference to this TFindMutex object. |
|
2866 |
||
2867 |
Pattern matching is part of descriptors behaviour. |
|
2868 |
||
2869 |
@see TFindHandleBase::Find |
|
2870 |
@see TFindMutex::Next |
|
2871 |
@see RMutex::Open |
|
2872 |
@see TDesC16::Match |
|
2873 |
@see TDesC8::Match |
|
2874 |
*/ |
|
2875 |
class TFindMutex : public TFindHandleBase |
|
2876 |
{ |
|
2877 |
public: |
|
2878 |
inline TFindMutex(); |
|
2879 |
inline TFindMutex(const TDesC& aMatch); |
|
2880 |
IMPORT_C TInt Next(TFullName& aResult); |
|
2881 |
}; |
|
2882 |
||
2883 |
||
2884 |
||
2885 |
||
2886 |
/** |
|
2887 |
@publishedAll |
|
2888 |
@released |
|
2889 |
||
2890 |
Searches for all global chunks by pattern matching against the names of (Kernel |
|
2891 |
side) chunk objects. |
|
2892 |
||
2893 |
The match pattern can be set into this object at construction; it can also |
|
2894 |
be changed at any time after construction by using TFindHandleBase::Find(). |
|
2895 |
||
2896 |
After construction, call TFindChunk::Next() repeatedly to find successive |
|
2897 |
chunks whose names match the current pattern. A successful call |
|
2898 |
to TFindChunk::Next() means that a matching chunk has been found. |
|
2899 |
||
2900 |
@see TFindHandleBase |
|
2901 |
*/ |
|
2902 |
class TFindChunk : public TFindHandleBase |
|
2903 |
{ |
|
2904 |
public: |
|
2905 |
inline TFindChunk(); |
|
2906 |
inline TFindChunk(const TDesC& aMatch); |
|
2907 |
IMPORT_C TInt Next(TFullName& aResult); |
|
2908 |
}; |
|
2909 |
||
2910 |
||
2911 |
||
2912 |
||
2913 |
||
2914 |
/** |
|
2915 |
@publishedAll |
|
2916 |
@released |
|
2917 |
||
2918 |
Searches for threads by pattern matching against the names |
|
2919 |
of thread objects. |
|
2920 |
||
2921 |
The match pattern can be set into this object at construction; it can also be |
|
2922 |
changed at any time after construction by using TFindHandleBase::Find(). |
|
2923 |
||
2924 |
After construction, call TFindThread::Next() repeatedly to find successive |
|
2925 |
threads whose names match the current pattern. |
|
2926 |
A successful call to TFindThread::Next() means that a matching thread has |
|
2927 |
been found. To open a handle on this thread, call RThread::Open() and pass |
|
2928 |
a reference to this TFindThread. |
|
2929 |
||
2930 |
@see RThread |
|
2931 |
*/ |
|
2932 |
class TFindThread : public TFindHandleBase |
|
2933 |
{ |
|
2934 |
public: |
|
2935 |
inline TFindThread(); |
|
2936 |
inline TFindThread(const TDesC& aMatch); |
|
2937 |
IMPORT_C TInt Next(TFullName& aResult); |
|
2938 |
}; |
|
2939 |
||
2940 |
||
2941 |
||
2942 |
||
2943 |
/** |
|
2944 |
@publishedAll |
|
2945 |
@released |
|
2946 |
||
2947 |
Searches for processes by pattern matching against the names |
|
2948 |
of process objects. |
|
2949 |
||
2950 |
The match pattern can be set into this object at construction; it can also be |
|
2951 |
changed at any time after construction by using TFindHandleBase::Find(). |
|
2952 |
||
2953 |
After construction, call TFindProcess::Next() repeatedly to find successive |
|
2954 |
processes whose names match the current pattern. |
|
2955 |
A successful call to TFindProcess::Next() means that a matching process has |
|
2956 |
been found. To open a handle on this process, call RProcess::Open() and pass |
|
2957 |
a reference to this TFindProcess. |
|
2958 |
||
2959 |
@see RProcess |
|
2960 |
*/ |
|
2961 |
class TFindProcess : public TFindHandleBase |
|
2962 |
{ |
|
2963 |
public: |
|
2964 |
inline TFindProcess(); |
|
2965 |
inline TFindProcess(const TDesC& aMatch); |
|
2966 |
IMPORT_C TInt Next(TFullName& aResult); |
|
2967 |
}; |
|
2968 |
||
2969 |
||
2970 |
||
2971 |
/** |
|
2972 |
@publishedAll |
|
2973 |
@released |
|
2974 |
||
2975 |
Searches for LDD factory objects by pattern matching against the names of |
|
2976 |
LDD factory objects. |
|
2977 |
||
2978 |
An LDD factory object is an instance of a DLogicalDevice derived class. |
|
2979 |
||
2980 |
The match pattern can be set into this object at construction; it can also |
|
2981 |
be changed at any time after construction by using TFindHandleBase::Find(). |
|
2982 |
||
2983 |
After construction, call TFindLogicalDevice::Next() repeatedly to find successive |
|
2984 |
LDD factory objects whose names match the current pattern. A successful call to |
|
2985 |
TFindLogicalDevice::Next() means that a matching LDD factory object has been found. |
|
2986 |
||
2987 |
The name of an LDD factory object is set by its Install() member function as |
|
2988 |
part of the construction process. |
|
2989 |
*/ |
|
2990 |
class TFindLogicalDevice : public TFindHandleBase |
|
2991 |
{ |
|
2992 |
public: |
|
2993 |
inline TFindLogicalDevice(); |
|
2994 |
inline TFindLogicalDevice(const TDesC& aMatch); |
|
2995 |
IMPORT_C TInt Next(TFullName& aResult); |
|
2996 |
}; |
|
2997 |
||
2998 |
/** |
|
2999 |
@publishedAll |
|
3000 |
@released |
|
3001 |
||
3002 |
Searches for PDD factory objects by pattern matching against the names of |
|
3003 |
PDD factory objects. |
|
3004 |
||
3005 |
A PDD factory object is an instance of a DPhysicalDevice derived class. |
|
3006 |
||
3007 |
The match pattern can be set into this object at construction; it can also be |
|
3008 |
changed at any time after construction by using TFindHandleBase::Find(). |
|
3009 |
||
3010 |
After construction, call TFindPhysicalDevice::Next() repeatedly to find successive |
|
3011 |
PDD factory objects whose names match the current pattern. A successful call to |
|
3012 |
TFindPhysicalDevice::Next() means that a matching PDD factory object has been found. |
|
3013 |
||
3014 |
The name of a PDD factory object is set by its Install() member function as part |
|
3015 |
of the construction process. |
|
3016 |
*/ |
|
3017 |
class TFindPhysicalDevice : public TFindHandleBase |
|
3018 |
{ |
|
3019 |
public: |
|
3020 |
inline TFindPhysicalDevice(); |
|
3021 |
inline TFindPhysicalDevice(const TDesC& aMatch); |
|
3022 |
IMPORT_C TInt Next(TFullName& aResult); |
|
3023 |
}; |
|
3024 |
||
3025 |
||
3026 |
||
3027 |
||
3028 |
||
3029 |
/** |
|
3030 |
@publishedAll |
|
3031 |
@released |
|
3032 |
||
3033 |
Searches for servers by pattern matching against the names of kernel side |
|
3034 |
server objects. |
|
3035 |
||
3036 |
The match pattern can be set into this object at construction; it can also |
|
3037 |
be changed at any time after construction by using the TFindHandleBase::Find() |
|
3038 |
base class. |
|
3039 |
||
3040 |
After construction, call TFindServer::Next() repeatedly to find successive |
|
3041 |
servers whose names match the current pattern. |
|
3042 |
A successful call to TFindServer::Next() means that a matching server |
|
3043 |
has been found. |
|
3044 |
*/ |
|
3045 |
class TFindServer : public TFindHandleBase |
|
3046 |
{ |
|
3047 |
public: |
|
3048 |
inline TFindServer(); |
|
3049 |
inline TFindServer(const TDesC& aMatch); |
|
3050 |
IMPORT_C TInt Next(TFullName& aResult); |
|
3051 |
}; |
|
3052 |
||
3053 |
||
3054 |
||
3055 |
||
3056 |
/** |
|
3057 |
@publishedAll |
|
3058 |
@released |
|
3059 |
||
3060 |
Searches for DLLs whose full names match a specified pattern. |
|
3061 |
||
3062 |
The match pattern is set at construction but can also be changed at any time |
|
3063 |
after construction by using TFindHandleBase::Find(). |
|
3064 |
||
3065 |
After construction, use TFindLibrary::Next() to repeatedly find successive DLLs |
|
3066 |
whose names match the current pattern. A successful call to |
|
3067 |
TFindLibrary::Next() means that a matching DLL has been found. |
|
3068 |
*/ |
|
3069 |
class TFindLibrary : public TFindHandleBase |
|
3070 |
{ |
|
3071 |
public: |
|
3072 |
inline TFindLibrary(); |
|
3073 |
inline TFindLibrary(const TDesC& aMatch); |
|
3074 |
IMPORT_C TInt Next(TFullName& aResult); |
|
3075 |
}; |
|
3076 |
||
3077 |
||
3078 |
||
3079 |
/** |
|
3080 |
@publishedAll |
|
3081 |
@released |
|
3082 |
||
3083 |
User side handle to an LDD factory object, an instance of a DLogicalDevice |
|
3084 |
derived class. |
|
3085 |
||
3086 |
The LDD factory object is a Kernel side object which is constructed on the |
|
3087 |
Kernel heap when the logical device is opened using User::LoadLogicalDevice(). |
|
3088 |
The handle allows the User side to get information about the logical device. |
|
3089 |
||
3090 |
To use the device, a thread must create and use an instance of an |
|
3091 |
RBusLogicalChannel derived class. |
|
3092 |
||
3093 |
*/ |
|
3094 |
class RDevice : public RHandleBase |
|
3095 |
{ |
|
3096 |
public: |
|
3097 |
inline TInt Open(const TFindLogicalDevice& aFind,TOwnerType aType=EOwnerProcess); |
|
3098 |
IMPORT_C TInt Open(const TDesC& aName,TOwnerType aType=EOwnerProcess); |
|
3099 |
IMPORT_C void GetCaps(TDes8& aDes) const; |
|
3100 |
IMPORT_C TBool QueryVersionSupported(const TVersion& aVer) const; |
|
3101 |
IMPORT_C TBool IsAvailable(TInt aUnit, const TDesC* aPhysicalDevice, const TDesC8* anInfo) const; |
|
3102 |
}; |
|
3103 |
||
3104 |
/** |
|
3105 |
@publishedAll |
|
3106 |
@released |
|
3107 |
||
3108 |
Asynchronous timer services. |
|
3109 |
||
3110 |
Five types of asynchronous request are supported by the class: |
|
3111 |
||
3112 |
1. Requesting an event after a specified interval |
|
3113 |
||
3114 |
2. Requesting an event at a specified system time |
|
3115 |
||
3116 |
3. Requesting a timer event on a specific second fraction |
|
3117 |
||
3118 |
4. Requesting an event if an interval elapses with no user activity. |
|
3119 |
||
3120 |
5. Requesting an event after a specified interval, to a resolution of 1ms. |
|
3121 |
||
3122 |
Each of these requests can be cancelled. |
|
3123 |
||
3124 |
The timer exists from its creation, following a call to RTimer::CreateLocal(), |
|
3125 |
until it is destroyed by a call to the Close() member function of the base |
|
3126 |
class RHandleBase. |
|
3127 |
||
3128 |
This class is ultimately implemented in terms of the nanokernel tick, and |
|
3129 |
therefore the granularity of the generated events is limited to the period of |
|
3130 |
this timer. This is variant specific, but is usually 1 millisecond. |
|
3131 |
||
3132 |
Note that the CTimer active object uses an RTimer. |
|
3133 |
*/ |
|
3134 |
class RTimer : public RHandleBase |
|
3135 |
{ |
|
3136 |
public: |
|
3137 |
IMPORT_C TInt CreateLocal(); |
|
3138 |
IMPORT_C void Cancel(); |
|
3139 |
IMPORT_C void After(TRequestStatus& aStatus,TTimeIntervalMicroSeconds32 anInterval); |
|
3140 |
IMPORT_C void AfterTicks(TRequestStatus &aStatus, TInt aTicks); |
|
3141 |
IMPORT_C void At(TRequestStatus& aStatus,const TTime& aTime); |
|
3142 |
IMPORT_C void AtUTC(TRequestStatus& aStatus,const TTime& aUTCTime); |
|
3143 |
IMPORT_C void Lock(TRequestStatus& aStatus,TTimerLockSpec aLock); |
|
3144 |
IMPORT_C void Inactivity(TRequestStatus& aStatus, TTimeIntervalSeconds aSeconds); |
|
3145 |
IMPORT_C void HighRes(TRequestStatus& aStatus,TTimeIntervalMicroSeconds32 anInterval); |
|
90
947f0dc9f7a8
Revision: 201015
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
31
diff
changeset
|
3146 |
IMPORT_C void AgainHighRes(TRequestStatus& aStatus,TTimeIntervalMicroSeconds32 anInterval); |
0 | 3147 |
}; |
3148 |
||
3149 |
||
3150 |
||
3151 |
||
3152 |
/** |
|
3153 |
@publishedAll |
|
3154 |
@released |
|
3155 |
||
3156 |
A handle to a dynamically loadable DLL. |
|
3157 |
||
3158 |
The class is not intended for user derivation. |
|
3159 |
*/ |
|
3160 |
class RLibrary : public RHandleBase |
|
3161 |
{ |
|
3162 |
public: |
|
3163 |
IMPORT_C void Close(); |
|
3164 |
IMPORT_C TInt Load(const TDesC& aFileName, const TUidType& aType); |
|
3165 |
IMPORT_C TInt Load(const TDesC& aFileName, const TDesC& aPath=KNullDesC); |
|
3166 |
IMPORT_C TInt Load(const TDesC& aFileName, const TDesC& aPath, const TUidType& aType); |
|
3167 |
IMPORT_C TInt Load(const TDesC& aFileName, const TDesC& aPath, const TUidType& aType, TUint32 aModuleVersion); |
|
3168 |
IMPORT_C TInt LoadRomLibrary(const TDesC& aFileName, const TDesC& aPath); |
|
3169 |
IMPORT_C TLibraryFunction Lookup(TInt anOrdinal) const; |
|
3170 |
IMPORT_C TUidType Type() const; |
|
3171 |
IMPORT_C TFileName FileName() const; |
|
3172 |
IMPORT_C TInt GetRamSizes(TInt& aCodeSize, TInt& aConstDataSize); |
|
3173 |
IMPORT_C TInt Init(); /**< @internalTechnology */ |
|
3174 |
public: |
|
3175 |
/** |
|
3176 |
Class representing information about an executable binary, (DLL or EXE). |
|
3177 |
@internalTechnology |
|
3178 |
*/ |
|
3179 |
struct TInfo |
|
3180 |
{ |
|
3181 |
TUint32 iModuleVersion; /**< Version number */ |
|
3182 |
TUidType iUids; /**< UIDs */ |
|
3183 |
TSecurityInfo iSecurityInfo; /**< Security Info */ |
|
3184 |
}; |
|
3185 |
||
3186 |
/** |
|
3187 |
Class representing information about an executable binary, (DLL or EXE), version 2. |
|
3188 |
@internalTechnology |
|
3189 |
*/ |
|
3190 |
struct TInfoV2 : public TInfo |
|
3191 |
{ |
|
3192 |
TUint8 iHardwareFloatingPoint; /**< Which hardware floating point used, from TFloatingPointType */ |
|
3193 |
enum TDebugAttributes |
|
3194 |
{ |
|
3195 |
EDebugAllowed = 1<<0, ///< Flags set if executable may be debugged. |
|
3196 |
ETraceAllowed = 1<<1 ///< Flags set if executable may be traced. |
|
3197 |
}; |
|
3198 |
TUint8 iDebugAttributes; ///< Bitmask of values from enum TDebugAttributes |
|
3199 |
TUint8 iSpare[6]; |
|
3200 |
}; |
|
3201 |
||
3202 |
/** |
|
3203 |
Type representing a TInfo struct packaged as a descriptor. |
|
3204 |
@internalTechnology |
|
3205 |
*/ |
|
3206 |
typedef TPckgBuf<TInfo> TInfoBuf; |
|
3207 |
||
3208 |
/** |
|
3209 |
Type representing a TInfo struct packaged as a descriptor, version 2. |
|
3210 |
@internalTechnology |
|
3211 |
*/ |
|
3212 |
typedef TPckgBuf<TInfoV2> TInfoBufV2; |
|
3213 |
||
3214 |
/** |
|
3215 |
@internalTechnology |
|
3216 |
*/ |
|
3217 |
enum TRequiredImageHeaderSize |
|
3218 |
{ |
|
3219 |
#ifdef __WINS__ |
|
3220 |
/** |
|
3221 |
Size of header data which should be passed to GetInfoFromHeader() |
|
3222 |
*/ |
|
3223 |
KRequiredImageHeaderSize = KMaxTInt |
|
3224 |
#else |
|
3225 |
KRequiredImageHeaderSize = 9*1024 |
|
3226 |
#endif |
|
3227 |
}; |
|
3228 |
||
3229 |
IMPORT_C static TInt GetInfoFromHeader(const TDesC8& aHeader, TDes8& aInfoBuf); |
|
3230 |
||
3231 |
/** |
|
3232 |
@internalTechnology |
|
3233 |
@deprecated Use TInfo |
|
3234 |
*/ |
|
3235 |
struct SInfo |
|
3236 |
{ |
|
3237 |
TUint32 iModuleVersion; |
|
3238 |
TUidType iUids; |
|
3239 |
SSecurityInfo iS; |
|
3240 |
}; |
|
3241 |
||
3242 |
/** |
|
3243 |
@internalTechnology |
|
3244 |
@deprecated Use TInfoBuf |
|
3245 |
*/ |
|
3246 |
typedef TPckgBuf<SInfo> SInfoBuf; |
|
3247 |
||
3248 |
/** |
|
3249 |
@internalTechnology |
|
3250 |
*/ |
|
3251 |
IMPORT_C static TInt GetInfo(const TDesC& aFileName, TDes8& aInfoBuf); |
|
3252 |
private: |
|
3253 |
TInt InitL(); |
|
3254 |
}; |
|
3255 |
||
3256 |
||
3257 |
||
3258 |
||
3259 |
/** |
|
3260 |
@publishedAll |
|
3261 |
@released |
|
3262 |
||
3263 |
A handle to a critical section. |
|
3264 |
||
3265 |
A critical section itself is a kernel object, and is implemented using |
|
3266 |
a semaphore. The class RCriticalSection inherits privately from RSemaphore |
|
3267 |
as a matter of implementation and this is, in effect, equivalent to using |
|
3268 |
a semaphore. |
|
3269 |
||
3270 |
The public functions of RSemaphore are not part of the public API of this |
|
3271 |
class. |
|
3272 |
||
3273 |
As with all handles, they should be closed after use. This class provides |
|
3274 |
the necessary Close() function, which should be called when the handle is |
|
3275 |
no longer required. |
|
3276 |
||
3277 |
@see RHandleBase::Close |
|
3278 |
*/ |
|
3279 |
class RCriticalSection : private RSemaphore |
|
3280 |
{ |
|
3281 |
public: |
|
3282 |
IMPORT_C RCriticalSection(); |
|
3283 |
IMPORT_C TInt CreateLocal(TOwnerType aType=EOwnerProcess); |
|
3284 |
IMPORT_C void Close(); |
|
3285 |
IMPORT_C void Wait(); |
|
3286 |
IMPORT_C void Signal(); |
|
3287 |
inline TBool IsBlocked() const; |
|
3288 |
private: |
|
3289 |
TInt iBlocked; |
|
3290 |
}; |
|
3291 |
||
3292 |
||
3293 |
||
3294 |
/** |
|
3295 |
@publishedAll |
|
3296 |
@released |
|
3297 |
||
3298 |
A handle to a mutex. |
|
3299 |
||
3300 |
The mutex itself is a kernel side object. |
|
3301 |
||
3302 |
Handles should be closed after use. RHandleBase provides the necessary Close() |
|
3303 |
function which should be called when the handle is no longer required. |
|
3304 |
||
3305 |
@see RHandleBase::Close |
|
3306 |
*/ |
|
3307 |
class RMutex : public RHandleBase |
|
3308 |
{ |
|
3309 |
public: |
|
3310 |
inline TInt Open(const TFindMutex& aFind,TOwnerType aType=EOwnerProcess); |
|
3311 |
IMPORT_C TInt CreateLocal(TOwnerType aType=EOwnerProcess); |
|
3312 |
IMPORT_C TInt CreateGlobal(const TDesC& aName,TOwnerType aType=EOwnerProcess); |
|
3313 |
IMPORT_C TInt OpenGlobal(const TDesC& aName,TOwnerType aType=EOwnerProcess); |
|
3314 |
IMPORT_C TInt Open(RMessagePtr2 aMessage,TInt aParam,TOwnerType aType=EOwnerProcess); |
|
3315 |
IMPORT_C TInt Open(TInt aArgumentIndex, TOwnerType aType=EOwnerProcess); |
|
3316 |
IMPORT_C void Wait(); |
|
177 | 3317 |
IMPORT_C TInt Poll(); // acquire the lock if possible, but don't block |
3318 |
IMPORT_C TInt Wait(TInt aTimeout); // timeout in microseconds |
|
0 | 3319 |
IMPORT_C void Signal(); |
3320 |
IMPORT_C TBool IsHeld(); |
|
3321 |
}; |
|
3322 |
||
3323 |
||
3324 |
||
3325 |
/** |
|
3326 |
@publishedAll |
|
3327 |
@released |
|
3328 |
||
3329 |
A handle to a condition variable. |
|
3330 |
||
3331 |
The condition variable itself is a kernel side object. |
|
3332 |
||
3333 |
Handles should be closed after use. RHandleBase provides the necessary Close() |
|
3334 |
function which should be called when the handle is no longer required. |
|
3335 |
||
3336 |
@see RHandleBase::Close |
|
3337 |
*/ |
|
3338 |
class RCondVar : public RHandleBase |
|
3339 |
{ |
|
3340 |
public: |
|
3341 |
IMPORT_C TInt CreateLocal(TOwnerType aType=EOwnerProcess); |
|
3342 |
IMPORT_C TInt CreateGlobal(const TDesC& aName, TOwnerType aType=EOwnerProcess); |
|
3343 |
IMPORT_C TInt OpenGlobal(const TDesC& aName, TOwnerType aType=EOwnerProcess); |
|
3344 |
IMPORT_C TInt Open(RMessagePtr2 aMessage, TInt aParam, TOwnerType aType=EOwnerProcess); |
|
3345 |
IMPORT_C TInt Open(TInt aArgumentIndex, TOwnerType aType=EOwnerProcess); |
|
3346 |
IMPORT_C TInt Wait(RMutex& aMutex); |
|
3347 |
IMPORT_C TInt TimedWait(RMutex& aMutex, TInt aTimeout); // timeout in microseconds |
|
3348 |
IMPORT_C void Signal(); |
|
3349 |
IMPORT_C void Broadcast(); |
|
3350 |
}; |
|
3351 |
||
3352 |
||
3353 |
||
3354 |
class UserHeap; |
|
3355 |
class TChunkCreate; |
|
3356 |
struct TChunkCreateInfo; |
|
3357 |
/** |
|
3358 |
@publishedAll |
|
3359 |
@released |
|
3360 |
||
3361 |
A handle to a chunk. |
|
3362 |
||
3363 |
The chunk itself is a kernel side object. |
|
3364 |
*/ |
|
3365 |
class RChunk : public RHandleBase |
|
3366 |
{ |
|
3367 |
public: |
|
3368 |
/** |
|
31
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3369 |
Set of flags used by SetRestrictions(). |
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3370 |
|
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3371 |
@see RChunk::SetRestrictions |
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3372 |
*/ |
0 | 3373 |
enum TRestrictions |
3374 |
{ |
|
31
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3375 |
/** Prevent Adjust, Commit, Allocate and Decommit */ |
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3376 |
EPreventAdjust = 0x01, |
0 | 3377 |
}; |
3378 |
public: |
|
3379 |
inline TInt Open(const TFindChunk& aFind,TOwnerType aType=EOwnerProcess); |
|
3380 |
IMPORT_C TInt CreateLocal(TInt aSize,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3381 |
IMPORT_C TInt CreateLocalCode(TInt aSize,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3382 |
IMPORT_C TInt CreateGlobal(const TDesC& aName,TInt aSize,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3383 |
IMPORT_C TInt CreateDoubleEndedLocal(TInt aInitialBottom, TInt aInitialTop,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3384 |
IMPORT_C TInt CreateDoubleEndedGlobal(const TDesC& aName,TInt aInitialBottom,TInt aInitialTop,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3385 |
IMPORT_C TInt CreateDisconnectedLocal(TInt aInitialBottom, TInt aInitialTop,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3386 |
IMPORT_C TInt CreateDisconnectedGlobal(const TDesC& aName,TInt aInitialBottom,TInt aInitialTop,TInt aMaxSize,TOwnerType aType=EOwnerProcess); |
|
3387 |
IMPORT_C TInt Create(TChunkCreateInfo& aCreateInfo); |
|
3388 |
IMPORT_C TInt SetRestrictions(TUint aFlags); |
|
3389 |
IMPORT_C TInt OpenGlobal(const TDesC& aName,TBool isReadOnly,TOwnerType aType=EOwnerProcess); |
|
3390 |
IMPORT_C TInt Open(RMessagePtr2 aMessage,TInt aParam,TBool isReadOnly,TOwnerType aType=EOwnerProcess); |
|
3391 |
IMPORT_C TInt Open(TInt aArgumentIndex, TOwnerType aType=EOwnerProcess); |
|
3392 |
IMPORT_C TInt Adjust(TInt aNewSize) const; |
|
3393 |
IMPORT_C TInt AdjustDoubleEnded(TInt aBottom, TInt aTop) const; |
|
3394 |
IMPORT_C TInt Commit(TInt anOffset, TInt aSize) const; |
|
3395 |
IMPORT_C TInt Allocate(TInt aSize) const; |
|
3396 |
IMPORT_C TInt Decommit(TInt anOffset, TInt aSize) const; |
|
3397 |
IMPORT_C TInt Unlock(TInt aOffset, TInt aSize); /**< @internalTechnology */ |
|
3398 |
IMPORT_C TInt Lock(TInt aOffset, TInt aSize); /**< @internalTechnology */ |
|
3399 |
IMPORT_C TUint8* Base() const; |
|
3400 |
IMPORT_C TInt Size() const; |
|
3401 |
IMPORT_C TInt Bottom() const; |
|
3402 |
IMPORT_C TInt Top() const; |
|
3403 |
IMPORT_C TInt MaxSize() const; |
|
3404 |
inline TBool IsReadable() const; |
|
3405 |
inline TBool IsWritable() const; |
|
3406 |
IMPORT_C TBool IsPaged() const; |
|
3407 |
private: |
|
3408 |
friend class UserHeap; |
|
3409 |
}; |
|
3410 |
||
3411 |
||
3412 |
/** |
|
3413 |
This structure specifies the type and properties of the chunk to be created. It |
|
3414 |
is passed as a parameter to the RChunk::Create() method. |
|
3415 |
||
3416 |
@publishedAll |
|
3417 |
@released |
|
3418 |
*/ |
|
3419 |
struct TChunkCreateInfo |
|
3420 |
{ |
|
3421 |
public : |
|
3422 |
/** |
|
3423 |
Currently supported version numbers |
|
3424 |
@internalComponent |
|
3425 |
*/ |
|
3426 |
enum TChunkCreateVersions |
|
3427 |
{ |
|
3428 |
EVersion0, |
|
3429 |
ESupportedVersions, |
|
3430 |
}; |
|
3431 |
||
3432 |
friend class RChunk; |
|
3433 |
||
3434 |
/** |
|
3435 |
Attributes that specify whether the chunk to be created is data paged or not. |
|
3436 |
*/ |
|
3437 |
enum TChunkPagingAtt |
|
3438 |
{ |
|
3439 |
EUnspecified, /**< The chunk will use the creating process's paging attributes.*/ |
|
3440 |
EPaged, /**< The chunk will be data paged.*/ |
|
3441 |
EUnpaged, /**< The chunk will not be data paged.*/ |
|
3442 |
}; |
|
3443 |
||
3444 |
IMPORT_C TChunkCreateInfo(); |
|
3445 |
IMPORT_C void SetNormal(TInt aInitialSize, TInt aMaxSize); |
|
3446 |
IMPORT_C void SetCode(TInt aInitialSize, TInt aMaxSize); |
|
3447 |
IMPORT_C void SetDoubleEnded(TInt aInitialBottom, TInt aInitialTop, TInt aMaxSize); |
|
3448 |
IMPORT_C void SetDisconnected(TInt aInitialBottom, TInt aInitialTop, TInt aMaxSize); |
|
3449 |
IMPORT_C void SetOwner(TOwnerType aType); |
|
3450 |
IMPORT_C void SetGlobal(const TDesC& aName); |
|
3451 |
IMPORT_C void SetClearByte(TUint8 aClearByte); |
|
3452 |
IMPORT_C void SetPaging(const TChunkPagingAtt aPaging); |
|
31
56f325a607ea
Revision: 200951
Dremov Kirill (Nokia-D-MSW/Tampere) <kirill.dremov@nokia.com>
parents:
0
diff
changeset
|
3453 |
IMPORT_C void SetReadOnly(); |
0 | 3454 |
void SetThreadHeap(TInt aInitialSize, TInt aMaxSize, const TDesC& aName); |
3455 |
||
3456 |
/** |
|
3457 |
For use by file server only. |
|
3458 |
@internalTechnology |
|
3459 |
*/ |
|
3460 |
IMPORT_C void SetCache(TInt aMaxSize); |
|
3461 |
protected : |
|
3462 |
/** The version number of this TChunkCreateInfo. |
|
3463 |
@internalComponent |
|
3464 |
*/ |
|
3465 |
TUint iVersionNumber; |
|
3466 |
/** The type of the chunk to be created. |
|
3467 |
@internalComponent |
|
3468 |
*/ |
|
3469 |
TUint iType; |
|
3470 |
/** Specify if chunk is global or not. |
|
3471 |
@internalComponent |
|
3472 |
*/ |
|
3473 |
TBool iGlobal; |
|
3474 |
/** The maximum size in bytes of the chunk to be created. |
|
3475 |
@internalComponent |
|
3476 |
*/ |
|
3477 |
TInt iMaxSize; |
|
3478 |
/** An enumeration whose enumerators define the ownership of this chunk |
|
3479 |
handle. If not explicitly specified, EOwnerProcess is taken as default. |
|
3480 |
@internalComponent |
|
3481 |
*/ |
|
3482 |
TOwnerType iOwnerType; |
|
3483 |
/** A pointer to a descriptor containing the name to be assigned to |
|
3484 |
global chunks. The length of the descriptor must be no greater than |
|
3485 |
that allowed for a TKName type. Must be NULL for local chunks. |
|
3486 |
@internalComponent |
|
3487 |
*/ |
|
3488 |
const TDesC* iName; |
|
3489 |
/** The offset of the bottom of the region to commit to the chunk on |
|
3490 |
creation from the base of the chunk's reserved region. |
|
3491 |
This is only used for double ended and disconnected chunks. |
|
3492 |
@internalComponent |
|
3493 |
*/ |
|
3494 |
TInt iInitialBottom; |
|
3495 |
/** The offset of the top of the region to commit to the chunk on |
|
3496 |
creation from the base of the chunk's reserved region. |
|
3497 |
This is only used for double ended and disconnected chunks. |
|
3498 |
@internalComponent |
|
3499 |
*/ |
|
3500 |
TInt iInitialTop; |
|
3501 |
/** Attributes to the chunk to be created should have. |
|
3502 |
Should be set from one or more the values in TChunkCreate::TChunkCreateAtt. |
|
3503 |
@internalComponent |
|
3504 |
*/ |
|
3505 |
TUint iAttributes; |
|
3506 |
/** The byte to clear all the memory committed to the chunk to. |
|
3507 |
@internalComponent |
|
3508 |
*/ |
|
3509 |
TUint8 iClearByte; |
|
3510 |
/** @internalComponent*/ |
|
3511 |
TUint8 iSpare1[3]; |
|
3512 |
/** @internalComponent*/ |
|
3513 |
TUint iSpare2; |
|
3514 |
}; |
|
3515 |
||
3516 |
/** |
|
3517 |
This structure specifies the type and properties of the user heap to be created. It |
|
3518 |
is passed as a parameter to the UserHeap::Create() method. |
|
3519 |
||
3520 |
@publishedAll |
|
3521 |
@released |
|
3522 |
*/ |
|
3523 |
struct TChunkHeapCreateInfo |
|
3524 |
{ |
|
3525 |
public: |
|
3526 |
/** |
|
3527 |
Currently supported version numbers |
|
3528 |
@internalComponent |
|
3529 |
*/ |
|
3530 |
enum TChunkHeapCreateVersions |
|
3531 |
{ |
|
3532 |
EVersion0, |
|
3533 |
ESupportedVersions, |
|
3534 |
}; |
|
3535 |
||
3536 |
/** |
|
3537 |
Attributes that specify whether the chunk heap to be created is data paged or not. |
|
3538 |
*/ |
|
3539 |
enum TChunkHeapPagingAtt |
|
3540 |
{ |
|
3541 |
EUnspecified, /**< The chunk heap will use the creating process's paging attributes.*/ |
|
3542 |
EPaged, /**< The chunk heap will be data paged.*/ |
|
3543 |
EUnpaged, /**< The chunk heap will not be data paged.*/ |
|
3544 |
}; |
|
3545 |
||
3546 |
friend class UserHeap; |
|
3547 |
||
3548 |
IMPORT_C TChunkHeapCreateInfo(TInt aMinLength, TInt aMaxLength); |
|
3549 |
IMPORT_C void SetCreateChunk(const TDesC* aName); |
|
3550 |
IMPORT_C void SetUseChunk(const RChunk aChunk); |
|
3551 |
inline void SetSingleThread(TBool aSingleThread); |
|
3552 |
inline void SetAlignment(TInt aAlign); |
|
3553 |
inline void SetGrowBy(TInt aGrowBy); |
|
3554 |
inline void SetOffset(TInt aOffset); |
|
3555 |
inline void SetMode(TUint aMode); |
|
3556 |
inline void SetPaging(const TChunkHeapPagingAtt aPaging); |
|
3557 |
||
3558 |
protected: |
|
3559 |
/** The version number of this TChunkHeapCreateInfo. |
|
3560 |
@internalComponent |
|
3561 |
*/ |
|
3562 |
TUint iVersionNumber; |
|
3563 |
/** The minimum size for the heap. |
|
3564 |
@internalConponent |
|
3565 |
*/ |
|
3566 |
TInt iMinLength; |
|
3567 |
/** The maximum size for the heap. |
|
3568 |
@internalConponent |
|
3569 |
*/ |
|
3570 |
TInt iMaxLength; |
|
3571 |
/** The alignment of the heap. |
|
3572 |
@internalComponent |
|
3573 |
*/ |
|
3574 |
TInt iAlign; |
|
3575 |
/** The grow by value of the heap. |
|
3576 |
@internalComponent |
|
3577 |
*/ |
|
3578 |
TInt iGrowBy; |
|
3579 |
/** The single thread value of the heap. |
|
3580 |
@internalComponent |
|
3581 |
*/ |
|
3582 |
TBool iSingleThread; |
|
3583 |
/** The offset from the base of the chunk to the start of the heap. |
|
3584 |
@internalComponent |
|
3585 |
*/ |
|
3586 |
TInt iOffset; |
|
3587 |
/** The paging attributes of the chunk. |
|
3588 |
@internalComponent |
|
3589 |
*/ |
|
3590 |
TChunkHeapPagingAtt iPaging; |
|
3591 |
/** The mode flags for the heap. |
|
3592 |
@internalComponent |
|
3593 |
*/ |
|
3594 |
TUint iMode; |
|
3595 |
/** The name of the chunk to be created for the heap. |
|
3596 |
@internalComponent |
|
3597 |
*/ |
|
3598 |
TDesC* iName; |
|
3599 |
/** The chunk to use for the heap. |
|
3600 |
@internalComponent |
|
3601 |
*/ |
|
3602 |
RChunk iChunk; |
|
3603 |
/**@internalComponent*/ |
|
3604 |
TInt iSpare[5]; |
|
3605 |
}; |
|
3606 |
||
3607 |
struct SStdEpocThreadCreateInfo; |
|
3608 |
/** |
|
3609 |
@publishedAll |
|
3610 |
@released |
|
3611 |
||
3612 |
A set of static functions for constructing fixed length heaps and local or |
|
3613 |
global heaps. |
|
3614 |
||
3615 |
@see RHeap |
|
3616 |
@see RChunk |
|
3617 |
*/ |
|
3618 |
class UserHeap |
|
3619 |
{ |
|
3620 |
public: |
|
3621 |
/** |
|
3622 |
Flags to control the heap creation. |
|
3623 |
*/ |
|
3624 |
enum TChunkHeapCreateMode |
|
3625 |
{ |
|
3626 |
/** On successful creation of the heap this switches the calling thread to |
|
3627 |
use the new heap. |
|
3628 |
*/ |
|
3629 |
EChunkHeapSwitchTo = 0x1, |
|
3630 |
/** On successful creation of the heap this causes the handle to the heap |
|
3631 |
to be duplicated. |
|
3632 |
*/ |
|
3633 |
EChunkHeapDuplicate = 0x2, |
|
3634 |
||
3635 |
/** @internalComponent*/ |
|
3636 |
EChunkHeapMask = EChunkHeapSwitchTo | EChunkHeapDuplicate, |
|
3637 |
}; |
|
3638 |
IMPORT_C static RHeap* FixedHeap(TAny* aBase, TInt aMaxLength, TInt aAlign=0, TBool aSingleThread=ETrue); |
|
3639 |
IMPORT_C static RHeap* ChunkHeap(const TDesC* aName, TInt aMinLength, TInt aMaxLength, TInt aGrowBy=1, TInt aAlign=0, TBool aSingleThread=EFalse); |
|
3640 |
IMPORT_C static RHeap* ChunkHeap(RChunk aChunk, TInt aMinLength, TInt aGrowBy=1, TInt aMaxLength=0, TInt aAlign=0, TBool aSingleThread=EFalse, TUint32 aMode=0); |
|
3641 |
IMPORT_C static RHeap* OffsetChunkHeap(RChunk aChunk, TInt aMinLength, TInt aOffset, TInt aGrowBy=1, TInt aMaxLength=0, TInt aAlign=0, TBool aSingleThread=EFalse, TUint32 aMode=0); |
|
3642 |
IMPORT_C static RHeap* ChunkHeap(const TChunkHeapCreateInfo& aCreateInfo); |
|
3643 |
IMPORT_C static TInt SetupThreadHeap(TBool aNotFirst, SStdEpocThreadCreateInfo& aInfo); |
|
3644 |
IMPORT_C static TInt CreateThreadHeap(SStdEpocThreadCreateInfo& aInfo, RHeap*& aHeap, TInt aAlign=0, TBool aSingleThread=EFalse); |
|
3645 |
}; |
|
3646 |
||
3647 |
||
3648 |
||
3649 |
||
3650 |
/** |
|
3651 |
@publishedAll |
|
3652 |
@released |
|
3653 |
||
3654 |
Encapsulates the Id of a kernel object. |
|
3655 |
*/ |
|
3656 |
class TObjectId |
|
3657 |
{ |
|
3658 |
public: |
|
3659 |
inline TObjectId(); |
|
3660 |
inline TObjectId(TUint64 anId); |
|
3661 |
inline TUint64 Id() const; |
|
3662 |
inline operator TUint() const; |
|
3663 |
inline TBool operator==(TObjectId aId) const; |
|
3664 |
inline TBool operator!=(TObjectId aId) const; |
|
3665 |
private: |
|
3666 |
TUint64 iId; |
|
3667 |
}; |
|
3668 |
||
3669 |
||
3670 |
||
3671 |
||
3672 |
/** |
|
3673 |
@publishedAll |
|
3674 |
@released |
|
3675 |
||
3676 |
Encapsulates the Id of a thread. |
|
3677 |
||
3678 |
An object of this type is not explicitly constructed in open code, |
|
3679 |
but is returned by the Id() member function of a thread handle, |
|
3680 |
an RThread type. |
|
3681 |
||
3682 |
@see RThread |
|
3683 |
*/ |
|
3684 |
class TThreadId : public TObjectId |
|
3685 |
{ |
|
3686 |
public: |
|
3687 |
inline TThreadId(); |
|
3688 |
inline TThreadId(TUint64 anId); |
|
3689 |
}; |
|
3690 |
||
3691 |
||
3692 |
||
3693 |
||
3694 |
/** |
|
3695 |
This structure specifies the type and properties of the thread to be created. It |
|
3696 |
is passed as a parameter to the RThread::Create() method. |
|
3697 |
||
3698 |
@publishedAll |
|
3699 |
@released |
|
3700 |
*/ |
|
3701 |
struct TThreadCreateInfo |
|
3702 |
{ |
|
3703 |
public : |
|
3704 |
/** |
|
3705 |
Currently supported version numbers |
|
3706 |
@internalComponent |
|
3707 |
*/ |
|
3708 |
enum TThreadCreateVersions |
|
3709 |
{ |
|
3710 |
EVersion0, |
|
3711 |
ESupportedVersions, |
|
3712 |
}; |
|
3713 |
||
3714 |
/** |
|
3715 |
Attributes that specify whether the stack and heap of the thread to be created |
|
3716 |
are data paged or not. |
|
3717 |
*/ |
|
3718 |
enum TThreadPagingAtt |
|
3719 |
{ |
|
3720 |
EUnspecified, /**< The thread will use the creating process's paging attributes.*/ |
|
3721 |
EPaged, /**< The thread will data page its stack and heap.*/ |
|
3722 |
EUnpaged, /**< The thread will not data page its stack and heap.*/ |
|
3723 |
}; |
|
3724 |
||
3725 |
friend class RThread; |
|
3726 |
||
3727 |
IMPORT_C TThreadCreateInfo( const TDesC &aName, TThreadFunction aFunction, |
|
3728 |
TInt aStackSize, TAny* aPtr); |
|
3729 |
IMPORT_C void SetCreateHeap(TInt aHeapMinSize, TInt aHeapMaxSize); |
|
3730 |
IMPORT_C void SetUseHeap(const RAllocator* aHeap); |
|
3731 |
IMPORT_C void SetOwner(const TOwnerType aOwner); |
|
3732 |
IMPORT_C void SetPaging(const TThreadPagingAtt aPaging); |
|
3733 |
||
3734 |
protected: |
|
3735 |
/** The version number of this TChunkCreateInfo. |
|
3736 |
@internalComponent |
|
3737 |
*/ |
|
3738 |
TUint iVersionNumber; |
|
3739 |
/** The Name to be given to the thread to be created |
|
3740 |
@internalComponent |
|
3741 |
*/ |
|
3742 |
const TDesC* iName; |
|
3743 |
/** The function this thread will execute. |
|
3744 |
@internalComponent |
|
3745 |
*/ |
|
3746 |
TThreadFunction iFunction; |
|
3747 |
/** The size of the stack of the thread to be created. |
|
3748 |
@internalComponent |
|
3749 |
*/ |
|
3750 |
TInt iStackSize; |
|
3751 |
/** The parameter to be passed to the function of the thread to be created. |
|
3752 |
@internalComponent |
|
3753 |
*/ |
|
3754 |
TAny* iParameter; |
|
3755 |
/** The owner of the thread to be created. |
|
3756 |
@internalComponent |
|
3757 |
*/ |
|
3758 |
TOwnerType iOwner; |
|
3759 |
/** The heap for the thread to be created to use. |
|
3760 |
NULL if a new heap is to be created. |
|
3761 |
@internalComponent |
|
3762 |
*/ |
|
3763 |
RAllocator* iHeap; |
|
3764 |
/** Minimum size of any heap to be created for the thread. |
|
3765 |
@internalComponent*/ |
|
3766 |
TInt iHeapMinSize; |
|
3767 |
/** Maximum size of any heap to be created for the thread. |
|
3768 |
@internalComponent |
|
3769 |
*/ |
|
3770 |
TInt iHeapMaxSize; |
|
3771 |
/** The attributes of the thread |
|
3772 |
@internalComponent |
|
3773 |
*/ |
|
3774 |
TUint iAttributes; |
|
3775 |
/**@internalComponent*/ |
|
3776 |
TUint32 iSpare[6]; |
|
3777 |
}; |
|
3778 |
||
3779 |
class RProcess; |
|
3780 |
||
3781 |
||
3782 |
/** |
|
3783 |
@publishedAll |
|
3784 |
@released |
|
3785 |
||
3786 |
A handle to a thread. |
|
3787 |
||
3788 |
The thread itself is a kernel object. |
|
3789 |
*/ |
|
3790 |
class RThread : public RHandleBase |
|
3791 |
{ |
|
3792 |
public: |
|
3793 |
inline RThread(); |
|
3794 |
IMPORT_C TInt Create(const TDesC& aName, TThreadFunction aFunction, TInt aStackSize, TInt aHeapMinSize, TInt aHeapMaxSize, TAny *aPtr, TOwnerType aType=EOwnerProcess); |
|
3795 |
IMPORT_C TInt Create(const TDesC& aName, TThreadFunction aFunction, TInt aStackSize, RAllocator* aHeap, TAny* aPtr, TOwnerType aType=EOwnerProcess); |
|
3796 |
IMPORT_C TInt Create(const TThreadCreateInfo& aCreateInfo); |
|
3797 |
IMPORT_C TInt Open(const TDesC& aFullName, TOwnerType aType=EOwnerProcess); |
|
3798 |
IMPORT_C TInt Open(TThreadId aID, TOwnerType aType=EOwnerProcess); |
|
3799 |
IMPORT_C TThreadId Id() const; |
|
3800 |
IMPORT_C void Resume() const; |
|
3801 |
IMPORT_C void Suspend() const; |
|
3802 |
/** |
|
3803 |
@publishedAll |
|
3804 |
@deprecated Use User::RenameThread() instead |
|
3805 |
*/ |
|
3806 |
inline static TInt RenameMe(const TDesC& aName); |
|
3807 |
||
3808 |
IMPORT_C void Kill(TInt aReason); |
|
3809 |
IMPORT_C void Terminate(TInt aReason); |
|
3810 |
IMPORT_C void Panic(const TDesC& aCategory,TInt aReason); |
|
3811 |
IMPORT_C TInt Process(RProcess& aProcess) const; |
|
3812 |
IMPORT_C TThreadPriority Priority() const; |
|
3813 |
IMPORT_C void SetPriority(TThreadPriority aPriority) const; |
|
3814 |
IMPORT_C TProcessPriority ProcessPriority() const; |
|
3815 |
IMPORT_C void SetProcessPriority(TProcessPriority aPriority) const; |
|
3816 |
IMPORT_C TInt RequestCount() const; |
|
3817 |
IMPORT_C TExitType ExitType() const; |
|
3818 |
IMPORT_C TInt ExitReason() const; |
|
3819 |
IMPORT_C TExitCategoryName ExitCategory() const; |
|
3820 |
IMPORT_C void RequestComplete(TRequestStatus*& aStatus,TInt aReason) const; |
|
3821 |
IMPORT_C void RequestSignal() const; |
|
3822 |
IMPORT_C void Logon(TRequestStatus& aStatus) const; |
|
3823 |
IMPORT_C TInt LogonCancel(TRequestStatus& aStatus) const; |
|
3824 |
IMPORT_C void HandleCount(TInt& aProcessHandleCount, TInt& aThreadHandleCount) const; |
|
3825 |
IMPORT_C void Context(TDes8& aDes) const; |
|
3826 |
IMPORT_C TInt StackInfo(TThreadStackInfo& aInfo) const; |
|
3827 |
IMPORT_C TInt GetCpuTime(TTimeIntervalMicroSeconds& aCpuTime) const; |
|
3828 |
inline TInt Open(const TFindThread& aFind,TOwnerType aType=EOwnerProcess); |
|
3829 |
IMPORT_C void Rendezvous(TRequestStatus& aStatus) const; |
|
3830 |
IMPORT_C TInt RendezvousCancel(TRequestStatus& aStatus) const; |
|
3831 |
IMPORT_C static void Rendezvous(TInt aReason); |
|
3832 |
||
3833 |
/** |
|
3834 |
Return the Secure ID of the process to which the thread belongs. |
|
3835 |
||
3836 |
If an intended use of this method is to check that the Secure ID is |
|
3837 |
a given value, then the use of a TSecurityPolicy object should be |
|
3838 |
considered. E.g. Instead of something like: |
|
3839 |
||
3840 |
@code |
|
3841 |
RThread& thread; |
|
3842 |
TInt error = thread.SecureId()==KRequiredSecureId ? KErrNone : KErrPermissionDenied; |
|
3843 |
@endcode |
|
3844 |
||
3845 |
this could be used; |
|
3846 |
||
3847 |
@code |
|
3848 |
RThread& thread; |
|
3849 |
static _LIT_SECURITY_POLICY_S0(mySidPolicy, KRequiredSecureId); |
|
3850 |
TBool pass = mySidPolicy().CheckPolicy(thread); |
|
3851 |
@endcode |
|
3852 |
||
3853 |
This has the benefit that the TSecurityPolicy::CheckPolicy methods are |
|
3854 |
configured by the system wide Platform Security configuration. I.e. are |
|
3855 |
capable of emitting diagnostic messages when a check fails and/or the |
|
3856 |
check can be forced to always pass. |
|
3857 |
||
3858 |
@see TSecurityPolicy::CheckPolicy(RThread aThread, const char* aDiagnostic) const |
|
3859 |
@see _LIT_SECURITY_POLICY_S0 |
|
3860 |
||
3861 |
@return The Secure ID. |
|
3862 |
@publishedAll |
|
3863 |
@released |
|
3864 |
*/ |
|
3865 |
IMPORT_C TSecureId SecureId() const; |
|
3866 |
||
3867 |
/** |
|
3868 |
Return the Vendor ID of the process to which the thread belongs. |
|
3869 |
||
3870 |
If an intended use of this method is to check that the Vendor ID is |
|
3871 |
a given value, then the use of a TSecurityPolicy object should be |
|
3872 |
considered. E.g. Instead of something like: |
|
3873 |
||
3874 |
@code |
|
3875 |
RThread& thread; |
|
3876 |
TInt error = thread.VendorId()==KRequiredVendorId ? KErrNone : KErrPermissionDenied; |
|
3877 |
@endcode |
|
3878 |
||
3879 |
this could be used; |
|
3880 |
||
3881 |
@code |
|
3882 |
RThread& thread; |
|
3883 |
static _LIT_SECURITY_POLICY_V0(myVidPolicy, KRequiredVendorId); |
|
3884 |
TBool pass = myVidPolicy().CheckPolicy(thread); |
|
3885 |
@endcode |
|
3886 |
||
3887 |
This has the benefit that the TSecurityPolicy::CheckPolicy methods are |
|
3888 |
configured by the system wide Platform Security configuration. I.e. are |
|
3889 |
capable of emitting diagnostic messages when a check fails and/or the |
|
3890 |
check can be forced to always pass. |
|
3891 |
||
3892 |
@see TSecurityPolicy::CheckPolicy(RThread aThread, const char* aDiagnostic) const |
|
3893 |
@see _LIT_SECURITY_POLICY_V0 |
|
3894 |
||
3895 |
@return The Vendor ID. |
|
3896 |
@publishedAll |
|
3897 |
@released |
|
3898 |
*/ |
|
3899 |
IMPORT_C TVendorId VendorId() const; |
|
3900 |
||
3901 |
/** |
|
3902 |
Check if the process to which the thread belongs has a given capability |
|
3903 |
||
3904 |
When a check fails the action taken is determined by the system wide Platform Security |
|
3905 |
configuration. If PlatSecDiagnostics is ON, then a diagnostic message is emitted. |
|
3906 |
If PlatSecEnforcement is OFF, then this function will return ETrue even though the |
|
3907 |
check failed. |
|
3908 |
||
3909 |
@param aCapability The capability to test. |
|
3910 |
@param aDiagnostic A string that will be emitted along with any diagnostic message |
|
3911 |
that may be issued if the test finds the capability is not present. |
|
3912 |
This string must be enclosed in the __PLATSEC_DIAGNOSTIC_STRING macro |
|
3913 |
which enables it to be easily removed from the system. |
|
3914 |
@return ETrue if the process to which the thread belongs has the capability, EFalse otherwise. |
|
3915 |
@publishedAll |
|
3916 |
@released |
|
3917 |
*/ |
|
3918 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
3919 |
inline TBool HasCapability(TCapability aCapability, const char* aDiagnostic=0) const; |
|
3920 |
#else //__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
3921 |
// Only available to NULL arguments |
|
3922 |
inline TBool HasCapability(TCapability aCapability, OnlyCreateWithNull aDiagnostic=NULL) const; |
|
3923 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__ |
|
3924 |
// For things using KSuppressPlatSecDiagnostic |
|
3925 |
inline TBool HasCapability(TCapability aCapability, OnlyCreateWithNull aDiagnostic, OnlyCreateWithNull aSuppress) const; |
|
3926 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTICS__ |
|
3927 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
3928 |
||
3929 |
/** |
|
3930 |
Check if the process to which the thread belongs has both of the given capabilities |
|
3931 |
||
3932 |
When a check fails the action taken is determined by the system wide Platform Security |
|
3933 |
configuration. If PlatSecDiagnostics is ON, then a diagnostic message is emitted. |
|
3934 |
If PlatSecEnforcement is OFF, then this function will return ETrue even though the |
|
3935 |
check failed. |
|
3936 |
||
3937 |
@param aCapability1 The first capability to test. |
|
3938 |
@param aCapability2 The second capability to test. |
|
3939 |
@param aDiagnostic A string that will be emitted along with any diagnostic message |
|
3940 |
that may be issued if the test finds a capability is not present. |
|
3941 |
This string must be enclosed in the __PLATSEC_DIAGNOSTIC_STRING macro |
|
3942 |
which enables it to be easily removed from the system. |
|
3943 |
@return ETrue if the process to which the thread belongs has both the capabilities, EFalse otherwise. |
|
3944 |
@publishedAll |
|
3945 |
@released |
|
3946 |
*/ |
|
3947 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
3948 |
inline TBool HasCapability(TCapability aCapability1, TCapability aCapability2, const char* aDiagnostic=0) const; |
|
3949 |
#else //__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
3950 |
// Only available to NULL arguments |
|
3951 |
inline TBool HasCapability(TCapability aCapability1, TCapability aCapability2, OnlyCreateWithNull aDiagnostic=NULL) const; |
|
3952 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__ |
|
3953 |
// For things using KSuppressPlatSecDiagnostic |
|
3954 |
inline TBool HasCapability(TCapability aCapability, TCapability aCapability2, OnlyCreateWithNull aDiagnostic, OnlyCreateWithNull aSuppress) const; |
|
3955 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTICS__ |
|
3956 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
3957 |
||
3958 |
/** Function only temporarily supported to aid migration to process emulation... |
|
3959 |
||
3960 |
@publishedAll |
|
3961 |
@deprecated Use process emulation instead |
|
3962 |
*/ |
|
3963 |
inline TInt Create(const TDesC& aName,TThreadFunction aFunction,TInt aStackSize,TAny* aPtr,RLibrary* aLibrary,RHeap* aHeap, TInt aHeapMinSize,TInt aHeapMaxSize,TOwnerType aType); |
|
3964 |
||
3965 |
private: |
|
3966 |
// Implementations of functions with diagnostics |
|
3967 |
IMPORT_C TBool DoHasCapability(TCapability aCapability, const char* aDiagnostic) const; |
|
3968 |
IMPORT_C TBool DoHasCapability(TCapability aCapability) const; |
|
3969 |
IMPORT_C TBool DoHasCapability(TCapability aCapability1, TCapability aCapability2, const char* aDiagnostic) const; |
|
3970 |
IMPORT_C TBool DoHasCapability(TCapability aCapability1, TCapability aCapability2) const; |
|
3971 |
}; |
|
3972 |
||
3973 |
/** |
|
3974 |
@publishedAll |
|
3975 |
@deprecated |
|
3976 |
*/ |
|
3977 |
inline TInt RThread::Create(const TDesC& /*aName*/,TThreadFunction /*aFunction*/,TInt /*aStackSize*/,TAny* /*aPtr*/,RLibrary* /*aLibrary*/,RHeap* /*aHeap*/, TInt /*aHeapMinSize*/,TInt /*aHeapMaxSize*/,TOwnerType /*aType*/) |
|
3978 |
{return KErrNotSupported; } |
|
3979 |
||
3980 |
||
3981 |
||
3982 |
/** |
|
3983 |
@publishedAll |
|
3984 |
@released |
|
3985 |
||
3986 |
Encapsulates the Id of a process. |
|
3987 |
||
3988 |
An object of this type is not explicitly constructed in open code, |
|
3989 |
but is returned by the Id() member function of a process handle, |
|
3990 |
an RProcess type. |
|
3991 |
||
3992 |
@see RProcess |
|
3993 |
*/ |
|
3994 |
class TProcessId : public TObjectId |
|
3995 |
{ |
|
3996 |
public: |
|
3997 |
inline TProcessId(); |
|
3998 |
inline TProcessId(TUint64 anId); |
|
3999 |
}; |
|
4000 |
||
4001 |
||
4002 |
||
4003 |
||
4004 |
class RSubSessionBase; |
|
4005 |
||
4006 |
/** |
|
4007 |
@publishedAll |
|
4008 |
@released |
|
4009 |
||
4010 |
A handle to a process. |
|
4011 |
||
4012 |
The process itself is a kernel object. |
|
4013 |
*/ |
|
4014 |
class RProcess : public RHandleBase |
|
4015 |
{ |
|
4016 |
public: |
|
4017 |
inline RProcess(); |
|
4018 |
IMPORT_C TInt Create(const TDesC& aFileName,const TDesC& aCommand,TOwnerType aType=EOwnerProcess); |
|
4019 |
IMPORT_C TInt Create(const TDesC& aFileName,const TDesC& aCommand,const TUidType &aUidType, TOwnerType aType=EOwnerProcess); |
|
4020 |
IMPORT_C TInt Open(const TDesC& aName,TOwnerType aType=EOwnerProcess); |
|
4021 |
IMPORT_C TInt Open(TProcessId aId,TOwnerType aType=EOwnerProcess); |
|
4022 |
IMPORT_C TUidType Type() const; |
|
4023 |
IMPORT_C TProcessId Id() const; |
|
4024 |
/** |
|
4025 |
@publishedAll |
|
4026 |
@deprecated Use User::RenameProcess() instead |
|
4027 |
*/ |
|
4028 |
inline static TInt RenameMe(const TDesC& aName); |
|
4029 |
||
4030 |
IMPORT_C void Kill(TInt aReason); |
|
4031 |
IMPORT_C void Terminate(TInt aReason); |
|
4032 |
IMPORT_C void Panic(const TDesC& aCategory,TInt aReason); |
|
4033 |
IMPORT_C void Resume(); |
|
4034 |
IMPORT_C TFileName FileName() const; |
|
4035 |
IMPORT_C TExitType ExitType() const; |
|
4036 |
IMPORT_C TInt ExitReason() const; |
|
4037 |
IMPORT_C TExitCategoryName ExitCategory() const; |
|
4038 |
IMPORT_C TProcessPriority Priority() const; |
|
4039 |
IMPORT_C TInt SetPriority(TProcessPriority aPriority) const; |
|
4040 |
IMPORT_C TBool JustInTime() const; |
|
4041 |
IMPORT_C void SetJustInTime(TBool aBoolean) const; |
|
4042 |
IMPORT_C void Logon(TRequestStatus& aStatus) const; |
|
4043 |
IMPORT_C TInt LogonCancel(TRequestStatus& aStatus) const; |
|
4044 |
IMPORT_C TInt GetMemoryInfo(TModuleMemoryInfo& aInfo) const; |
|
4045 |
inline TInt Open(const TFindProcess& aFind,TOwnerType aType=EOwnerProcess); |
|
4046 |
IMPORT_C void Rendezvous(TRequestStatus& aStatus) const; |
|
4047 |
IMPORT_C TInt RendezvousCancel(TRequestStatus& aStatus) const; |
|
4048 |
IMPORT_C static void Rendezvous(TInt aReason); |
|
4049 |
IMPORT_C TBool DefaultDataPaged() const; |
|
4050 |
||
4051 |
/** |
|
4052 |
Return the Secure ID of the process. |
|
4053 |
||
4054 |
If an intended use of this method is to check that the Secure ID is |
|
4055 |
a given value, then the use of a TSecurityPolicy object should be |
|
4056 |
considered. E.g. Instead of something like: |
|
4057 |
||
4058 |
@code |
|
4059 |
RProcess& process; |
|
4060 |
TInt error = process.SecureId()==KRequiredSecureId ? KErrNone : KErrPermissionDenied; |
|
4061 |
@endcode |
|
4062 |
||
4063 |
this could be used; |
|
4064 |
||
4065 |
@code |
|
4066 |
RProcess& process; |
|
4067 |
static _LIT_SECURITY_POLICY_S0(mySidPolicy, KRequiredSecureId); |
|
4068 |
TBool pass = mySidPolicy().CheckPolicy(process); |
|
4069 |
@endcode |
|
4070 |
||
4071 |
This has the benefit that the TSecurityPolicy::CheckPolicy methods are |
|
4072 |
configured by the system wide Platform Security configuration. I.e. are |
|
4073 |
capable of emitting diagnostic messages when a check fails and/or the |
|
4074 |
check can be forced to always pass. |
|
4075 |
||
4076 |
@see TSecurityPolicy::CheckPolicy(RProcess aProcess, const char* aDiagnostic) const |
|
4077 |
@see _LIT_SECURITY_POLICY_S0 |
|
4078 |
||
4079 |
@return The Secure ID. |
|
4080 |
@publishedAll |
|
4081 |
@released |
|
4082 |
*/ |
|
4083 |
IMPORT_C TSecureId SecureId() const; |
|
4084 |
||
4085 |
/** |
|
4086 |
Return the Vendor ID of the process. |
|
4087 |
||
4088 |
If an intended use of this method is to check that the Vendor ID is |
|
4089 |
a given value, then the use of a TSecurityPolicy object should be |
|
4090 |
considered. E.g. Instead of something like: |
|
4091 |
||
4092 |
@code |
|
4093 |
RProcess& process; |
|
4094 |
TInt error = process.VendorId()==KRequiredVendorId ? KErrNone : KErrPermissionDenied; |
|
4095 |
@endcode |
|
4096 |
||
4097 |
this could be used; |
|
4098 |
||
4099 |
@code |
|
4100 |
RProcess& process; |
|
4101 |
static _LIT_SECURITY_POLICY_V0(myVidPolicy, KRequiredVendorId); |
|
4102 |
TBool pass = myVidPolicy().CheckPolicy(process); |
|
4103 |
@endcode |
|
4104 |
||
4105 |
This has the benefit that the TSecurityPolicy::CheckPolicy methods are |
|
4106 |
configured by the system wide Platform Security configuration. I.e. are |
|
4107 |
capable of emitting diagnostic messages when a check fails and/or the |
|
4108 |
check can be forced to always pass. |
|
4109 |
||
4110 |
@see TSecurityPolicy::CheckPolicy(RProcess aProcess, const char* aDiagnostic) const |
|
4111 |
@see _LIT_SECURITY_POLICY_V0 |
|
4112 |
||
4113 |
@return The Vendor ID. |
|
4114 |
@publishedAll |
|
4115 |
@released |
|
4116 |
*/ |
|
4117 |
IMPORT_C TVendorId VendorId() const; |
|
4118 |
||
4119 |
/** |
|
4120 |
Check if the process has a given capability |
|
4121 |
||
4122 |
When a check fails the action taken is determined by the system wide Platform Security |
|
4123 |
configuration. If PlatSecDiagnostics is ON, then a diagnostic message is emitted. |
|
4124 |
If PlatSecEnforcement is OFF, then this function will return ETrue even though the |
|
4125 |
check failed. |
|
4126 |
||
4127 |
@param aCapability The capability to test. |
|
4128 |
@param aDiagnostic A string that will be emitted along with any diagnostic message |
|
4129 |
that may be issued if the test finds the capability is not present. |
|
4130 |
This string must be enclosed in the __PLATSEC_DIAGNOSTIC_STRING macro |
|
4131 |
which enables it to be easily removed from the system. |
|
4132 |
@return ETrue if the process has the capability, EFalse otherwise. |
|
4133 |
@publishedAll |
|
4134 |
@released |
|
4135 |
*/ |
|
4136 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4137 |
inline TBool HasCapability(TCapability aCapability, const char* aDiagnostic=0) const; |
|
4138 |
#else //__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4139 |
// Only available to NULL arguments |
|
4140 |
inline TBool HasCapability(TCapability aCapability, OnlyCreateWithNull aDiagnostic=NULL) const; |
|
4141 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__ |
|
4142 |
// For things using KSuppressPlatSecDiagnostic |
|
4143 |
inline TBool HasCapability(TCapability aCapability, OnlyCreateWithNull aDiagnostic, OnlyCreateWithNull aSuppress) const; |
|
4144 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTICS__ |
|
4145 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4146 |
||
4147 |
/** |
|
4148 |
Check if the process has both of the given capabilities |
|
4149 |
||
4150 |
When a check fails the action taken is determined by the system wide Platform Security |
|
4151 |
configuration. If PlatSecDiagnostics is ON, then a diagnostic message is emitted. |
|
4152 |
If PlatSecEnforcement is OFF, then this function will return ETrue even though the |
|
4153 |
check failed. |
|
4154 |
||
4155 |
@param aCapability1 The first capability to test. |
|
4156 |
@param aCapability2 The second capability to test. |
|
4157 |
@param aDiagnostic A string that will be emitted along with any diagnostic message |
|
4158 |
that may be issued if the test finds a capability is not present. |
|
4159 |
This string must be enclosed in the __PLATSEC_DIAGNOSTIC_STRING macro |
|
4160 |
which enables it to be easily removed from the system. |
|
4161 |
@return ETrue if the process has both the capabilities, EFalse otherwise. |
|
4162 |
@publishedAll |
|
4163 |
@released |
|
4164 |
*/ |
|
4165 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4166 |
inline TBool HasCapability(TCapability aCapability1, TCapability aCapability2, const char* aDiagnostic=0) const; |
|
4167 |
#else //__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4168 |
// Only available to NULL arguments |
|
4169 |
inline TBool HasCapability(TCapability aCapability1, TCapability aCapability2, OnlyCreateWithNull aDiagnostic=NULL) const; |
|
4170 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__ |
|
4171 |
// For things using KSuppressPlatSecDiagnostic |
|
4172 |
inline TBool HasCapability(TCapability aCapability, TCapability aCapability2, OnlyCreateWithNull aDiagnostic, OnlyCreateWithNull aSuppress) const; |
|
4173 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTICS__ |
|
4174 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4175 |
||
4176 |
IMPORT_C TInt SetParameter(TInt aIndex, RHandleBase aHandle); |
|
4177 |
IMPORT_C TInt SetParameter(TInt aSlot, const RSubSessionBase& aSession); |
|
4178 |
IMPORT_C TInt SetParameter(TInt aSlot, const TDesC16& aDes); |
|
4179 |
IMPORT_C TInt SetParameter(TInt aSlot, const TDesC8& aDes); |
|
4180 |
IMPORT_C TInt SetParameter(TInt aSlot, TInt aData); |
|
4181 |
inline RProcess(TInt aHandle); |
|
4182 |
||
4183 |
/** |
|
4184 |
@deprecated Use RProcess::SecureId() instead |
|
4185 |
*/ |
|
4186 |
inline TUid Identity() const { return SecureId(); } |
|
4187 |
||
4188 |
/** |
|
4189 |
Legacy Platform Security development and migration support |
|
4190 |
@internalAll |
|
4191 |
@deprecated No replacement |
|
4192 |
*/ |
|
4193 |
enum TSecureApi { ESecureApiOff, ESecureApiOn, ESecureApiQuery }; // __SECURE_API__ remove this |
|
4194 |
||
4195 |
/** |
|
4196 |
Legacy Platform Security development and migration support |
|
4197 |
@internalAll |
|
4198 |
@deprecated No replacement |
|
4199 |
*/ |
|
4200 |
IMPORT_C TInt SecureApi(TInt aState); // __SECURE_API__ remove this |
|
4201 |
||
4202 |
/** |
|
4203 |
Legacy Platform Security development and migration support |
|
4204 |
@internalAll |
|
4205 |
@deprecated No replacement |
|
4206 |
*/ |
|
4207 |
enum TDataCaging { EDataCagingOff, EDataCagingOn, EDataCagingQuery}; // __DATA_CAGING__ __SECURE_API__ remove this |
|
4208 |
||
4209 |
/** |
|
4210 |
Legacy Platform Security development and migration support |
|
4211 |
@internalAll |
|
4212 |
@deprecated No replacement |
|
4213 |
*/ |
|
4214 |
IMPORT_C TInt DataCaging(TInt aState); // __DATA_CAGING__ __SECURE_API__ remove this |
|
4215 |
||
4216 |
||
4217 |
IMPORT_C TInt CreateWithStackOverride(const TDesC& aFileName,const TDesC& aCommand, const TUidType &aUidType, TInt aMinStackSize, TOwnerType aType); |
|
4218 |
||
4219 |
IMPORT_C static TAny* ExeExportData(void); |
|
4220 |
||
4221 |
private: |
|
4222 |
// Implementations of functions with diagnostics |
|
4223 |
IMPORT_C TBool DoHasCapability(TCapability aCapability, const char* aDiagnostic) const; |
|
4224 |
IMPORT_C TBool DoHasCapability(TCapability aCapability) const; |
|
4225 |
IMPORT_C TBool DoHasCapability(TCapability aCapability1, TCapability aCapability2, const char* aDiagnostic) const; |
|
4226 |
IMPORT_C TBool DoHasCapability(TCapability aCapability1, TCapability aCapability2) const; |
|
4227 |
}; |
|
4228 |
||
4229 |
||
4230 |
||
4231 |
||
4232 |
||
4233 |
||
4234 |
||
4235 |
||
4236 |
||
4237 |
/** |
|
4238 |
@internalTechnology |
|
4239 |
*/ |
|
4240 |
class RServer2 : public RHandleBase |
|
4241 |
{ |
|
4242 |
public: |
|
4243 |
IMPORT_C TInt CreateGlobal(const TDesC& aName); |
|
4244 |
IMPORT_C TInt CreateGlobal(const TDesC& aName, TInt aMode); |
|
4245 |
IMPORT_C TInt CreateGlobal(const TDesC& aName, TInt aMode, TInt aRole, TInt aOpts); |
|
4246 |
IMPORT_C void Receive(RMessage2& aMessage,TRequestStatus& aStatus); |
|
4247 |
IMPORT_C void Receive(RMessage2& aMessage); |
|
4248 |
IMPORT_C void Cancel(); |
|
4249 |
}; |
|
4250 |
||
4251 |
||
4252 |
||
4253 |
||
4254 |
/** |
|
4255 |
@publishedAll |
|
4256 |
@released |
|
4257 |
||
4258 |
Client-side handle to a session with a server. |
|
4259 |
||
4260 |
This is the client-side interface through which communication with the server |
|
4261 |
is channelled. |
|
4262 |
||
4263 |
Clients normally define and implement a derived class to provide |
|
4264 |
a richer interface. |
|
4265 |
*/ |
|
4266 |
class RSessionBase : public RHandleBase |
|
4267 |
{ |
|
4268 |
friend class RSubSessionBase; |
|
4269 |
public: |
|
4270 |
/** |
|
4271 |
Indicates whether or not threads in the process are automatically attached |
|
4272 |
to the session when passed as a parameter to the Share() function. |
|
4273 |
*/ |
|
4274 |
enum TAttachMode {EExplicitAttach,EAutoAttach}; |
|
4275 |
public: |
|
4276 |
/** |
|
4277 |
Creates a session that can be shared by other threads in the current |
|
4278 |
process. |
|
4279 |
||
4280 |
After calling this function the session object may be used by threads other |
|
4281 |
than than the one that created it. |
|
4282 |
||
4283 |
Note that this can only be done with servers that mark their sessions |
|
4284 |
as sharable. |
|
4285 |
||
4286 |
@return KErrNone, if the session is successfully shared; |
|
4287 |
KErrNoMmemory, if the attempt fails for lack of memory. |
|
4288 |
||
4289 |
@panic KERN-EXEC 23 The session cannot be shared. |
|
4290 |
||
4291 |
@see CServer2 |
|
4292 |
@see RSessionBase::ShareProtected() |
|
4293 |
@see CServer2::TServerType |
|
4294 |
*/ |
|
4295 |
inline TInt ShareAuto() { return DoShare(EAutoAttach); } |
|
4296 |
||
4297 |
||
4298 |
/** |
|
4299 |
Creates a session handle that can be be passed via IPC to another process |
|
4300 |
as well as being shared by other threads in the current process. |
|
4301 |
||
4302 |
After calling this function the session object may be used by threads other |
|
4303 |
than than the one that created it. |
|
4304 |
||
4305 |
Note that this can only be done with servers that mark their sessions |
|
4306 |
as globally sharable. |
|
4307 |
||
4308 |
@return KErrNone, if the session is successfully shared; |
|
4309 |
KErrNoMmemory, if the attempt fails for lack of memory. |
|
4310 |
||
4311 |
@panic KERN-EXEC 23 The session cannot be shared. |
|
4312 |
||
4313 |
@see CServer2 |
|
4314 |
@see RSessionBase::ShareAuto() |
|
4315 |
@see CServer2::TServerType |
|
4316 |
*/ |
|
4317 |
inline TInt ShareProtected() { return DoShare(EAutoAttach|KCreateProtectedObject); } |
|
4318 |
||
4319 |
||
4320 |
IMPORT_C TInt Open(RMessagePtr2 aMessage,TInt aParam,TOwnerType aType=EOwnerProcess); |
|
4321 |
IMPORT_C TInt Open(RMessagePtr2 aMessage,TInt aParam,const TSecurityPolicy& aServerPolicy,TOwnerType aType=EOwnerProcess); |
|
4322 |
IMPORT_C TInt Open(TInt aArgumentIndex, TOwnerType aType=EOwnerProcess); |
|
4323 |
IMPORT_C TInt Open(TInt aArgumentIndex, const TSecurityPolicy& aServerPolicy, TOwnerType aType=EOwnerProcess); |
|
4324 |
inline TInt SetReturnedHandle(TInt aHandleOrError); |
|
4325 |
IMPORT_C TInt SetReturnedHandle(TInt aHandleOrError,const TSecurityPolicy& aServerPolicy); |
|
4326 |
protected: |
|
4327 |
inline TInt CreateSession(const TDesC& aServer,const TVersion& aVersion); |
|
4328 |
IMPORT_C TInt CreateSession(const TDesC& aServer,const TVersion& aVersion,TInt aAsyncMessageSlots); |
|
4329 |
IMPORT_C TInt CreateSession(const TDesC& aServer,const TVersion& aVersion,TInt aAsyncMessageSlots,TIpcSessionType aType,const TSecurityPolicy* aPolicy=0, TRequestStatus* aStatus=0); |
|
4330 |
inline TInt CreateSession(RServer2 aServer,const TVersion& aVersion); |
|
4331 |
IMPORT_C TInt CreateSession(RServer2 aServer,const TVersion& aVersion,TInt aAsyncMessageSlots); |
|
4332 |
IMPORT_C TInt CreateSession(RServer2 aServer,const TVersion& aVersion,TInt aAsyncMessageSlots,TIpcSessionType aType,const TSecurityPolicy* aPolicy=0, TRequestStatus* aStatus=0); |
|
4333 |
inline static TInt SetReturnedHandle(TInt aHandleOrError,RHandleBase& aHandle); |
|
4334 |
||
4335 |
/** |
|
4336 |
@deprecated Use CreateSession(const TDesC& aServer,const TVersion& aVersion,TInt aAsyncMessageSlots,TIpcSessionType aType,const TSecurityPolicy* aPolicy=0, TRequestStatus* aStatus=0); |
|
4337 |
*/ |
|
4338 |
inline TInt CreateSession(const TDesC& aServer,const TVersion& aVersion,TInt aAsyncMessageSlots,TRequestStatus* aStatus) |
|
4339 |
{ return CreateSession(aServer, aVersion, aAsyncMessageSlots, EIpcSession_Unsharable, (TSecurityPolicy*)0, aStatus); } |
|
4340 |
inline TInt Send(TInt aFunction,const TIpcArgs& aArgs) const; |
|
4341 |
inline void SendReceive(TInt aFunction,const TIpcArgs& aArgs,TRequestStatus& aStatus) const; |
|
4342 |
inline TInt SendReceive(TInt aFunction,const TIpcArgs& aArgs) const; |
|
4343 |
inline TInt Send(TInt aFunction) const; |
|
4344 |
inline void SendReceive(TInt aFunction,TRequestStatus& aStatus) const; |
|
4345 |
inline TInt SendReceive(TInt aFunction) const; |
|
4346 |
private: |
|
4347 |
IMPORT_C TInt DoSend(TInt aFunction,const TIpcArgs* aArgs) const; |
|
4348 |
IMPORT_C void DoSendReceive(TInt aFunction,const TIpcArgs* aArgs,TRequestStatus& aStatus) const; |
|
4349 |
IMPORT_C TInt DoSendReceive(TInt aFunction,const TIpcArgs* aArgs) const; |
|
4350 |
TInt SendAsync(TInt aFunction,const TIpcArgs* aArgs,TRequestStatus* aStatus) const; |
|
4351 |
TInt SendSync(TInt aFunction,const TIpcArgs* aArgs) const; |
|
4352 |
IMPORT_C TInt DoShare(TInt aAttachMode); |
|
4353 |
TInt DoConnect(const TVersion &aVersion,TRequestStatus* aStatus); |
|
4354 |
}; |
|
4355 |
||
4356 |
||
4357 |
||
4358 |
||
4359 |
/** |
|
4360 |
@publishedAll |
|
4361 |
@released |
|
4362 |
||
4363 |
Client-side handle to a sub-session. |
|
4364 |
||
4365 |
It represents a client-side sub-session, and has a corresponding sub-session |
|
4366 |
object on the server-side. |
|
4367 |
||
4368 |
Clients normally define and implement a derived class to provide a richer |
|
4369 |
interface. In particular, a derived class should: |
|
4370 |
||
4371 |
1. provide a function to create a new sub-session with the server; |
|
4372 |
this should call CreateSubSession(). |
|
4373 |
||
4374 |
2. provide a function to close the current sub-session; |
|
4375 |
this should call CloseSubSession(). |
|
4376 |
||
4377 |
A session must already exist with a server before a client can establish |
|
4378 |
any sub-sessions. |
|
4379 |
*/ |
|
4380 |
class RSubSessionBase |
|
4381 |
{ |
|
4382 |
public: |
|
4383 |
inline TInt SubSessionHandle() const; |
|
4384 |
protected: |
|
4385 |
inline RSubSessionBase(); |
|
4386 |
IMPORT_C const RSessionBase Session() const; |
|
4387 |
inline TInt CreateSubSession(const RSessionBase& aSession,TInt aFunction,const TIpcArgs& aArgs); |
|
4388 |
inline TInt CreateSubSession(const RSessionBase& aSession,TInt aFunction); |
|
4389 |
IMPORT_C TInt CreateAutoCloseSubSession(RSessionBase& aSession,TInt aFunction,const TIpcArgs& aArgs); |
|
4390 |
IMPORT_C void CloseSubSession(TInt aFunction); |
|
4391 |
inline TInt Send(TInt aFunction,const TIpcArgs& aArgs) const; |
|
4392 |
inline void SendReceive(TInt aFunction,const TIpcArgs& aArgs,TRequestStatus& aStatus) const; |
|
4393 |
inline TInt SendReceive(TInt aFunction,const TIpcArgs& aArgs) const; |
|
4394 |
inline TInt Send(TInt aFunction) const; |
|
4395 |
inline void SendReceive(TInt aFunction,TRequestStatus& aStatus) const; |
|
4396 |
inline TInt SendReceive(TInt aFunction) const; |
|
4397 |
private: |
|
4398 |
IMPORT_C TInt DoCreateSubSession(const RSessionBase& aSession,TInt aFunction,const TIpcArgs* aArgs); |
|
4399 |
IMPORT_C TInt DoSend(TInt aFunction,const TIpcArgs* aArgs) const; |
|
4400 |
IMPORT_C void DoSendReceive(TInt aFunction,const TIpcArgs* aArgs,TRequestStatus& aStatus) const; |
|
4401 |
IMPORT_C TInt DoSendReceive(TInt aFunction,const TIpcArgs* aArgs) const; |
|
4402 |
TInt DoCreateSubSession(RSessionBase& aSession,TInt aFunction,const TIpcArgs* aArgs, TBool aAutoClose); |
|
4403 |
private: |
|
4404 |
RSessionBase iSession; |
|
4405 |
TInt iSubSessionHandle; |
|
4406 |
}; |
|
4407 |
||
4408 |
||
4409 |
||
4410 |
||
4411 |
/** |
|
4412 |
@publishedAll |
|
4413 |
@released |
|
4414 |
||
4415 |
Base class that provides an implementation for the templated |
|
4416 |
RRef class. |
|
4417 |
||
4418 |
@see RRef |
|
4419 |
*/ |
|
4420 |
class RRefBase |
|
4421 |
{ |
|
4422 |
public: |
|
4423 |
IMPORT_C void Free(); |
|
4424 |
protected: |
|
4425 |
inline RRefBase(); |
|
4426 |
inline RRefBase(const RRefBase& aRef); |
|
4427 |
IMPORT_C void DoAlloc(const TAny* aPtr,TInt aSize); |
|
4428 |
IMPORT_C void DoAllocL(const TAny* aPtr,TInt aSize); |
|
4429 |
IMPORT_C void Copy(const RRefBase& aRef); |
|
4430 |
private: |
|
4431 |
IMPORT_C void operator=(const RRefBase& aRef); |
|
4432 |
protected: |
|
4433 |
TInt* iPtr; |
|
4434 |
}; |
|
4435 |
||
4436 |
||
4437 |
||
4438 |
||
4439 |
/** |
|
4440 |
@publishedAll |
|
4441 |
@released |
|
4442 |
||
4443 |
Contains, or packages, a copy of an instance of another class. |
|
4444 |
||
4445 |
The template parameter defines the type of the contained object. |
|
4446 |
||
4447 |
The contained object is held in allocated memory, and can be accessed |
|
4448 |
through the member selection and dereference operators. |
|
4449 |
*/ |
|
4450 |
template <class T> |
|
4451 |
class RRef : public RRefBase |
|
4452 |
{ |
|
4453 |
public: |
|
4454 |
inline RRef(); |
|
4455 |
inline RRef(const RRef<T>& anObject); |
|
4456 |
inline void operator=(const RRef<T>& anObject); |
|
4457 |
inline T* operator->(); |
|
4458 |
inline operator T*(); |
|
4459 |
inline void Alloc(const T& anObject); |
|
4460 |
inline void Alloc(const T& anObject,TInt aSize); |
|
4461 |
inline void AllocL(const T& anObject); |
|
4462 |
inline void AllocL(const T& anObject,TInt aSize); |
|
4463 |
}; |
|
4464 |
||
4465 |
||
4466 |
||
4467 |
||
4468 |
/** |
|
4469 |
@publishedAll |
|
4470 |
@released |
|
4471 |
||
4472 |
A handle to a change notifier. |
|
4473 |
||
4474 |
The change notifier itself is a kernel object. |
|
4475 |
*/ |
|
4476 |
class RChangeNotifier : public RHandleBase |
|
4477 |
{ |
|
4478 |
public: |
|
4479 |
IMPORT_C TInt Create(); |
|
4480 |
IMPORT_C TInt Logon(TRequestStatus& aStatus) const; |
|
4481 |
IMPORT_C TInt LogonCancel() const; |
|
4482 |
}; |
|
4483 |
||
4484 |
||
4485 |
||
4486 |
||
4487 |
/** |
|
4488 |
@publishedAll |
|
4489 |
@released |
|
4490 |
||
4491 |
Handle to a thread death notifier. |
|
4492 |
||
4493 |
The notifier allows threads to be notified of the death of another thread. |
|
4494 |
||
4495 |
The thread-death notifier itself is a kernel object. |
|
4496 |
*/ |
|
4497 |
class RUndertaker : public RHandleBase |
|
4498 |
{ |
|
4499 |
public: |
|
4500 |
IMPORT_C TInt Create(); |
|
4501 |
IMPORT_C TInt Logon(TRequestStatus& aStatus,TInt& aThreadHandle) const; |
|
4502 |
IMPORT_C TInt LogonCancel() const; |
|
4503 |
}; |
|
4504 |
||
4505 |
||
4506 |
||
4507 |
||
4508 |
||
4509 |
class HBufC16; |
|
4510 |
/** |
|
4511 |
@publishedAll |
|
4512 |
@released |
|
4513 |
||
4514 |
A handle to a session with the extended notifier server that provides support |
|
4515 |
for plug-in notifiers. |
|
4516 |
||
4517 |
The interface allows engines or other low level components |
|
4518 |
to communicate with the UI. |
|
4519 |
*/ |
|
4520 |
class RNotifier : public RSessionBase |
|
4521 |
{ |
|
4522 |
public: |
|
4523 |
IMPORT_C RNotifier(); |
|
4524 |
IMPORT_C TInt Connect(); |
|
4525 |
IMPORT_C void Close(); |
|
4526 |
IMPORT_C TInt StartNotifier(TUid aNotifierUid,const TDesC8& aBuffer); |
|
4527 |
IMPORT_C TInt StartNotifier(TUid aNotifierUid,const TDesC8& aBuffer,TDes8& aResponse); |
|
4528 |
IMPORT_C TInt StartNotifier(TUid aNotifierDllUid,TUid aNotifierUid,const TDesC8& aBuffer,TDes8& aResponse); |
|
4529 |
IMPORT_C TInt CancelNotifier(TUid aNotifierUid); |
|
4530 |
IMPORT_C TInt UpdateNotifier(TUid aNotifierUid,const TDesC8& aBuffer,TDes8& aResponse); |
|
4531 |
IMPORT_C void UpdateNotifierAndGetResponse(TRequestStatus& aRs,TUid aNotifierUid,const TDesC8& aBuffer,TDes8& aResponse); |
|
4532 |
IMPORT_C void StartNotifierAndGetResponse(TRequestStatus& aRs,TUid aNotifierUid,const TDesC8& aBuffer,TDes8& aResponse); |
|
4533 |
IMPORT_C void StartNotifierAndGetResponse(TRequestStatus& aRs,TUid aNotifierDllUid,TUid aNotifierUid,const TDesC8& aBuffer,TDes8& aResponse); |
|
4534 |
IMPORT_C TInt UnloadNotifiers(TUid aNotifierUid); |
|
4535 |
IMPORT_C TInt LoadNotifiers(TUid aNotifierUid); |
|
4536 |
IMPORT_C void Notify(const TDesC& aLine1,const TDesC& aLine2,const TDesC& aBut1,const TDesC& aBut2,TInt& aButtonVal,TRequestStatus& aStatus); |
|
4537 |
IMPORT_C void NotifyCancel(); |
|
4538 |
IMPORT_C TInt InfoPrint(const TDesC& aDes); |
|
4539 |
private: |
|
4540 |
TPtr8 iButtonVal; |
|
4541 |
HBufC16* iCombinedBuffer; |
|
4542 |
}; |
|
4543 |
||
4544 |
/** |
|
4545 |
@publishedAll |
|
4546 |
@released |
|
4547 |
||
4548 |
Abstract class that defines a handler to work with the TRAP mechanism. |
|
4549 |
||
4550 |
Symbian OS provides a trap handler and this class does not normally need to be |
|
4551 |
used or accessed directly by applications and third party code. |
|
4552 |
*/ |
|
4553 |
class TTrapHandler |
|
4554 |
{ |
|
4555 |
public: |
|
4556 |
IMPORT_C TTrapHandler(); |
|
4557 |
||
4558 |
/** |
|
4559 |
Called when a TRAP is invoked. |
|
4560 |
*/ |
|
4561 |
IMPORT_C virtual void Trap()=0; |
|
4562 |
||
4563 |
/** |
|
4564 |
Called when a function exits a TRAP without leaving. |
|
4565 |
*/ |
|
4566 |
IMPORT_C virtual void UnTrap()=0; |
|
4567 |
||
4568 |
/** |
|
4569 |
Called when a function within a TRAP leaves. |
|
4570 |
||
4571 |
@param aValue The leave value. |
|
4572 |
*/ |
|
4573 |
IMPORT_C virtual void Leave(TInt aValue)=0; |
|
4574 |
}; |
|
4575 |
||
4576 |
||
4577 |
||
4578 |
||
4579 |
struct TCollationMethod; // forward declaration |
|
4580 |
||
4581 |
||
4582 |
||
4583 |
||
4584 |
/** |
|
4585 |
@publishedAll |
|
4586 |
@released |
|
4587 |
||
4588 |
Contains a set of static functions which perform manipulation of |
|
4589 |
data in memory. |
|
4590 |
||
4591 |
The arguments passed to the functions of this class are pointers to memory |
|
4592 |
locations and length values. These functions are, therefore, not normally |
|
4593 |
used in open code but are suitable for implementing data manipulation for |
|
4594 |
other classes. Typically the interface provided by such classes is typesafe |
|
4595 |
and hides this direct memory to memory manipulation. |
|
4596 |
*/ |
|
4597 |
class Mem |
|
4598 |
{ |
|
4599 |
public: |
|
4600 |
inline static TUint8* Copy(TAny* aTrg, const TAny* aSrc, TInt aLength); |
|
4601 |
inline static TUint8* Move(TAny* aTrg, const TAny* aSrc, TInt aLength); |
|
4602 |
inline static void Fill(TAny* aTrg, TInt aLength, TChar aChar); |
|
4603 |
inline static void FillZ(TAny* aTrg, TInt aLength); |
|
4604 |
#ifndef __GCC32__ |
|
4605 |
inline static TInt Compare(const TUint8* aLeft, TInt aLeftL, const TUint8* aRight, TInt aRightL); |
|
4606 |
#else |
|
4607 |
IMPORT_C static TInt Compare(const TUint8* aLeft, TInt aLeftL, const TUint8* aRight, TInt aRightL); |
|
4608 |
#endif |
|
4609 |
||
4610 |
IMPORT_C static TInt Compare(const TUint16* aLeft, TInt aLeftL, const TUint16* aRight, TInt aRightL); |
|
4611 |
IMPORT_C static TInt CompareF(const TUint8* aLeft, TInt aLeftL, const TUint8* aRight, TInt aRightL); |
|
4612 |
IMPORT_C static TInt CompareF(const TUint16* aLeft, TInt aLeftL, const TUint16* aRight, TInt aRightL); |
|
4613 |
IMPORT_C static TInt CompareC(const TUint8* aLeft, TInt aLeftL, const TUint8* aRight, TInt aRightL); |
|
4614 |
IMPORT_C static TInt CompareC(const TUint16* aLeft, TInt aLeftL, const TUint16* aRight, TInt aRightL); |
|
4615 |
IMPORT_C static TInt CompareC(const TUint16* aLeft, TInt aLeftL, const TUint16* aRight, TInt aRightL, |
|
4616 |
TInt aMaxLevel, const TCollationMethod* aCollationMethod); |
|
4617 |
IMPORT_C static TInt CollationMethods(); |
|
4618 |
IMPORT_C static TUint CollationMethodId(TInt aIndex); |
|
4619 |
IMPORT_C static const TCollationMethod* CollationMethodByIndex(TInt aIndex); |
|
4620 |
IMPORT_C static const TCollationMethod* CollationMethodById(TUint aId); |
|
4621 |
IMPORT_C static const TCollationMethod* GetDefaultMatchingTable(); |
|
4622 |
IMPORT_C static void Swap(TAny* aPtr1, TAny* aPtr2, TInt aLength); |
|
4623 |
IMPORT_C static void Crc(TUint16& aCrc, const TAny* aPtr, TInt aLength); |
|
4624 |
IMPORT_C static void Crc32(TUint32& aCrc, const TAny* aPtr, TInt aLength); |
|
4625 |
}; |
|
4626 |
||
4627 |
||
4628 |
||
4629 |
||
4630 |
||
4631 |
/** |
|
4632 |
@publishedAll |
|
4633 |
@released |
|
4634 |
||
4635 |
Set of static user functions. |
|
4636 |
||
4637 |
These functions are related to a number of System component APIs. |
|
4638 |
||
4639 |
The majority of the functions are related to either the current thread, or |
|
4640 |
its heap. Examples in this category include User::Exit(), which causes the |
|
4641 |
thread to terminate, and User::Alloc(), which allocates memory from the current |
|
4642 |
thread's heap. |
|
4643 |
||
4644 |
Some of these functions are equivalent to functions in the RThread or RHeap |
|
4645 |
classes. In these cases, the User function is a convenient way to access the |
|
4646 |
function without first having to get a handle to the current thread. |
|
4647 |
||
4648 |
Functions are also provided to support debugging of memory leaks. These function |
|
4649 |
calls can be written explicitly or can be generated using a corresponding |
|
4650 |
macro - the advantage of using a macro is that the function call is only |
|
4651 |
generated for debug builds. |
|
4652 |
||
4653 |
A final category of functions, which includes User::BinarySearch() and User::QuickSort(), |
|
4654 |
are just useful functions which have no other natural home. |
|
4655 |
||
4656 |
@see RThread |
|
4657 |
@see RHeap |
|
4658 |
*/ |
|
4659 |
class User : public UserHeap |
|
4660 |
{ |
|
4661 |
public: |
|
4662 |
// Execution control |
|
4663 |
IMPORT_C static void InitProcess(); /**< @internalComponent */ |
|
4664 |
IMPORT_C static void Exit(TInt aReason); |
|
4665 |
IMPORT_C static void Panic(const TDesC& aCategory,TInt aReason); |
|
4666 |
IMPORT_C static void HandleException(TAny* aInfo); /**< @internalComponent */ |
|
4667 |
// Cleanup support |
|
4668 |
IMPORT_C static void Leave(TInt aReason); |
|
4669 |
IMPORT_C static void LeaveNoMemory(); |
|
4670 |
IMPORT_C static TInt LeaveIfError(TInt aReason); |
|
4671 |
IMPORT_C static TAny* LeaveIfNull(TAny* aPtr); |
|
4672 |
inline static const TAny* LeaveIfNull(const TAny* aPtr); |
|
4673 |
IMPORT_C static TTrapHandler* SetTrapHandler(TTrapHandler* aHandler); |
|
4674 |
IMPORT_C static TTrapHandler* TrapHandler(); |
|
4675 |
IMPORT_C static TTrapHandler* MarkCleanupStack(); /**< @internalComponent */ |
|
4676 |
IMPORT_C static void UnMarkCleanupStack(TTrapHandler* aHandler); /**< @internalComponent */ |
|
4677 |
IMPORT_C static void LeaveEnd(); /**< @internalComponent */ |
|
4678 |
// Infoprint |
|
4679 |
IMPORT_C static TInt InfoPrint(const TDesC& aDes); |
|
4680 |
// Asynchronous service support |
|
4681 |
IMPORT_C static void RequestComplete(TRequestStatus*& aStatus,TInt aReason); |
|
4682 |
IMPORT_C static void WaitForAnyRequest(); |
|
4683 |
IMPORT_C static void WaitForRequest(TRequestStatus& aStatus); |
|
4684 |
IMPORT_C static void WaitForRequest(TRequestStatus& aStatus1,TRequestStatus& aStatus2); |
|
4685 |
IMPORT_C static void WaitForNRequest(TRequestStatus *aStatusArray[], TInt aNum); |
|
4686 |
// User heap management |
|
4687 |
IMPORT_C static TInt AllocLen(const TAny* aCell); |
|
4688 |
IMPORT_C static TAny* Alloc(TInt aSize); |
|
4689 |
IMPORT_C static TAny* AllocL(TInt aSize); |
|
4690 |
IMPORT_C static TAny* AllocLC(TInt aSize); |
|
4691 |
IMPORT_C static TAny* AllocZ(TInt aSize); |
|
4692 |
IMPORT_C static TAny* AllocZL(TInt aSize); |
|
4693 |
IMPORT_C static TInt AllocSize(TInt& aTotalAllocSize); |
|
4694 |
IMPORT_C static TInt Available(TInt& aBiggestBlock); |
|
4695 |
IMPORT_C static TInt CountAllocCells(); |
|
4696 |
IMPORT_C static TInt CountAllocCells(TInt& aFreeCount); |
|
4697 |
IMPORT_C static void Free(TAny* aCell); |
|
4698 |
IMPORT_C static void FreeZ(TAny*& aCell); |
|
4699 |
IMPORT_C static RAllocator& Allocator(); |
|
4700 |
inline static RHeap& Heap(); |
|
4701 |
IMPORT_C static TAny* ReAlloc(TAny* aCell, TInt aSize, TInt aMode=0); |
|
4702 |
IMPORT_C static TAny* ReAllocL(TAny* aCell, TInt aSize, TInt aMode=0); |
|
4703 |
IMPORT_C static RAllocator* SwitchAllocator(RAllocator* aAllocator); |
|
4704 |
inline static RHeap* SwitchHeap(RAllocator* aHeap); |
|
4705 |
IMPORT_C static TInt CompressAllHeaps(); |
|
4706 |
// Synchronous timer services |
|
4707 |
IMPORT_C static void After(TTimeIntervalMicroSeconds32 aInterval); |
|
4708 |
IMPORT_C static TInt At(const TTime& aTime); |
|
4709 |
IMPORT_C static void AfterHighRes(TTimeIntervalMicroSeconds32 aInterval); |
|
4710 |
// Set time and deal with timezones |
|
4711 |
IMPORT_C static TInt SetHomeTime(const TTime& aTime); |
|
4712 |
IMPORT_C static TInt SetHomeTimeSecure(const TTime& aTime); |
|
4713 |
IMPORT_C static TInt SetUTCTime(const TTime& aUTCTime); |
|
4714 |
IMPORT_C static TInt SetUTCTimeSecure(const TTime& aUTCTime); |
|
4715 |
IMPORT_C static TTimeIntervalSeconds UTCOffset(); |
|
4716 |
IMPORT_C static void SetUTCOffset(TTimeIntervalSeconds aOffset); |
|
4717 |
IMPORT_C static TInt SetUTCTimeAndOffset(const TTime& aUTCTime, TTimeIntervalSeconds aOffset); |
|
4718 |
// Set locale information |
|
4719 |
IMPORT_C static TInt SetCurrencySymbol(const TDesC& aSymbol); |
|
4720 |
// Set floating point mode |
|
4721 |
IMPORT_C static TInt SetFloatingPointMode(TFloatingPointMode aMode, TFloatingPointRoundingMode aRoundingMode=EFpRoundToNearest); |
|
4722 |
// Timers |
|
4723 |
IMPORT_C static TUint TickCount(); |
|
4724 |
IMPORT_C static TUint32 NTickCount(); |
|
4725 |
IMPORT_C static TTimerLockSpec LockPeriod(); |
|
4726 |
IMPORT_C static TTimeIntervalSeconds InactivityTime(); |
|
4727 |
IMPORT_C static void ResetInactivityTime(); |
|
4728 |
IMPORT_C static TUint32 FastCounter(); |
|
4729 |
// Atomic operations |
|
4730 |
IMPORT_C static TInt LockedInc(TInt& aValue); |
|
4731 |
IMPORT_C static TInt LockedDec(TInt& aValue); |
|
4732 |
IMPORT_C static TInt SafeInc(TInt& aValue); |
|
4733 |
IMPORT_C static TInt SafeDec(TInt& aValue); |
|
4734 |
// Beep |
|
4735 |
IMPORT_C static TInt Beep(TInt aFrequency,TTimeIntervalMicroSeconds32 aDuration); |
|
4736 |
// Information |
|
4737 |
IMPORT_C static TInt IsRomAddress(TBool& aBool,TAny* aPtr); |
|
4738 |
// Algorithms |
|
4739 |
IMPORT_C static TInt BinarySearch(TInt aCount,const TKey& aKey,TInt& aPos); |
|
4740 |
IMPORT_C static TInt QuickSort(TInt aCount,const TKey& aKey,const TSwap& aSwap); |
|
4741 |
// Language-dependent character functions |
|
4742 |
IMPORT_C static TLanguage Language(); |
|
4743 |
IMPORT_C static TRegionCode RegionCode(); |
|
4744 |
IMPORT_C static TUint Collate(TUint aChar); |
|
4745 |
IMPORT_C static TUint Fold(TUint aChar); |
|
4746 |
IMPORT_C static TUint LowerCase(TUint aChar); |
|
4747 |
IMPORT_C static TUint UpperCase(TUint aChar); |
|
4748 |
IMPORT_C static TUint Fold(TUint aChar,TInt aFlags); |
|
4749 |
IMPORT_C static TUint TitleCase(TUint aChar); |
|
4750 |
// C-style string length |
|
4751 |
IMPORT_C static TInt StringLength(const TUint8* aString); |
|
4752 |
IMPORT_C static TInt StringLength(const TUint16* aString); |
|
4753 |
// Device management |
|
4754 |
IMPORT_C static TInt FreeLogicalDevice(const TDesC& aDeviceName); |
|
4755 |
IMPORT_C static TInt FreePhysicalDevice(const TDesC& aDriverName); |
|
4756 |
IMPORT_C static TInt LoadLogicalDevice(const TDesC& aFileName); |
|
4757 |
IMPORT_C static TInt LoadPhysicalDevice(const TDesC& aFileName); |
|
4758 |
// Version information |
|
4759 |
IMPORT_C static TBool QueryVersionSupported(const TVersion& aCurrent,const TVersion& aRequested); |
|
4760 |
IMPORT_C static TVersion Version(); |
|
4761 |
// Machine configuration |
|
4762 |
IMPORT_C static TInt SetMachineConfiguration(const TDesC8& aConfig); |
|
4763 |
IMPORT_C static TInt MachineConfiguration(TDes8& aConfig,TInt& aSize); |
|
4764 |
// Debugging support |
|
4765 |
IMPORT_C static void SetDebugMask(TUint32 aVal); |
|
4766 |
IMPORT_C static void SetDebugMask(TUint32 aVal, TUint aIndex); |
|
4767 |
IMPORT_C static void SetJustInTime(const TBool aBoolean); |
|
4768 |
IMPORT_C static void Check(); |
|
4769 |
IMPORT_C static void Invariant(); |
|
4770 |
IMPORT_C static TBool JustInTime(); |
|
4771 |
IMPORT_C static void __DbgMarkStart(TBool aKernel); |
|
4772 |
IMPORT_C static void __DbgMarkCheck(TBool aKernel, TBool aCountAll, TInt aCount, const TUint8* aFileName, TInt aLineNum); |
|
4773 |
IMPORT_C static TUint32 __DbgMarkEnd(TBool aKernel, TInt aCount); |
|
4774 |
IMPORT_C static void __DbgSetAllocFail(TBool aKernel, RAllocator::TAllocFail aFail, TInt aRate); |
|
177 | 4775 |
IMPORT_C static RAllocator::TAllocFail __DbgGetAllocFail(TBool aKernel); |
0 | 4776 |
IMPORT_C static void __DbgSetBurstAllocFail(TBool aKernel, RAllocator::TAllocFail aFail, TUint aRate, TUint aBurst); |
4777 |
IMPORT_C static TUint __DbgCheckFailure(TBool aKernel); |
|
4778 |
IMPORT_C static void PanicUnexpectedLeave(); /**< @internalComponent */ |
|
4779 |
// Name Validation |
|
4780 |
IMPORT_C static TInt ValidateName(const TDesC& aName); |
|
4781 |
// Instruction Memory Barrier |
|
4782 |
IMPORT_C static void IMB_Range(TAny* aStart, TAny* aEnd); |
|
4783 |
// |
|
4784 |
IMPORT_C static TInt CommandLineLength(); |
|
4785 |
IMPORT_C static void CommandLine(TDes &aCommand); |
|
4786 |
IMPORT_C static TExceptionHandler ExceptionHandler(); |
|
4787 |
IMPORT_C static TInt SetExceptionHandler(TExceptionHandler aHandler,TUint32 aMask); |
|
4788 |
IMPORT_C static void ModifyExceptionMask(TUint32 aClearMask, TUint32 aSetMask); |
|
4789 |
IMPORT_C static TInt RaiseException(TExcType aType); |
|
4790 |
IMPORT_C static TBool IsExceptionHandled(TExcType aType); |
|
4791 |
||
4792 |
/** |
|
4793 |
A set of values that defines the effect that terminating a thread |
|
4794 |
has, either on its owning process or on the whole system. |
|
4795 |
||
4796 |
A thread is said to be critical if its owning process or the entire system |
|
4797 |
terminates when the thread itself terminates. |
|
4798 |
||
4799 |
You pass one of these values to the functions: |
|
4800 |
- User::SetCritical() |
|
4801 |
- User::SetProcessCritical() |
|
4802 |
||
4803 |
The meaning of a value when passed to one function is different to |
|
4804 |
its meaning when passed the other function. See the description of each |
|
4805 |
individual value. |
|
4806 |
||
4807 |
@see User::SetCritical() |
|
4808 |
@see User::SetProcessCritical() |
|
4809 |
*/ |
|
4810 |
enum TCritical { |
|
4811 |
||
4812 |
||
4813 |
/** |
|
4814 |
This value can be passed to both: |
|
4815 |
- User::SetCritical(), which means that the current thread |
|
4816 |
is no longer critical, i.e. termination of the current |
|
4817 |
thread will no longer cause termination of the current thread's |
|
4818 |
owning process (i.e. the current process) or a reboot of the system. |
|
4819 |
- User::SetProcessCritical(), which means that threads |
|
4820 |
subsequently created in the current thread's owning |
|
4821 |
process (i.e. the current process) will no longer cause termination of that |
|
4822 |
process or a reboot of the system. Note, however, that existing |
|
4823 |
threads are NOT affected when you call this function. |
|
4824 |
||
4825 |
@see User::SetCritical() |
|
4826 |
@see User::SetProcessCritical() |
|
4827 |
*/ |
|
4828 |
ENotCritical, |
|
4829 |
||
4830 |
||
4831 |
/** |
|
4832 |
This value can only be passed to User::SetCritical() and |
|
4833 |
affects the current thread only. |
|
4834 |
||
4835 |
It means that the owning process (i.e.the current process) |
|
4836 |
terminates if: |
|
4837 |
- the current thread is terminated. |
|
4838 |
- the current thread panics. |
|
4839 |
||
4840 |
@see User::SetCritical() |
|
4841 |
*/ |
|
4842 |
EProcessCritical, |
|
4843 |
||
4844 |
||
4845 |
/** |
|
4846 |
This value can only be passed to User::SetCritical() and |
|
4847 |
affects the current thread only. |
|
4848 |
||
4849 |
It means that the owning process (i.e.the current process) |
|
4850 |
terminates if the current thread terminates for any reason. |
|
4851 |
||
4852 |
@see User::SetCritical() |
|
4853 |
*/ |
|
4854 |
EProcessPermanent, |
|
4855 |
||
4856 |
||
4857 |
/** |
|
4858 |
This value can only be passed to User::SetProcessCritical() and |
|
4859 |
affects any new threads created in the current process. |
|
4860 |
||
4861 |
It means that the current process terminates if: |
|
4862 |
- any new thread subsequently created in the current process is terminated. |
|
4863 |
- any new thread subsequently created in the current process panics. |
|
4864 |
. |
|
4865 |
Note, however, that existing threads in the current process |
|
4866 |
are NOT affected when you call User::SetProcessCritical() |
|
4867 |
with this value. |
|
4868 |
||
4869 |
@see EProcessCritical |
|
4870 |
@see User::SetProcessCritical() |
|
4871 |
*/ |
|
4872 |
EAllThreadsCritical, |
|
4873 |
||
4874 |
||
4875 |
/** |
|
4876 |
This value can be passed to both: User::SetCritical() and |
|
4877 |
User::SetProcessCritical(). |
|
4878 |
||
4879 |
When passed to User::SetCritical(), it means that |
|
4880 |
the entire system is rebooted if: |
|
4881 |
- the current thread is terminated. |
|
4882 |
- the current thread panics. |
|
4883 |
||
4884 |
When passed to User::SetProcessCritical(), it means that |
|
4885 |
the entire system is rebooted if: |
|
4886 |
- any new thread subsequently created in the current process is terminated. |
|
4887 |
- any new thread subsequently created in the current process panics. |
|
4888 |
- the process itself is terminated |
|
4889 |
- the process itself panics |
|
4890 |
||
4891 |
Note: |
|
4892 |
-# existing threads in the current process are NOT affected when you |
|
4893 |
call User::SetProcessCritical() with this value. |
|
4894 |
-# Only a process with 'Protected Server' capability can set a |
|
4895 |
thread to system-critical. |
|
4896 |
||
4897 |
@see User::SetCritical() |
|
4898 |
@see User::SetProcessCritical() |
|
4899 |
*/ |
|
4900 |
ESystemCritical, |
|
4901 |
||
4902 |
||
4903 |
/** |
|
4904 |
This value can be passed to both: User::SetCritical() |
|
4905 |
and User::SetProcessCritical(). |
|
4906 |
||
4907 |
When passed to User::SetCritical(), it means that |
|
4908 |
the entire system is rebooted if the current thread |
|
4909 |
exits for any reason. |
|
4910 |
||
4911 |
When passed to User::SetProcessCritical(), it means that |
|
4912 |
the entire system is rebooted if any new thread |
|
4913 |
subsequently created in the current process exits |
|
4914 |
for any reason, or if the process itself exits for any reason. |
|
4915 |
||
4916 |
Note: |
|
4917 |
-# existing threads in the current process are NOT affected when you |
|
4918 |
call User::SetProcessCritical() with this value. |
|
4919 |
-# Only a process with 'Protected Server' capability can set a |
|
4920 |
thread to system-permanent. |
|
4921 |
||
4922 |
@see User::SetCritical() |
|
4923 |
@see User::SetProcessCritical() |
|
4924 |
*/ |
|
4925 |
ESystemPermanent |
|
4926 |
}; |
|
4927 |
IMPORT_C static TCritical Critical(); |
|
4928 |
IMPORT_C static TCritical Critical(RThread aThread); |
|
4929 |
IMPORT_C static TInt SetCritical(TCritical aCritical); |
|
4930 |
IMPORT_C static TCritical ProcessCritical(); |
|
4931 |
IMPORT_C static TCritical ProcessCritical(RProcess aProcess); |
|
4932 |
IMPORT_C static TInt SetProcessCritical(TCritical aCritical); |
|
4933 |
IMPORT_C static TBool PriorityControl(); |
|
4934 |
IMPORT_C static void SetPriorityControl(TBool aEnable); |
|
4935 |
||
4936 |
/** |
|
4937 |
A threads realtime state. |
|
4938 |
Some non-realtime behaviour can be detected by the kernel. When it does so, |
|
4939 |
action is taken depending on the thread state: |
|
4940 |
- ERealtimeStateOff - no action. |
|
4941 |
- ERealtimeStateOn - the the thread will be panicked with KERN-EXEC 61 (EIllegalFunctionForRealtimeThread). |
|
4942 |
- ERealtimeStateWarn - no action. However, if the kernel trace flag KREALTIME is enabled |
|
4943 |
then tracing will be emitted as if the thread state was ERealtimeStateOn. |
|
4944 |
@publishedPartner |
|
4945 |
@released |
|
4946 |
*/ |
|
4947 |
enum TRealtimeState |
|
4948 |
{ |
|
4949 |
ERealtimeStateOff, /**< Thread is not realtime */ |
|
4950 |
ERealtimeStateOn, /**< Thread is realtime */ |
|
4951 |
ERealtimeStateWarn /**< Thread is realtime but doesn't want this enforced */ |
|
4952 |
}; |
|
4953 |
||
4954 |
/** |
|
4955 |
Set the current threads realtime state. |
|
4956 |
@see TRealtimeState |
|
4957 |
@param aState The state |
|
4958 |
@return KErrNone if successful. KErrArgument if aState is invalid. |
|
4959 |
@publishedPartner |
|
4960 |
@released |
|
4961 |
*/ |
|
4962 |
IMPORT_C static TInt SetRealtimeState(TRealtimeState aState); |
|
4963 |
||
4964 |
/** |
|
4965 |
Return the Secure ID of the process that created the current process. |
|
4966 |
@return The Secure ID. |
|
4967 |
@publishedAll |
|
4968 |
@released |
|
4969 |
*/ |
|
4970 |
IMPORT_C static TSecureId CreatorSecureId(); |
|
4971 |
||
4972 |
/** |
|
4973 |
Return the Vendor ID of the process that created the current process. |
|
4974 |
@return The Vendor ID. |
|
4975 |
@publishedAll |
|
4976 |
@released |
|
4977 |
*/ |
|
4978 |
IMPORT_C static TVendorId CreatorVendorId(); |
|
4979 |
||
4980 |
/** |
|
4981 |
Check if the process that created the current process has a given capability |
|
4982 |
||
4983 |
When a check fails the action taken is determined by the system wide Platform Security |
|
4984 |
configuration. If PlatSecDiagnostics is ON, then a diagnostic message is emitted. |
|
4985 |
If PlatSecEnforcement is OFF, then this function will return ETrue even though the |
|
4986 |
check failed. |
|
4987 |
||
4988 |
@param aCapability The capability to test. |
|
4989 |
@param aDiagnostic A string that will be emitted along with any diagnostic message |
|
4990 |
that may be issued if the test finds the capability is not present. |
|
4991 |
This string must be enclosed in the __PLATSEC_DIAGNOSTIC_STRING macro |
|
4992 |
which enables it to be easily removed from the system. |
|
4993 |
@return ETrue if the creator process has the capability, EFalse otherwise. |
|
4994 |
@publishedAll |
|
4995 |
@released |
|
4996 |
*/ |
|
4997 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
4998 |
inline static TBool CreatorHasCapability(TCapability aCapability, const char* aDiagnostic=0); |
|
4999 |
#else //__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
5000 |
// Only available to NULL arguments |
|
5001 |
inline static TBool CreatorHasCapability(TCapability aCapability, OnlyCreateWithNull aDiagnostic=NULL); |
|
5002 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__ |
|
5003 |
// For things using KSuppressPlatSecDiagnostic |
|
5004 |
inline static TBool CreatorHasCapability(TCapability aCapability, OnlyCreateWithNull aDiagnostic, OnlyCreateWithNull aSuppress); |
|
5005 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTICS__ |
|
5006 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
5007 |
||
5008 |
/** |
|
5009 |
Check if the process that created the current process has both of the given capabilities |
|
5010 |
||
5011 |
When a check fails the action taken is determined by the system wide Platform Security |
|
5012 |
configuration. If PlatSecDiagnostics is ON, then a diagnostic message is emitted. |
|
5013 |
If PlatSecEnforcement is OFF, then this function will return ETrue even though the |
|
5014 |
check failed. |
|
5015 |
||
5016 |
@param aCapability1 The first capability to test. |
|
5017 |
@param aCapability2 The second capability to test. |
|
5018 |
@param aDiagnostic A string that will be emitted along with any diagnostic message |
|
5019 |
that may be issued if the test finds a capability is not present. |
|
5020 |
This string must be enclosed in the __PLATSEC_DIAGNOSTIC_STRING macro |
|
5021 |
which enables it to be easily removed from the system. |
|
5022 |
@return ETrue if the creator process has both the capabilities, EFalse otherwise. |
|
5023 |
@publishedAll |
|
5024 |
@released |
|
5025 |
*/ |
|
5026 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
5027 |
inline static TBool CreatorHasCapability(TCapability aCapability1, TCapability aCapability2, const char* aDiagnostic=0); |
|
5028 |
#else //__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
5029 |
// Only available to NULL arguments |
|
5030 |
inline static TBool CreatorHasCapability(TCapability aCapability1, TCapability aCapability2, OnlyCreateWithNull aDiagnostic=NULL); |
|
5031 |
#ifndef __REMOVE_PLATSEC_DIAGNOSTICS__ |
|
5032 |
// For things using KSuppressPlatSecDiagnostic |
|
5033 |
inline static TBool CreatorHasCapability(TCapability aCapability, TCapability aCapability2, OnlyCreateWithNull aDiagnostic, OnlyCreateWithNull aSuppress); |
|
5034 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTICS__ |
|
5035 |
#endif // !__REMOVE_PLATSEC_DIAGNOSTIC_STRINGS__ |
|
5036 |
||
5037 |
IMPORT_C static TInt ParameterLength(TInt aSlot); |
|
5038 |
IMPORT_C static TInt GetTIntParameter(TInt aSlot, TInt& aData); |
|
5039 |
IMPORT_C static TInt GetDesParameter(TInt aSlot, TDes8& aDes); |
|
5040 |
IMPORT_C static TInt GetDesParameter(TInt aSlot, TDes16& aDes); |
|
5041 |
IMPORT_C static TInt RenameThread(const TDesC &aName); |
|
5042 |
IMPORT_C static TInt RenameProcess(const TDesC &aName); |
|
5043 |
/* |
|
5044 |
User::Identity() has been deprecated and is available for backward |
|
5045 |
compatibility purposes only. |
|
5046 |
||
5047 |
Use RProcess().SecureId() instead. |
|
5048 |
||
5049 |
@deprecated |
|
5050 |
*/ |
|
5051 |
inline static TUid Identity() { return RProcess().SecureId(); } |
|
5052 |
||
5053 |
/* |
|
5054 |
User::CreatorIdentity() has been deprecated and is available for backward |
|
5055 |
compatibility purposes only. |
|
5056 |
||
5057 |
Use CreatorSecureId() instead. |
|
5058 |
||
5059 |
@deprecated |
|
5060 |
*/ |
|
5061 |
static inline TUid CreatorIdentity() { return CreatorSecureId(); } |
|
5062 |
||
5063 |
IMPORT_C static void NotifyOnIdle(TRequestStatus& aStatus); /**< @internalTechnology */ |
|
5064 |
IMPORT_C static void CancelMiscNotifier(TRequestStatus& aStatus); /**< @internalTechnology */ |
|
5065 |
private: |
|
5066 |
// Implementations of functions with diagnostics |
|
5067 |
IMPORT_C static TBool DoCreatorHasCapability(TCapability aCapability, const char* aDiagnostic); |
|
5068 |
IMPORT_C static TBool DoCreatorHasCapability(TCapability aCapability); |
|
5069 |
IMPORT_C static TBool DoCreatorHasCapability(TCapability aCapability1, TCapability aCapability2, const char* aDiagnostic); |
|
5070 |
IMPORT_C static TBool DoCreatorHasCapability(TCapability aCapability1, TCapability aCapability2); |
|
5071 |
}; |
|
5072 |
||
5073 |
||
5074 |
||
5075 |
||
5076 |
class ExecHandler; |
|
5077 |
||
5078 |
/** |
|
5079 |
@internalComponent |
|
5080 |
@removed |
|
5081 |
*/ |
|
5082 |
typedef void (*TTlsCleanupHandler)(TAny*); //don't use |
|
5083 |
||
5084 |
/** |
|
5085 |
@publishedAll |
|
5086 |
@released |
|
5087 |
||
5088 |
A collection of static functions involved in managing access to |
|
5089 |
thread-local storage. |
|
5090 |
||
5091 |
Thread-local storage is a single machine word of static writable memory. |
|
5092 |
The scope of this machine word is the thread, which means that there is one |
|
5093 |
word per thread. The word is only accessible to code running in a DLL. |
|
5094 |
||
5095 |
In practice, this word is almost always used to hold a pointer to allocated |
|
5096 |
memory; this makes that memory available to all DLL code running on behalf |
|
5097 |
of the same thread. |
|
5098 |
||
5099 |
Note that DLL code running on behalf of one thread does not see the same word when |
|
5100 |
running on behalf of another thread. |
|
5101 |
||
5102 |
The class in not intended for user derivation. |
|
5103 |
*/ |
|
5104 |
class Dll |
|
5105 |
{ |
|
5106 |
public: |
|
5107 |
static TInt SetTls(TAny* aPtr); |
|
5108 |
static TAny* Tls(); |
|
5109 |
static void FreeTls(); |
|
5110 |
static void FileName(TFileName &aFileName); |
|
5111 |
}; |
|
5112 |
||
5113 |
||
5114 |
||
5115 |
||
5116 |
#ifndef __TOOLS__ |
|
5117 |
/** |
|
5118 |
@publishedAll |
|
5119 |
@released |
|
5120 |
||
5121 |
A thin wrapper class for C++ arrays allowing automatic checking of index values |
|
5122 |
to ensure that all accesses are legal. |
|
5123 |
||
5124 |
The class also supports the deletion of objects. |
|
5125 |
||
5126 |
The class is templated, based on a class type and an integer value. The class |
|
5127 |
type defines the type of object contained in the array; the integer value |
|
5128 |
defines the size (dimension) of the array. |
|
5129 |
||
5130 |
A wrapper object can be: |
|
5131 |
||
5132 |
1. embedded in objects allocated on the heap. |
|
5133 |
||
5134 |
2. used on the program stack. |
|
5135 |
*/ |
|
5136 |
template <class T,TInt S> |
|
5137 |
class TFixedArray |
|
5138 |
{ |
|
5139 |
typedef TFixedArray<T,S> ThisClass; |
|
5140 |
public: |
|
5141 |
inline TFixedArray(); |
|
5142 |
inline TFixedArray(const T* aList, TInt aLength); |
|
5143 |
// |
|
5144 |
inline void Copy(const T* aList, TInt aLength); |
|
5145 |
inline void Reset(); // zero fill |
|
5146 |
inline void DeleteAll(); |
|
5147 |
// |
|
5148 |
inline TInt Count() const; |
|
5149 |
inline TInt Length() const; |
|
5150 |
// Accessors - debug range checking |
|
5151 |
inline T& operator[](TInt aIndex); |
|
5152 |
inline const T& operator[] (TInt aIndex) const; |
|
5153 |
// Accessors - always range checking |
|
5154 |
inline T& At(TInt aIndex); |
|
5155 |
inline const T& At(TInt aIndex) const; |
|
5156 |
// Provides pointers to the beginning and end of the array |
|
5157 |
inline T* Begin(); |
|
5158 |
inline T* End(); |
|
5159 |
inline const T* Begin() const; |
|
5160 |
inline const T* End() const; |
|
5161 |
// |
|
5162 |
inline TArray<T> Array() const; |
|
5163 |
protected: |
|
5164 |
inline static TBool InRange(TInt aIndex); |
|
5165 |
inline static TInt CountFunctionR(const CBase* aThis); |
|
5166 |
inline static const TAny* AtFunctionR(const CBase* aThis,TInt aIndex); |
|
5167 |
protected: |
|
5168 |
T iRep[S]; |
|
5169 |
}; |
|
5170 |
||
5171 |
||
5172 |
||
5173 |
||
5174 |
/** |
|
5175 |
@publishedAll |
|
5176 |
@released |
|
5177 |
*/ |
|
5178 |
#define DECLARE_ROM_ARRAY( AName, AData, AType ) \ |
|
5179 |
const TFixedArray<AType,(sizeof(AData)/sizeof((AData)[0]))>& \ |
|
5180 |
AName = *(reinterpret_cast<const TFixedArray<AType, \ |
|
5181 |
(sizeof(AData)/sizeof((AData)[0]))>* > (AData)) |
|
5182 |
#endif |
|
5183 |
||
5184 |
// Global leaving operator new |
|
5185 |
/** |
|
5186 |
@publishedAll |
|
5187 |
@released |
|
5188 |
*/ |
|
5189 |
inline TAny* operator new(TUint aSize, TLeave); |
|
5190 |
/** |
|
5191 |
@publishedAll |
|
5192 |
@released |
|
5193 |
*/ |
|
5194 |
inline TAny* operator new(TUint aSize, TLeave, TUint aExtraSize); |
|
5195 |
#if !defined(__VC32__) || defined (__MSVCDOTNET__) |
|
5196 |
/** |
|
5197 |
@publishedAll |
|
5198 |
@released |
|
5199 |
*/ |
|
5200 |
inline TAny* operator new[](TUint aSize, TLeave); |
|
5201 |
#endif |
|
5202 |
||
5203 |
||
5204 |
#ifdef __LEAVE_EQUALS_THROW__ |
|
5205 |
/** Macro to assert in all builds that code does not leave |
|
5206 |
||
5207 |
@param _s C++ statements to be executed which should not leave |
|
5208 |
@panic USER 194 if the code being checked does leave |
|
5209 |
||
5210 |
@publishedAll |
|
5211 |
@released |
|
5212 |
*/ |
|
5213 |
#define __ASSERT_ALWAYS_NO_LEAVE(_s) \ |
|
5214 |
{ \ |
|
5215 |
try { \ |
|
5216 |
TTrapHandler* ____t = User::MarkCleanupStack(); \ |
|
5217 |
_s; \ |
|
5218 |
User::UnMarkCleanupStack(____t); \ |
|
5219 |
} \ |
|
5220 |
catch (XLeaveException& /*l*/) \ |
|
5221 |
{ \ |
|
5222 |
User::PanicUnexpectedLeave(); \ |
|
5223 |
} \ |
|
5224 |
catch (...) \ |
|
5225 |
{ \ |
|
5226 |
User::Invariant(); \ |
|
5227 |
} \ |
|
5228 |
} |
|
5229 |
||
5230 |
#else |
|
5231 |
/** Macro to assert in all builds that code does not leave |
|
5232 |
||
5233 |
@param _s C++ statements to be executed which should not leave |
|
5234 |
@panic USER 194 if the code being checked does leave |
|
5235 |
||
5236 |
@publishedAll |
|
5237 |
@released |
|
5238 |
*/ |
|
5239 |
#define __ASSERT_ALWAYS_NO_LEAVE(_s) \ |
|
5240 |
{ \ |
|
5241 |
TInt _r; \ |
|
5242 |
TTrap _t; \ |
|
5243 |
if (_t.Trap(_r) == 0) \ |
|
5244 |
{ \ |
|
5245 |
_s; \ |
|
5246 |
TTrap::UnTrap(); \ |
|
5247 |
} \ |
|
5248 |
else \ |
|
5249 |
User::PanicUnexpectedLeave(); \ |
|
5250 |
} |
|
5251 |
#endif |
|
5252 |
||
5253 |
/** Macro to assert in debug builds that code does not leave |
|
5254 |
||
5255 |
@param _s C++ statements to be executed which should not leave |
|
5256 |
@panic USER 194 if the code being checked does leave |
|
5257 |
||
5258 |
@publishedAll |
|
5259 |
@released |
|
5260 |
*/ |
|
5261 |
#ifdef _DEBUG |
|
5262 |
#define __ASSERT_DEBUG_NO_LEAVE(_s) __ASSERT_ALWAYS_NO_LEAVE(_s) |
|
5263 |
#else |
|
5264 |
#define __ASSERT_DEBUG_NO_LEAVE(_s) { _s; } |
|
5265 |
#endif |
|
5266 |
||
5267 |
||
5268 |
||
5269 |
// Inline methods |
|
5270 |
#include <e32std.inl> |
|
5271 |
||
5272 |
#ifndef SYMBIAN_ENABLE_SPLIT_HEADERS |
|
5273 |
#include <e32std_private.h> |
|
5274 |
#endif |
|
5275 |
||
5276 |
#endif |
|
5277 |