sl@0: // Copyright (c) 1997-2009 Nokia Corporation and/or its subsidiary(-ies).
sl@0: // All rights reserved.
sl@0: // This component and the accompanying materials are made available
sl@0: // under the terms of the License "Eclipse Public License v1.0"
sl@0: // which accompanies this distribution, and is available
sl@0: // at the URL "http://www.eclipse.org/legal/epl-v10.html".
sl@0: //
sl@0: // Initial Contributors:
sl@0: // Nokia Corporation - initial contribution.
sl@0: //
sl@0: // Contributors:
sl@0: //
sl@0: // Description:
sl@0: // e32\include\e32panic.h
sl@0: //
sl@0: //
sl@0:
sl@0: /**
sl@0: @file e32panic.h
sl@0: @publishedAll
sl@0: @released
sl@0: */
sl@0:
sl@0: #ifndef __E32PANIC_H__
sl@0: #define __E32PANIC_H__
sl@0:
sl@0:
sl@0:
sl@0:
sl@0: /**
sl@0: Defines a set of panic numbers associated with the USER panic category.
sl@0:
sl@0: Some of these numbers are also associated with panics raised on
sl@0: the kernel side, and may be associated with
sl@0: a number of category names, including KERN-COMMON, KERN-HEAP etc.
sl@0: */
sl@0: enum TCdtPanic
sl@0: {
sl@0:
sl@0: /**
sl@0: A thread has called User::Invariant().
sl@0:
sl@0: Typically, User::Invariant() is called when a test for a class
sl@0: invariant fails, i.e. when a test which checks that the internal data
sl@0: of an object is self-consistent, fails.
sl@0:
sl@0: Check the design and implementation of your class.
sl@0:
sl@0: @see User
sl@0: */
sl@0: EInvariantFalse=0,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDateTimeUnderflow=1,
sl@0:
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDateTimeBadDate=2,
sl@0:
sl@0:
sl@0: /**
sl@0: A TDateTime object has been constructed with an invalid date or time field.
sl@0:
sl@0: @see TDateTime
sl@0: */
sl@0: ETDateTimeBadDateTime=3,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDateTimeAddDaysRange=4,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDateTimeAddMonthsRange=5,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDateTimeDaySecNegative=6,
sl@0:
sl@0:
sl@0: /**
sl@0: A panic raised by the Ptr() member function of a 16-bit descriptor
sl@0: if the descriptor is invalid.
sl@0:
sl@0: @see TDesC16::Ptr()
sl@0: */
sl@0: ETDes16BadDescriptorType=7,
sl@0:
sl@0:
sl@0: /**
sl@0: The length value passed to a 16-bit variant descriptor member
sl@0: function is invalid.
sl@0:
sl@0: This panic may be raised by some descriptor constructors and, specifically,
sl@0: by the Replace() and Set() descriptor member functions.
sl@0:
sl@0: @see TDes16
sl@0: */
sl@0: ETDes16LengthOutOfRange=8,
sl@0:
sl@0:
sl@0: /**
sl@0: The index value passed to the 16-bit variant descriptor Operator[] is
sl@0: out of bounds.
sl@0: */
sl@0: ETDes16IndexOutOfRange=9,
sl@0:
sl@0:
sl@0: /**
sl@0: The position value passed to a 16-bit variant descriptor member function
sl@0: is out of bounds.
sl@0:
sl@0: The panic can be raised by the Left(), Right(), Mid(), Insert(), Delete()
sl@0: and Replace() member functions of TDes16.
sl@0:
sl@0: @see TDes16
sl@0: */
sl@0: ETDes16PosOutOfRange=10,
sl@0:
sl@0:
sl@0: /**
sl@0: An operation to move or copy data to a 16-bit variant descriptor,
sl@0: will cause the length of that descriptor to exceed its maximum length.
sl@0:
sl@0: This may be caused by any of the copying, appending or formatting member
sl@0: functions but, specifically, by the Insert(), Replace(), Fill(), Fillz(),
sl@0: and ZeroTerminate() descriptor member functions. It can also be caused by
sl@0: the SetLength() function.
sl@0:
sl@0: @see TDes16
sl@0: */
sl@0: ETDes16Overflow=11,
sl@0:
sl@0:
sl@0: /**
sl@0: The format string passed to the 16-bit variant descriptor member functions
sl@0: Format() and AppendFormat() has incorrect syntax.
sl@0:
sl@0: @see TDes16
sl@0: */
sl@0: ETDes16BadFormatDescriptor=12,
sl@0:
sl@0:
sl@0: /**
sl@0: An invalid variable list has been passed to the AppendFormatList() member
sl@0: function of the 16-bit variant descriptor TDes16, when the format is %S or %s.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see TDes16
sl@0: */
sl@0: ETDes16BadFormatParams=13,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when expanding or contracting an HBufC16 buffer using
sl@0: the ReAlloc() or ReAllocL() descriptor member functions and the new
sl@0: specified length is too small to contain the data.
sl@0:
sl@0: @see HBufC16
sl@0: */
sl@0: ETDes16ReAllocTooSmall=14,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDes16RemoteBadDescriptorType=15,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Replace() member function of the 16-bit variant
sl@0: descriptor TDes16,the length of the source descriptor is negative
sl@0: or exceeds the maximum length of the target descriptor.
sl@0:
sl@0: @see TDes16
sl@0: */
sl@0: ETDes16RemoteLengthOutOfRange=16,
sl@0:
sl@0:
sl@0: /**
sl@0: A 16-bit variant descriptor is being constructed with a negative
sl@0: length value.
sl@0:
sl@0: This panic may also be raised if the Set(), Repeat() and the Find() member
sl@0: functions are passed negative length values.
sl@0: */
sl@0: ETDes16LengthNegative=17,
sl@0:
sl@0:
sl@0: /**
sl@0: A 16-bit variant descriptor is being constructed with a negative maximum
sl@0: length value.
sl@0: */
sl@0: ETDes16MaxLengthNegative=18,
sl@0:
sl@0:
sl@0: /**
sl@0: A panic raised by the Ptr() member function of an 8-bit descriptor
sl@0: if the descriptor is invalid.
sl@0:
sl@0: @see TDesC8::Ptr()
sl@0: */
sl@0: ETDes8BadDescriptorType=19,
sl@0:
sl@0:
sl@0: /**
sl@0: The length value passed to an 8-bit variant descriptor member
sl@0: function is invalid.
sl@0:
sl@0: This panic may be raised by some descriptor constructors and, specifically,
sl@0: by the Replace() and Set() descriptor member functions.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: ETDes8LengthOutOfRange=20,
sl@0:
sl@0:
sl@0: /**
sl@0: The index value passed to the 8-bit variant descriptor Operator[] is
sl@0: out of bounds.
sl@0: */
sl@0: ETDes8IndexOutOfRange=21,
sl@0:
sl@0:
sl@0: /**
sl@0: The position value passed to an 8-bit variant descriptor member function
sl@0: is out of bounds.
sl@0:
sl@0: The panic can be raised by the Left(), Right(), Mid(), Insert(), Delete()
sl@0: and Replace() member functions of TDes8
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: ETDes8PosOutOfRange=22,
sl@0:
sl@0:
sl@0: /**
sl@0: An operation to move or copy data to an 8-bit variant descriptor,
sl@0: will cause the length of that descriptor to exceed its maximum length.
sl@0:
sl@0: This may be caused by any of the copying, appending or formatting member
sl@0: functions but, specifically, by the Insert(), Replace(), Fill(), Fillz(),
sl@0: and ZeroTerminate() descriptor member functions. It can also be caused by
sl@0: the SetLength() function.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: ETDes8Overflow=23,
sl@0:
sl@0:
sl@0: /**
sl@0: The format string passed to the 8-bit variant descriptor member functions
sl@0: Format() and AppendFormat() has incorrect syntax.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: ETDes8BadFormatDescriptor=24,
sl@0:
sl@0:
sl@0: /**
sl@0: An invalid variable list has been passed to the AppendFormatList() member
sl@0: function of the 8-bit variant descriptor TDes8, when the format is %S or %s.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: ETDes8BadFormatParams=25,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when expanding or contracting an HBufC8 buffer using
sl@0: the ReAlloc() or ReAllocL() descriptor member functions and the new
sl@0: specified length is too small to contain the data.
sl@0:
sl@0: @see HBufC8
sl@0: */
sl@0: ETDes8ReAllocTooSmall=26,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETDes8RemoteBadDescriptorType=27,
sl@0:
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Replace() member function of the 8-bit variant
sl@0: descriptor TDes8,the length of the source descriptor is negative
sl@0: or exceeds the maximum length of the target descriptor.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: ETDes8RemoteLengthOutOfRange=28,
sl@0:
sl@0:
sl@0: /**
sl@0: An 8-bit variant descriptor is being constructed with a negative
sl@0: length value.
sl@0:
sl@0: This panic may also be raised if the Set(), Repeat() and the Find() member
sl@0: functions are passed negative length values.
sl@0: */
sl@0: ETDes8LengthNegative=29,
sl@0:
sl@0:
sl@0: /**
sl@0: An 8-bit variant descriptor is being constructed with a negative maximum
sl@0: length value.
sl@0: */
sl@0: ETDes8MaxLengthNegative=30,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETEntLeaveWithoutEnter=31,
sl@0:
sl@0:
sl@0: /**
sl@0: It is raised by TRawEvent::Pos() when
sl@0: the event is not a mouse/pen type event.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0: */
sl@0: ETEventNotMoveType=32,
sl@0:
sl@0:
sl@0: /**
sl@0: It is raised by TRawEvent::ScanCode() when
sl@0: the event is not a key down, up or repeat event.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0: */
sl@0: ETEventNotKeyType=33,
sl@0:
sl@0:
sl@0: /**
sl@0: It is raised by TRawEvent::Modifiers() when
sl@0: the event is not a modifier update event.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0: */
sl@0: ETEventNotUpdateModifiersType=34,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the default At() virtual member function of TKey.
sl@0:
sl@0: The function is intended to be overridden by a derived class.
sl@0:
sl@0: @see TKey
sl@0: */
sl@0: ETFuncTKeyVirtualAt=35,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the default Swap() virtual member function of TSwap.
sl@0:
sl@0: The function is intended to be overridden by a derived class.
sl@0:
sl@0: @see TSwap
sl@0: */
sl@0: ETFuncTSwapVirtualSwap=36,
sl@0:
sl@0:
sl@0: /**
sl@0: The index value passed to the operator[] of a TUidType is negative
sl@0: or is greater than or equal to KMaxCheckedUid.
sl@0:
sl@0: @see KMaxCheckedUid
sl@0: @see TUidType
sl@0: */
sl@0: ETFuncUidTypeBadIndex=37,
sl@0:
sl@0:
sl@0: /**
sl@0: The length of the descriptor passed to the Set(TDesC8&) member function of TCheckedUid
sl@0: is not equal to the size of a TCheckedUid object.
sl@0:
sl@0: @see TCheckedUid
sl@0: */
sl@0: ETFuncCheckedUidBadSet=38,
sl@0:
sl@0:
sl@0: /**
sl@0: The size specified of a new heap is smaller than the permitted minimum;
sl@0: it must be at least the size of a RHeap object.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-HEAP category.
sl@0: */
sl@0: ETHeapNewBadSize=39,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETHeapCreateSizeTooSmall=40,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to UserHeap::ChunkHeap(), the value defining the minimum length
sl@0: of the heap is greater than the value defining the maximum length to
sl@0: which the heap can grow.
sl@0:
sl@0: @see UserHeap
sl@0: */
sl@0: ETHeapCreateMaxLessThanMin=41,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the RHeap member functions, AllocLen(), Free(), FreeZ(),
sl@0: ReAlloc(), ReAllocL(), Adjust() and AdjustL(), a pointer passed to these
sl@0: functions does not point to a valid cell.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-HEAP category.
sl@0: */
sl@0: ETHeapBadCellAddress=42,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Adjust() and AdjustL() member functions of RHeap, a heap
sl@0: cell is being shrunk and the amount by which the cell is being shrunk
sl@0: is less than the current length of the cell.
sl@0: */
sl@0: ETHeapAdjustTooSmall=43,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Free() and FreeZ() member functions of RHeap,the cell
sl@0: being freed overlaps the next cell on the free list (i.e. the first cell
sl@0: on the free list with an address higher than the one being freed).
sl@0: */
sl@0: ETHeapFreeBadNextCell=44,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Free() and FreeZ() member functions of RHeap, the cell
sl@0: being freed overlaps the previous cell on the free list (i.e. the last cell
sl@0: on the free list with an address lower than the one being freed).
sl@0: */
sl@0: ETHeapFreeBadPrevCell=45,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the ReAlloc() and ReAllocL() member functions of RHeap, the
sl@0: cell being reallocated overlaps the next cell on the free list (i.e. the
sl@0: first cell on the free list with an address higher than the one being
sl@0: reallocated).
sl@0: */
sl@0: ETHeapReAllocBadNextCell=46,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Alloc(), AllocL() or AllocLC() member functions of RHeap,
sl@0: an attempt has been made to allocate a cell from a heap, using an unsigned
sl@0: size value which is greater than or equal to the value of KMaxTInt/2.
sl@0:
sl@0: This panic may also be raised by the heap walker when it finds a bad
sl@0: allocated heap cell size.
sl@0:
sl@0: @see User::Check()
sl@0: @see RAllocator::Check()
sl@0: @see KMaxTInt
sl@0: */
sl@0: ETHeapBadAllocatedCellSize=47,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the heap walker when it finds a bad
sl@0: allocated heap cell address.
sl@0: */
sl@0: ETHeapBadAllocatedCellAddress=48,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the heap walker when it finds a bad
sl@0: free heap cell address.
sl@0: */
sl@0: ETHeapBadFreeCellAddress=49,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETHeapDebugBufferOverflow=50,
sl@0:
sl@0:
sl@0: /**
sl@0: A call has been made to the __DbgMarkEnd() member function of RHeap, when
sl@0: there has been no corresponding call to the __DbgMarkStart() member function.
sl@0:
sl@0: This panic is also raised when there are more calls to __DbgMarkEnd() than
sl@0: to __DbgMarkStart(). These functions are part of the debug assistance provided by
sl@0: the RHeap class.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0: */
sl@0: ETHeapDebugUnmatchedCallToCheckHeap=51,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the Adjust() and AdjustL() member functions of an RHeap,
sl@0: the offset from the start of the cell being stretched or shrunk is
sl@0: a negative value.
sl@0: */
sl@0: ETHeapAdjustOffsetNegative=52,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETHeapAllocSizeNegative=53,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to the ReAlloc() and ReAllocL() member functions of an RHeap,
sl@0: the new size for the cell being reallocated is a negative value.
sl@0: */
sl@0: ETHeapReAllocSizeNegative=54,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is caused by the UserHeap::ChunkHeap() static function when
sl@0: the value defining the minimum length of the heap is negative.
sl@0: */
sl@0: ETHeapMinLengthNegative=55,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is caused by the UserHeap::ChunkHeap() static function when
sl@0: the value defining the maximum length to which the heap can grow,
sl@0: is negative.
sl@0: */
sl@0: ETHeapMaxLengthNegative=56,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when closing a shared heap using the Close() member
sl@0: function of RHeap and the access count is zero or negative.
sl@0:
sl@0: A zero or negative access count suggests that an attempt is being made
sl@0: to close the heap too many times.
sl@0: */
sl@0: EAllocatorClosedTooManyTimes=57,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when opening a heap for shared access using the Open()
sl@0: member function of RHeap and the heap type is not EChunkNormal.
sl@0: */
sl@0: ETHeapOnlyChunkHeaps=58,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the UnGet() member function of the 8-bit variant
sl@0: lexical analyzer, TLex8, if the character position is already at
sl@0: the start of the string.
sl@0:
sl@0: @see TLex8
sl@0: */
sl@0: ETLex8UnGetUnderflow=59,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Inc() member function of the 8-bit variant
sl@0: lexical analyzer, TLex8, if the resulting character position lies before
sl@0: the start of the string or after the end of the string.
sl@0:
sl@0: @see TLex8
sl@0: */
sl@0: ETLex8IncOutOfRange=60,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the SkipAndMark() member function of the 8-bit
sl@0: variant lexical analyzer, TLex8, if the resulting character position lies
sl@0: before the start of the string, or after the end of the string.
sl@0:
sl@0: @see TLex8
sl@0: */
sl@0: ETLex8SkipOutOfRange=61,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETLex8BadFormatList=62,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the ValidateMark() member function of the 8-bit
sl@0: variant lexical analyzer, TLex8, if the position of the extraction mark
sl@0: lies before the start of the string or after the end of the string.
sl@0:
sl@0: @see TLex8
sl@0: */
sl@0: ETLex8MarkOutOfRange=63,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the UnGet() member function of the 16-bit variant
sl@0: lexical analyzer, TLex16, if the character position is already at the start
sl@0: of the string.
sl@0:
sl@0: @see TLex16
sl@0: */
sl@0: ETLex16UnGetUnderflow=64,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Inc() member function of the 16-bit variant
sl@0: lexical analyzer, TLex16, if the resulting character position lies before
sl@0: the start of the string or after the end of the string.
sl@0:
sl@0: @see TLex16
sl@0: */
sl@0: ETLex16IncOutOfRange=65,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the SkipAndMark() member function of the 16-bit
sl@0: variant lexical analyzer, TLex16, if the resulting character position lies
sl@0: before the start of the string or after the end of the string.
sl@0:
sl@0: @see TLex16
sl@0: */
sl@0: ETLex16SkipOutOfRange=66,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETLex16BadFormatList=67,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the ValidateMark() member function of the 16-bit
sl@0: variant lexical analyzer, TLex16, if the position of the extraction mark
sl@0: lies before the start of the string or after the end of the string.
sl@0:
sl@0: @see TLex16
sl@0: */
sl@0: ETLex16MarkOutOfRange=68,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the TDateSuffix constructor or its Set() member
sl@0: function when the suffix index specified is negative or is greater than or
sl@0: equal to the value KMaxSuffixes.
sl@0:
sl@0: The index is used to access a locale dependent table of suffix characters,
sl@0: which can be appended to the dates of the month (e.g. the characters "st"
sl@0: for 1st, "nd" for 2nd, "st" for 31st).
sl@0:
sl@0: @see TDateSuffix
sl@0: @see KMaxSuffixes
sl@0: */
sl@0: ETLoclSuffixOutOfRange=69,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when attempting to complete a client/server request
sl@0: and the RMessagePtr is null.
sl@0: */
sl@0: ETMesCompletion=70,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EMesBadRetryCount=71,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Send() and SendReceive() member functions
sl@0: of RSessionBase, the client interface for communication with a server,
sl@0: when the specified operation code identifying the required service is
sl@0: either negative or a value greater than KMaxTint.
sl@0:
sl@0: @see RSessionBase
sl@0: @see KMaxTint
sl@0: */
sl@0: ETMesBadFunctionNumber=72,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Receive() member function of RServer,
sl@0: the handle to the server, when the attempt to receive a message
sl@0: for the server, synchronously, fails.
sl@0:
sl@0: @see RServer
sl@0: */
sl@0: ETMesReceiveFailed=73,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ESQueOffsetNegative=74,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructor of a singly linked list header,
sl@0: a TSglQue or by the SetOffset() member function when the specified offset
sl@0: is not 4 byte aligned, i.e. when it is not divisible by 4.
sl@0:
sl@0: @see TSglQue
sl@0: */
sl@0: ESQueOffsetNotAligned=75,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when attempting to remove an object from a singly
sl@0: linked list, using the Remove() member function of TSglQue, when
sl@0: that object is not in the list.
sl@0:
sl@0: @see TSglQue
sl@0: */
sl@0: ESQueLinkNotQueued=76,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETQueOffsetNegative=77,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructor of a doubly linked list header,
sl@0: a TDblQue or by the SetOffset() member function, when the specified
sl@0: offset is not 4 byte aligned, i.e. when it is not divisible by 4.
sl@0:
sl@0: @see TDblQue
sl@0: */
sl@0: ETQueOffsetNotAligned=78,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by a call to either the First() or the Last() member
sl@0: functions of a doubly linked list, a TDblQue, which return pointers
sl@0: to the first and last element in the list respectively; the panic
sl@0: occurs when the list is empty.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see TDblQue
sl@0: */
sl@0: ETQueQueueEmpty=79,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the post increment operator, operator++, the post
sl@0: decrement operator, operator- and the return current element
sl@0: operator, operator T*, of the doubly linked list iterator, a TDblQueIter;
sl@0: the panic occurs when the element returned by these operators is not in
sl@0: the list.
sl@0:
sl@0: Typically, this is caused by the removal of the element from the list prior
sl@0: to calling these operators.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see TDblQueIter
sl@0: */
sl@0: ETQueLinkHasBeenRemoved=80,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the get rectangle operator, operator[], of
sl@0: a clipping region, derived from the abstract base class TRegion.
sl@0:
sl@0: The panic occurs when the index, which refers to the specific rectangle
sl@0: within the region, is greater than or equal to the number of rectangles
sl@0: contained within the region (as returned by the Count() member function).
sl@0:
sl@0: The index must be strictly less than the number of contained rectangles.
sl@0:
sl@0: @see TRegion
sl@0: */
sl@0: ETRegionOutOfRange=81,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when sorting the rectangles within a clipping region,
sl@0: derived from the abstract base class TRegion, using the Sort() member
sl@0: function of TRegion.
sl@0:
sl@0: The panic occurs when the region is invalid.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see TRegion
sl@0: */
sl@0: ETRegionInvalidRegionInSort=82,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic occurs when the Kernel sends a message to the Kernel server
sl@0: and this completes with an error, i.e. an error code which is not KErrNone.
sl@0: */
sl@0: ETUtlKernelServerSend=83,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Panic() member function of RTest, the test class.
sl@0: */
sl@0: ERTestFailed=84,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the CheckConsoleCreated() member functions of
sl@0: RTest and RTestJ, the test classes, when the creation of a console,
sl@0: as derived from a CConsoleBase, fails.
sl@0: */
sl@0: ERTestCreateConsole=85,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the static function User::After() when
sl@0: the specified time interval is negative.
sl@0: */
sl@0: EExecAfterTimeNegative=86,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when the time interval passed to the After() member
sl@0: function of RTimer is negative.
sl@0:
sl@0: @see RTimer
sl@0: */
sl@0: ERTimerAfterTimeNegative=87,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Compare(), Mem::CompareC() and Mem::CompareF()
sl@0: when the length of the area of memory designated as the left hand area,
sl@0: is negative.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EMemLeftNegative=88,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Compare(), Mem::CompareC() and Mem::CompareF()
sl@0: when the length of the area of memory designated as the right hand area,
sl@0: is negative.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EMemRightNegative=89,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Copy() when the length of the area of memory
sl@0: to be copied is negative.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EMemCopyLengthNegative=90,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Move() when the length of the area of memory
sl@0: to be moved is not a multiple of 4.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EWordMoveLengthNotMultipleOf4=91,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Move() when the address of the source for
sl@0: the move operation is not aligned on a 4 byte boundary.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EWordMoveSourceNotAligned=92,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Move() when the address of the target for
sl@0: the move operation is not aligned on a 4 byte boundary.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EWordMoveTargetNotAligned=93,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Swap() when the length of the area of
sl@0: memory to be swapped is negative.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EMemSwapLengthNegative=94,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by Mem::Fill() and Mem::FillZ() when the length of
sl@0: the area of memory to be filled is negative.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-COMMON category.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EMemFillLengthNegative=95,
sl@0:
sl@0:
sl@0: /**
sl@0: The value for the number of records to be sorted passed
sl@0: to User::QuickSort() is negative.
sl@0:
sl@0: @see User
sl@0: */
sl@0: ESortCountNegative=96,
sl@0:
sl@0:
sl@0: /**
sl@0: The value for the number of records taking part in the search passed
sl@0: to User::BinarySearch() is negative.
sl@0:
sl@0: @see User
sl@0: */
sl@0: EBinarySearchCountNegative=97,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructor of the base key class, TKey.
sl@0:
sl@0: It occurs when the offset value passed to the constructor is negative.
sl@0: As TKey is an abstract class, i.e. objects of type TKey are not intended
sl@0: to be explicitly constructed, look at the offset value passed to
sl@0: the constructors of derived classes such as TKeyArrayFix, TKeyArrayVar,
sl@0: and TKeyArrayPak for the cause of the panic.
sl@0:
sl@0: @see TKey
sl@0: @see TKeyArrayFix
sl@0: @see TKeyArrayVar
sl@0: @see TKeyArrayPak
sl@0: */
sl@0: EKeyOffsetNegative=98,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a local or global chunk is created using
sl@0: the RChunk member functions: CreateLocal(), CreateGlobal(),
sl@0: CreateDoubleEndedLocal() and CreateDoubleEndedGlobal().
sl@0:
sl@0: It occurs when the value for the maximum size to which this chunk can
sl@0: be adjusted, is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateMaxSizeNegative=99,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a local or global chunk is created using
sl@0: the RChunk member functions: CreateLocal() and CreateGlobal().
sl@0:
sl@0: It occurs when the value for the number of bytes to be committed to
sl@0: this chunk on creation, is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateSizeNotPositive=100,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a local or global chunk is created using
sl@0: the RChunk member functions: CreateLocal() and CreateGlobal().
sl@0:
sl@0: It occurs when the value for the number of bytes to be committed to
sl@0: this chunk on creation is greater than the value for the maximum size
sl@0: to which this chunk can be adjusted.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateMaxLessThanMin=101,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when changing the number of bytes committed to a chunk
sl@0: by calling the Adjust() member function of RChunk.
sl@0:
sl@0: The panic occurs when the value passed to the function is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkAdjustNewSizeNegative=102,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ESesDelayTimeNegative=103,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ESesRetryCountNegative=104,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a local or global semaphore is created using
sl@0: the RSemaphore member functions: CreateLocal() and CreateGlobal(), and
sl@0: the value for the initial semaphore count is negative.
sl@0:
sl@0: @see RSemaphore
sl@0: */
sl@0: ESemCreateCountNegative=105,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a semaphore is signaled using
sl@0: the Signal(TInt aCount) member function and the count value is negative.
sl@0:
sl@0: @see RSemaphore
sl@0: */
sl@0: ESemSignalCountNegative=106,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a critical section is signalled using
sl@0: the Signal() member function and the call to Signal() is not matched
sl@0: by an earlier call to Wait(), which suggests that this is a stray signal.
sl@0:
sl@0: @see RCriticalSection
sl@0: */
sl@0: ECriticalSectionStraySignal=107,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EThrdHeapNotChunkType=108,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when creating a thread using the Create() member
sl@0: functions of RThread.
sl@0:
sl@0: The panic occurs when the value of the stack size passed to
sl@0: these functions is negative.
sl@0:
sl@0: @see RThread
sl@0: */
sl@0: EThrdStackSizeNegative=109,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when creating a thread using the Create() member
sl@0: functions of RThread.
sl@0:
sl@0: The panic is only raised by those variants of Create() that create a new
sl@0: heap for the new thread. The panic occurs if the minimum heap size
sl@0: specified is less than KMinHeapSize.
sl@0:
sl@0: @see RThread
sl@0: @see KMinHeapSize
sl@0: */
sl@0: EThrdHeapMinTooSmall=110,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when creating a thread using the Create() member
sl@0: functions of RThread.
sl@0:
sl@0: The panic is only raised by those variants of Create() which create a new
sl@0: heap for the new thread. The panic occurs if the minimum heap size
sl@0: specified is greater than the maximum size to which the heap can grow.
sl@0:
sl@0: @see RThread
sl@0: */
sl@0: EThrdHeapMaxLessThanMin=111,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Alloc() and AllocL() member functions of class
sl@0: RRef when the size value passed is negative.
sl@0: */
sl@0: ERefAllocSizeNegative=112,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by:
sl@0:
sl@0: 1. the constructor of a time representation object, a TTime, which takes
sl@0: a text string, when the format of that text string is incorrect
sl@0: or represents an invalid date/time.
sl@0:
sl@0: 2. the Parse() member function of a time representation object, a TTime,
sl@0: if the century offset value is either negative or is greater than
sl@0: or equal to 100.
sl@0:
sl@0: 3. the Time::DaysInMonth() function, if an invalid month value is passed.
sl@0:
sl@0: @see TTime
sl@0: @see Time
sl@0: */
sl@0: ETTimeValueOutOfRange=113,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by member functions of TBusLocalDrive when no
sl@0: connection has been made to a local drive.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see TBusLocalDrive
sl@0: */
sl@0: EDriveNotConnected=114,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when attempting to connect to a local drive
sl@0: using the Connect() member function of TBusLocalDrive, and
sl@0: the specified drive number is out of range, i.e. the drive number
sl@0: is negative or is greater than or equal to KMaxLocalDrives.
sl@0:
sl@0: @see TBusLocalDrive
sl@0: @see KMaxLocalDrives
sl@0: */
sl@0: EDriveOutOfRange=115,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Lookup() member function of RLibrary when
sl@0: the ordinal number of the required DLL function, is zero or negative.
sl@0:
sl@0: @see RLibrary
sl@0: */
sl@0: EBadLookupOrdinal=116,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EChunkHeapBadOffset=117,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETQueLinkAlreadyInUse=118,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when setting a new currency symbol using
sl@0: the User::SetCurrencySymbol() function.
sl@0:
sl@0: The panic occurs when the length of the descriptor containing
sl@0: the new symbol is greater than KMaxCurrencySymbol.
sl@0:
sl@0: @see User
sl@0: @see KMaxCurrencySymbol
sl@0: */
sl@0: ECurrencySymbolOverflow=119,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the CreateDoubleEndedLocal()
sl@0: and CreateDoubleEndedGlobal() member functions of RChunk when the lower
sl@0: address of the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateBottomNegative=120,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the CreateDoubleEndedLocal()
sl@0: and CreateDoubleEndedGlobal() member functions of RChunk when the upper
sl@0: address of the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateTopNegative=121,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the CreateDoubleEndedLocal()
sl@0: and CreateDoubleEndedGlobal() member functions of RChunk when the upper
sl@0: address of the committed region is lower than the lower address of
sl@0: the committed region.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateTopLessThanBottom=122,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the CreateDoubleEndedLocal()
sl@0: and CreateDoubleEndedGlobal() member functions of RChunk when the upper
sl@0: address of the committed region is lower than the maximum size to which
sl@0: this chunk can be adjusted.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateTopBiggerThanMax=123,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::AdjustDoubleEnded() when the lower address
sl@0: of the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkAdjustBottomNegative=124,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::AdjustDoubleEnded() when the upper address
sl@0: of the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkAdjustTopNegative=125,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::AdjustDoubleEnded() when the upper address
sl@0: of the committed region is lower than the lower address of the committed
sl@0: region.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkAdjustTopLessThanBottom=126,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when constructing an array of pointers,
sl@0: an RPointerArray, and specifying a granularity value which is
sl@0: one of the following:
sl@0:
sl@0: 1. zero
sl@0:
sl@0: 2. negative
sl@0:
sl@0: 3. greater than 0x10000000.
sl@0:
sl@0: @see RPointerArray
sl@0: */
sl@0: EBadArrayGranularity=127,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when constructing an array of fixed length objects,
sl@0: an RArray, and specifying a key offset value which is one of the following:
sl@0:
sl@0: 1. negative
sl@0:
sl@0: 2. not a multiple of 4
sl@0:
sl@0: 3. greater than or equal to the size of the array elements.
sl@0:
sl@0: @see RArray
sl@0: */
sl@0: EBadArrayKeyOffset=128,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when constructing an array of fixed length objects,
sl@0: an RArray, and the length of the array elements is one of the following:
sl@0:
sl@0: 1. zero
sl@0:
sl@0: 2. negative
sl@0:
sl@0: 3. greater than 640.
sl@0:
sl@0: @see RArray
sl@0: */
sl@0: EBadArrayEntrySize=129,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an index value passed to a member function
sl@0: of RArray or RPointerArray identifying an array element, is out of bounds.
sl@0:
sl@0: @see RArray
sl@0: @see RPointerArray
sl@0: */
sl@0: EBadArrayIndex=130,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when the value identifying the insertion position
sl@0: in a call to RArray::Insert() or RPointerArray::Insert(), is either
sl@0: negative or greater than the number of elements in the array.
sl@0:
sl@0: @see RArray
sl@0: @see RPointerArray
sl@0: */
sl@0: EBadArrayPosition=131,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an index value passed to
sl@0: Mem::CollationMethodByIndex() or Mem::CollationMethodId() is out of bounds.
sl@0:
sl@0: @see Mem
sl@0: */
sl@0: EBadCollationRulesIndex=132,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an index value passed to TFixedArray::At()
sl@0: or TFixedArray::operator[] is out of bounds.
sl@0:
sl@0: @see TFixedArray
sl@0: */
sl@0: EBadFixedArrayIndex=133,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ERawEventFlipTypeNotImplemented=134,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ENumberOfParametersExceedsMaximum=136,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions during the handling
sl@0: of the variable parameter lists when the parameter is too big.
sl@0: */
sl@0: ESizeOfParameterTooBig=137,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists when an index value
sl@0: for the parameters is outside its permitted range.
sl@0: */
sl@0: EParameterIndexOutOfRange1=138,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists when an index value
sl@0: for the parameters is outside its permitted range.
sl@0:
sl@0: This panic is raised in debug mode only.
sl@0: */
sl@0: EParameterIndexOutOfRange2=139,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EFormatDirectiveAlreadySet1=140,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EFormatDirectiveAlreadySet2=141,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: ENumberOfFormatDirectivesExceedsMaximum=142,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: ENoParametersInFormatDirective=143,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EFormatDirectiveNotYetSet=144,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EBadFormatDirectiveDataPointer=145,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EFormatDirectiveIndexOutOfRange=146,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: ENotOnFirstPassOfFormatDescriptor1=147,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: ENotOnFirstPassOfFormatDescriptor2=148,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EInconsistentSizeOfParameter=149,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: ENullTargetPointer=150,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: ENegativeSizeOfParameter=151,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EErrorOnSecondPassOfFormatDescriptor=152,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EUnexpectedError1=153,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EUnexpectedError2=154,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ECreateTransferBufferSizeNotPositive=155,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic occurs in the construction of an RPointerArray object from
sl@0: an existing pointer array object, when the number defining the number
sl@0: of entries in the existing array is not positive.
sl@0:
sl@0: @see RPointerArray
sl@0: */
sl@0: EBadArrayCount=156,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::Commit() when the value of the offset of
sl@0: the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCommitOffsetNegative=157,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::Commit() when the size of the
sl@0: the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCommitSizeNegative=158,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::Allocate() when the size of the
sl@0: the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkAllocateSizeNegative=159,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::Decommit() when the value of the offset of
sl@0: the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkDecommitOffsetNegative=160,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by RChunk::Decommit() when the size of the
sl@0: the committed region is negative.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkDecommitSizeNegative=161,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an invalid chunk type has been passed to
sl@0: the internal member RChunk::Create()
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateInvalidType=162,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a global chunk is being created and
sl@0: no name has been specified.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateInvalidName=163,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when creating a 'normal' chunk and the offset of the bottom of the new committed region
sl@0: from the base of the chunk's reserved region is not zero.
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateInvalidBottom=164,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the internal function RLibrary::Init() when the function that
sl@0: constructs static data following a DLL load, leaves.
sl@0: */
sl@0: EDllStaticConstructorLeave=165,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally, if a call to the static data destructors
sl@0: following a library handle close, leaves.
sl@0: */
sl@0: EDllStaticDestructorLeave=166,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised in a call to RAllocator::Close() when the number of
sl@0: handles is greater than the maximum allowed, RAllocator::EMaxHandles.
sl@0:
sl@0: @see RAllocator
sl@0: */
sl@0: EAllocatorBadHandleCount=167,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the internal RHeap constructor when the offset value is invalid.
sl@0: */
sl@0: ETHeapNewBadOffset=168,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Symbian internal function RHeap::Reduce() on failure.
sl@0: */
sl@0: ETHeapReduceFailed=169,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Symbian internal function RHeap::Reset() on failure.
sl@0: */
sl@0: ETHeapResetFailed=170,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Symbian internal function RHeap::WalkCheckCell() on a
sl@0: bad free cell size.
sl@0: */
sl@0: ETHeapBadFreeCellSize=171,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Symbian internal function RHeap::Initialise() on a
sl@0: bad alignment value.
sl@0: */
sl@0: ETHeapNewBadAlignment=172,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ETHeapBadDebugOp=173,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an unimplemented pure virtual function is called.
sl@0: */
sl@0: EPureVirtualCalled=174,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a User::Leave() is called and there
sl@0: is no TRAP frame.
sl@0: */
sl@0: EUserLeaveWithoutTrap=175,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a mathematical function fails with an
sl@0: unrecognized exception, i.e. one that is none of: KErrArgument,
sl@0: KErrDivideByZero, KErrOverflow or KErrUnderflow.
sl@0: */
sl@0: EMathUnknownError=176,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Symbian internal function RHeap::WalkCheckCell() on a
sl@0: bad cell type.
sl@0: */
sl@0: ETHeapWalkBadCellType=177,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when descriptors convert integers into text, and
sl@0: an invalid radix is passed, i.e. a value that is not one
sl@0: of the TRadix enum values.
sl@0: */
sl@0: EInvalidRadix=178,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when converting and appending numbers in descriptors,
sl@0: and buffers are not aligned on even addresses.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0: */
sl@0: EDes16PadAppendBadAlign=179,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EMsgQueueSizeInvalid=180,
sl@0:
sl@0:
sl@0: /**
sl@0: @internalComponent
sl@0: */
sl@0: EHuffmanTooManyCodes=181,
sl@0:
sl@0:
sl@0: /**
sl@0: @internalComponent
sl@0: */
sl@0: EHuffmanInvalidCoding=182,
sl@0:
sl@0:
sl@0: /**
sl@0: @internalComponent
sl@0: */
sl@0: EBadArrayFindMode=183,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to RNotifier::Notify(), the length of one or more of
sl@0: the descriptors containing the displayable text is bigger than
sl@0: the maximum TUint16 value.
sl@0: */
sl@0: ENotifierTextTooLong=184,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to one of the functions:
sl@0: TMonthName::Set()
sl@0: TMonthNameAbb::Set()
sl@0: TDayName::Set()
sl@0: TDayNameAbb::Set()
sl@0:
sl@0: the month or day value is outside the permitted range of values.
sl@0:
sl@0: @see TMonthName
sl@0: @see TMonthNameAbb
sl@0: @see TDayName
sl@0: @see TDayNameAbb
sl@0: */
sl@0: EBadLocaleParameter=185,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised internally by the descriptor formatting functions
sl@0: during the handling of the variable parameter lists.
sl@0: */
sl@0: EUnexpectedError3=186,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to TDes8::Expand(), either the length, or the maximum length,
sl@0: or the pointer to the data is not an even number.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: EDes8ExpandOdd=187,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to TDes8::Collapse(), either the length, or the maximum length,
sl@0: or the pointer to the data is not an even number.
sl@0:
sl@0: @see TDes8
sl@0: */
sl@0: EDes8CollapseOdd=188,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to one of the TSecurityPolicy constructors, the specified
sl@0: capability was found to be inavlid.
sl@0:
sl@0: @see TCapability
sl@0: */
sl@0: ECapabilityInvalid=189,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to TSecurityPolicy::CheckPolicy, the security policy was found to
sl@0: be corrupt.
sl@0:
sl@0: @see TSecurityPolicy
sl@0: */
sl@0: ESecurityPolicyCorrupt=190,
sl@0:
sl@0:
sl@0: /**
sl@0: In a call to TSecurityPolicy::TSecurityPolicy(TSecPolicyType aType), aType
sl@0: was not one of ETypePass or ETypeFail.
sl@0:
sl@0: @see TSecurityPolicy
sl@0: */
sl@0: ETSecPolicyTypeInvalid=191,
sl@0:
sl@0: /**
sl@0: This panic is raised when constructing an RPointerArray or RArray if the
sl@0: specified minimum growth step is less than or equal to zero or is greater
sl@0: than 65535.
sl@0:
sl@0: @see RPointerArray
sl@0: @see RArray
sl@0: */
sl@0: EBadArrayMinGrowBy=192,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when constructing an RPointerArray or RArray if the
sl@0: specified exponential growth factor is less than or equal to 1 or is
sl@0: greater than or equal to 128.
sl@0:
sl@0: @see RPointerArray
sl@0: @see RArray
sl@0: */
sl@0: EBadArrayFactor=193,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if code inside an __ASSERT_*_NO_LEAVE harness leaves.
sl@0:
sl@0: @see RPointerArray
sl@0: @see RArray
sl@0: */
sl@0: EUnexpectedLeave=194,
sl@0:
sl@0:
sl@0: /**
sl@0: A function was used to grow a cell on the heap, but it did not grow as expected.
sl@0: */
sl@0: ETHeapCellDidntGrow=195,
sl@0:
sl@0:
sl@0: /**
sl@0: An attempt was made to install a Win32 SE handler not on the stack.
sl@0:
sl@0: @see TWin32SEHTrap
sl@0: */
sl@0: EWin32SEHandlerNotOnStack=196,
sl@0:
sl@0: /**
sl@0: This panic is raised when the caller of an API doesn't have the right capabilities to
sl@0: call the specific API that raises this panic. Please consult the documentation for the
sl@0: API in question to learn what capabilities you need to call it.
sl@0: */
sl@0: EPlatformSecurityViolation=197,
sl@0:
sl@0: /**
sl@0: This panic is raised if a NULL function pointer is passed in as the hash function
sl@0: when constructing a hash table class.
sl@0: */
sl@0: EHashTableNoHashFunc=198,
sl@0:
sl@0: /**
sl@0: This panic is raised if a NULL function pointer is passed in as the identity
sl@0: relation when constructing a hash table class.
sl@0: */
sl@0: EHashTableNoIdentityRelation=199,
sl@0:
sl@0: /**
sl@0: This panic is raised if a negative element size is specified when constructing
sl@0: a hash table class.
sl@0: */
sl@0: EHashTableBadElementSize=200,
sl@0:
sl@0: /**
sl@0: This panic is raised if, when constructing a hash table class, the specified
sl@0: key offset is inconsistent with the specified element size.
sl@0: */
sl@0: EHashTableBadKeyOffset=201,
sl@0:
sl@0: /**
sl@0: This panic is raised in debug builds only if a deleted entry still remains after
sl@0: a hash table reform. It should never occur, since it signifies an error in the
sl@0: hash table implementation.
sl@0: */
sl@0: EHashTableDeletedEntryAfterReform=202,
sl@0:
sl@0: /**
sl@0: This panic should never occur since it signifies an error in the hash table
sl@0: implementation.
sl@0: */
sl@0: EHashTableBadGeneration=203,
sl@0:
sl@0: /**
sl@0: This panic should never occur since it signifies an error in the hash table
sl@0: implementation.
sl@0: */
sl@0: EHashTableBadHash=204,
sl@0:
sl@0: /**
sl@0: This panic should never occur since it signifies an error in the hash table
sl@0: implementation.
sl@0: */
sl@0: EHashTableEntryLost=205,
sl@0:
sl@0: /**
sl@0: This panic should never occur since it signifies an error in the hash table
sl@0: implementation.
sl@0: */
sl@0: EHashTableCountWrong=206,
sl@0:
sl@0: /**
sl@0: This panic should never occur since it signifies an error in the hash table
sl@0: implementation.
sl@0: */
sl@0: EHashTableEmptyCountWrong=207,
sl@0:
sl@0: /**
sl@0: This panic is raised if, while attempting to step a hash table iterator to
sl@0: the next entry, the iterator is found to point to an invalid table entry.
sl@0: This will typically occur if elements have been removed from the hash table
sl@0: without resetting the iterator.
sl@0: */
sl@0: EHashTableIterNextBadIndex=208,
sl@0:
sl@0: /**
sl@0: This panic is raised if, while interrogating the current position of a
sl@0: hash table iterator, the iterator is found to point to an invalid table entry.
sl@0: This will typically occur if elements have been added to or removed from
sl@0: the hash table without resetting the iterator.
sl@0: */
sl@0: EHashTableIterCurrentBadIndex=209,
sl@0:
sl@0: /**
sl@0: This panic is raised if an invalid argument is passed to the Reserve() function
sl@0: on any of the hash table classes.
sl@0: */
sl@0: EHashTableBadReserveCount=210,
sl@0:
sl@0: /**
sl@0: The Win32 SE handler chain has been corrupted.
sl@0:
sl@0: @see TWin32SEHTrap
sl@0: */
sl@0: EWin32SEHChainCorrupt=211,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if an invalid argument is passed to the Reserve() function
sl@0: on the RArray<T> or RPointerArray<T> classes.
sl@0: */
sl@0: EArrayBadReserveCount=212,
sl@0:
sl@0: /**
sl@0: This panic is raised when attempting to set a new debug failure mode on
sl@0: a heap with an invalid argument. For example, if aBurst > KMaxTUint6
sl@0: when invoking __UHEAP_BURSTFAILNEXT when a RHeap object is used for
sl@0: the user heap.
sl@0:
sl@0: On the user side this is associated with the USER category; on the kernel side
sl@0: this is associated with the KERN-HEAP category.
sl@0:
sl@0: @see RAllocator::TAllocFail
sl@0: */
sl@0: ETHeapBadDebugFailParameter = 213,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an invalid chunk attribute has been passed to
sl@0: the method RChunk::Create().
sl@0:
sl@0: @see RChunk
sl@0: */
sl@0: EChkCreateInvalidAttribute = 214,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a TChunkCreateInfo object with an invalid version
sl@0: number has been passed to the method RChunk::Create().
sl@0:
sl@0: @see RChunk
sl@0: @see TChunkCreateInfo
sl@0: */
sl@0: EChkCreateInvalidVersion = 215,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when an invalid flag is set in the aMode parameter
sl@0: to UserHeap::ChunkHeap().
sl@0:
sl@0: @see TChunkHeapCreateMode
sl@0: */
sl@0: EHeapCreateInvalidMode = 216,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a RReadWriteLock is created with an invalid
sl@0: priority.
sl@0:
sl@0: @see RReadWriteLock
sl@0: */
sl@0: EReadWriteLockInvalidPriority = 217,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a RReadWriteLock is closed with readers/writers
sl@0: still pending.
sl@0:
sl@0: @see RReadWriteLock
sl@0: */
sl@0: EReadWriteLockStillPending = 218,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a RReadWriteLock is requested with too many
sl@0: readers or pending readers/writers.
sl@0:
sl@0: @see RReadWriteLock
sl@0: */
sl@0: EReadWriteLockTooManyClients = 219,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when a RReadWriteLock is unlocked but the lock flags
sl@0: are inconsistent, eg read and write lock held or no lock held.
sl@0:
sl@0: @see RReadWriteLock
sl@0: */
sl@0: EReadWriteLockBadLockState = 220,
sl@0:
sl@0:
sl@0: /**
sl@0: This debug-only panic is raised if the lock has been given to a reader
sl@0: more than a thousand times in a row, while there is a pending writer.
sl@0: It is intended to give a debug indication that writer starvation might be
sl@0: happening.
sl@0:
sl@0: @see RReadWriteLock
sl@0: */
sl@0: EReadWriteLockWriterStarvation = 221,
sl@0:
sl@0: /**
sl@0: It is raised by TRawEvent::Repeats() when
sl@0: the event is not a key repeat event.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0: */
sl@0: ETEventNotKeyRepeatType=222,
sl@0:
sl@0: /**
sl@0: This panic is raised when a corrupt surrogate is found in a descriptor.
sl@0: */
sl@0: ECorruptSurrogateFound = 223,
sl@0: };
sl@0:
sl@0:
sl@0:
sl@0:
sl@0: /**
sl@0: Defines a set of panic numbers associated with the E32USER-CBASE panic category.
sl@0:
sl@0: Panics with this category are raised in user side code by member functions of
sl@0: CBase derived classes that reside in euser.dll. Typically, they are caused by
sl@0: passing bad or contradictory values to class constructors or member functions.
sl@0: */
sl@0: enum TBasePanic
sl@0: {
sl@0:
sl@0: /**
sl@0: This panic is raised by the Set() member function of CAsyncCallBack,
sl@0: if this active object is already active when the function is called.
sl@0:
sl@0: @see CAsyncCallBack
sl@0: */
sl@0: ECAsyncCBIsActive=1,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Call() member function of CAsyncOneShot,
sl@0: if the active object has not already been added to the active scheduler.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see CAsyncOneShot
sl@0: */
sl@0: ECAsyncOneShotNotAdded=2,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised during construction of a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg object, when the value of the granularity passed
sl@0: to the constructors is negative.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufExpandSizeNegative=3,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when reading from a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg, using the Read() member function.
sl@0:
sl@0: It is caused by attempting to read beyond the end of the buffer.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufReadBeyondEnd=4,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when writing to a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg, using the Write() member function.
sl@0:
sl@0: It is caused by attempting to write beyond the end of the buffer.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufWriteBeyondEnd=5,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when reading from a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg, using the Read() member function.
sl@0:
sl@0: It is caused by specifying a negative length for the amount of data
sl@0: to be read.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufReadLengthNegative=6,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when writing to a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg, using the Write() member function.
sl@0:
sl@0: It is caused by specifying a negative length for the amount of data
sl@0: to be written.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufWriteLengthNegative=7,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when inserting data into a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg, using the InsertL() member function or when
sl@0: inserting an uninitialized region into the dynamic buffer using
sl@0: the ExpandL() member function.
sl@0:
sl@0: It is caused by passing a negative length value to these functions.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufInsertLengthNegative=8,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when inserting data into a dynamic buffer,
sl@0: a CBufFlat or a CBufSeg, using the InsertL() member function.
sl@0:
sl@0: It is caused when the variant of InsertL(), which takes a pointer to TAny
sl@0: is passed a NULL pointer value.
sl@0:
sl@0: @see CBufFlat
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufInsertBadPtr=9,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when specifying the minimum amount of space
sl@0: that a flat dynamic buffer, a CBufFlat, should occupy using
sl@0: the SetReserveL() member function.
sl@0:
sl@0: It is caused when the size value passed to the function is negative.
sl@0:
sl@0: @see CBufFlat
sl@0: */
sl@0: EBufFlatReserveNegative=10,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when specifying the minimum amount of space
sl@0: that a flat dynamic buffer, a CBufFlat, should occupy using
sl@0: the SetReserveL() member function.
sl@0:
sl@0: It is caused when the size value passed to the function is less than
sl@0: the current size of the buffer.
sl@0:
sl@0: @see CBufFlat
sl@0: */
sl@0: EBufFlatReserveSetTooSmall=11,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Delete(), Ptr(), BackPtr() member functions
sl@0: of a flat dynamic buffer, a CBufFlat; the panic can also be raised by
sl@0: InsertL() and ExpandL().
sl@0:
sl@0: It is caused when the position value passed to these functions is either
sl@0: negative or represents a position beyond the end of the current buffer.
sl@0:
sl@0: @see CBufFlat
sl@0: */
sl@0: EBufFlatPosOutOfRange=12,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Delete() member function of
sl@0: a flat dynamic buffer, a CBufFlat.
sl@0:
sl@0: It is caused when the combination of position and length values passed
sl@0: to the function implies an attempt to delete data beyond the end of
sl@0: the flat buffer.
sl@0:
sl@0: @see CBufFlat
sl@0: */
sl@0: EBufFlatDeleteBeyondEnd=13,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Delete(), Ptr(), BackPtr() member functions
sl@0: of a segmented dynamic buffer, a CBufSeg); the panic can also be raised
sl@0: by InsertL() and ExpandL().
sl@0:
sl@0: It is caused when the position value passed to these functions is either
sl@0: negative or represents a position beyond the end of the current buffer.
sl@0:
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufSegPosOutOfRange=14,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Delete() member function of a segmented dynamic
sl@0: buffer, a CBufSeg.
sl@0:
sl@0: It is caused when the combination of position and length values passed to
sl@0: the function implies an attempt to delete data beyond the end of
sl@0: the segmented buffer.
sl@0:
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufSegDeleteBeyondEnd=15,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the InsertL(), Delete(), Ptr() and BackPtr() member
sl@0: functions as implemented for segmented buffers, CBufSeg, when
sl@0: the offset within a segment, where data is to be inserted or removed,
sl@0: is greater than the buffer granularity.
sl@0:
sl@0: This panic is raised in debug builds only.
sl@0:
sl@0: @see CBufSeg
sl@0: */
sl@0: EBufSegSetSBO=16,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructors of arrays of fixed length objects
sl@0: as represented, for example, by the classes CArrayFixFlat, CArrayFixSeg,
sl@0: and CArrayFixFlat<TAny>.
sl@0:
sl@0: It is caused when the record length is either negative or zero. The record
sl@0: length is either explicitly specified, as in the case of
sl@0: the CArrayFixFlat<TAny> class, or is implied by the length of the template
sl@0: class as in the case of the CArrayFixFlat class.
sl@0:
sl@0: @see CArrayFixFlat
sl@0: @see CArrayFixSeg
sl@0: */
sl@0: EArrayFixInvalidLength=17,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructors of arrays of fixed length objects
sl@0: as represented, for example, by the classes: CArrayFixFlat and CArrayFixSeg.
sl@0:
sl@0: It is caused when the granularity passed to the constructors is
sl@0: either negative or zero.
sl@0:
sl@0: @see CArrayFixFlat
sl@0: @see CArrayFixSeg
sl@0: */
sl@0: EArrayFixInvalidGranularity=18,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructors of arrays of variable length
sl@0: objects as represented, for example, by the classes: CArrayVarFlat
sl@0: and CArrayVarSeg.
sl@0:
sl@0: It is caused when the granularity passed to the constructors is either
sl@0: negative or zero.
sl@0:
sl@0: @see CArrayFixFlat
sl@0: @see CArrayFixSeg
sl@0: */
sl@0: EArrayVarInvalidGranularity=19,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructors of packed arrays as represented,
sl@0: for example, by the class CArrayPakFlat.
sl@0:
sl@0: It is caused when the granularity passed to the constructors is either
sl@0: negative or zero.
sl@0:
sl@0: @see CArrayPakFlat
sl@0: */
sl@0: EArrayPakInvalidGranularity=20,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by any operation which accesses an element of an array
sl@0: by explicit reference to an index number, for example, the Delete(),
sl@0: InsertL() and At() member functions or the operator Operator[].
sl@0:
sl@0: It is caused by specifying an index value which is either negative,
sl@0: or is greater than or equal to the number of objects currently within the array.
sl@0: */
sl@0: EArrayIndexOutOfRange=21,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when deleting contiguous elements from an array of
sl@0: fixed length objects (derived from CArrayFixBase) using the Delete()
sl@0: member function.
sl@0:
sl@0: It is caused by specifying the number of contiguous elements as
sl@0: a zero or negative value.
sl@0: */
sl@0: EArrayCountNegative=22,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when inserting contiguous elements into an array
sl@0: of fixed length objects (derived from CArrayFixBase) using the
sl@0: InsertL() member function.
sl@0:
sl@0: It is caused by specifying the number of contiguous elements as
sl@0: a zero or negative value.
sl@0: */
sl@0: EArrayCountNegative2=23,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when resizing an array of fixed length objects
sl@0: (derived from CArrayFixBase) using the ResizeL() member function.
sl@0:
sl@0: It is caused by specifying the number of contiguous elements as a zero
sl@0: or negative value.
sl@0: */
sl@0: EArrayCountNegative3=24,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when deleting contiguous elements from an array of
sl@0: variable length objects (derived from CArrayVarBase) using the Delete()
sl@0: member function.
sl@0:
sl@0: It is caused by specifying the number of contiguous elements as a zero
sl@0: or negative value.
sl@0: */
sl@0: EArrayCountNegative4=25,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when deleting contiguous elements from
sl@0: a packed array (derived from CArrayPakBase) using the Delete()
sl@0: member function.
sl@0:
sl@0: It is caused by specifying the number of contiguous elements as
sl@0: a zero or negative value.
sl@0: */
sl@0: EArrayCountNegative5=26,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when reserving space in flat arrays of
sl@0: fixed length objects, the CArrayFixFlat,CArrayFixFlat<TAny>
sl@0: and CArrayPtrFlat classes, using the SetReserveL() member function.
sl@0:
sl@0: It is caused by specifying the number of elements, for which space is to be
sl@0: reserved, as less than the current number of elements in the array.
sl@0: */
sl@0: EArrayReserveTooSmall=27,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when inserting or appending replicated
sl@0: elements to the arrays of fixed length objects CArrayFixFlat and
sl@0: CArrayFixSeg using the InsertL() or AppendL() functions.
sl@0:
sl@0: It is caused by specifying the number of replicas as negative or zero.
sl@0: */
sl@0: EArrayReplicasNegative=28,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when deleting elements from a fixed length, variable
sl@0: length or packed array (derived from CArrayFixBase, CArrayVarBase
sl@0: and CArrayPakBase) using the Delete() function.
sl@0:
sl@0: It is caused when the specification of the position of the first element
sl@0: to be deleted and the number of contiguous elements to be deleted refers
sl@0: to elements which are outside the bounds of the array.
sl@0: */
sl@0: EArrayCountTooBig=29,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when inserting into, appending onto, expanding or
sl@0: extending a variable length array or a packed array (i.e. arrays derived
sl@0: from CArrayVar or CArrayPak) using the InsertL(), AppendL(), ExpandL()
sl@0: or ExtendL() functions respectively.
sl@0:
sl@0: It is caused by specifying the length of the element as a negative value.
sl@0: */
sl@0: EArrayLengthNegative=30,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EArrayReaderCountVirtual=31,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EArrayReaderAtVirtual=32,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the destructor of a CObject.
sl@0:
sl@0: It is caused when an attempt is made to delete the CObject
sl@0: when the reference count is not zero.
sl@0:
sl@0: @see CObject
sl@0: */
sl@0: EObjObjectStillReferenced=33,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Close() member function of a CObject.
sl@0:
sl@0: It is caused when the reference count is negative.
sl@0: */
sl@0: EObjNegativeAccessCount=34,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Remove() member function of an object
sl@0: container, a CObjectCon.
sl@0:
sl@0: It is caused when the CObject to be removed from the container is
sl@0: not contained by the container.
sl@0:
sl@0: @see CObject
sl@0: */
sl@0: EObjRemoveObjectNotFound=35,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Remove() member function of a container
sl@0: index, a CObjectConIx.
sl@0:
sl@0: It is caused when the object container, a CObjectCon, to be removed from
sl@0: the index is not contained by the index.
sl@0: */
sl@0: EObjRemoveContainerNotFound=36,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Remove() member function of an object index,
sl@0: a CObjectIx.
sl@0:
sl@0: It is caused when the handle passed to the Remove() function does not
sl@0: represent a CObject known to the object index.
sl@0: */
sl@0: EObjRemoveBadHandle=37,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the At(), FindByName() and FindByFullName() member
sl@0: functions of an object container, a CObjectCon.
sl@0:
sl@0: It is caused when the unique ID as derived from the handle is not the same
sl@0: as the unique ID held by the object container.
sl@0: */
sl@0: EObjFindBadHandle=38,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the At() member function of an object container,
sl@0: a CObjectCon.
sl@0:
sl@0: It is caused when the index represented by the handle is outside
sl@0: the permitted range. In effect, the handle is bad.
sl@0: */
sl@0: EObjFindIndexOutOfRange=39,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the destructor of an active object, a CActive.
sl@0:
sl@0: It is caused by an attempt to delete the active object while it still
sl@0: has a request outstanding.
sl@0: */
sl@0: EReqStillActiveOnDestruct=40,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Add() member function of an active scheduler,
sl@0: a CActiveScheduler.
sl@0:
sl@0: It is caused by an attempt to add an active object to the active scheduler
sl@0: when it has already been added to the active scheduler
sl@0: */
sl@0: EReqAlreadyAdded=41,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the SetActive() member function of an active
sl@0: object, a CActive.
sl@0:
sl@0: It is caused by an attempt to flag the active object
sl@0: as active when it is already active, i.e. a request is still outstanding.
sl@0: */
sl@0: EReqAlreadyActive=42,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Install() member function of an active
sl@0: scheduler, a CActiveScheduler.
sl@0:
sl@0: It is caused by attempting to install this active scheduler as the current
sl@0: active scheduler when there is already a current active scheduler;
sl@0: i.e. an active scheduler has already been installed.
sl@0: */
sl@0: EReqManagerAlreadyExists=43,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Start(), Stop() and Add() member functions
sl@0: of an active scheduler, a CActiveScheduler.
sl@0:
sl@0: It is caused by attempting to start or stop an active scheduler or by
sl@0: attempting to add an active object, a CActive, to the active scheduler.
sl@0: */
sl@0: EReqManagerDoesNotExist=44,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Stop() member function of an active scheduler,
sl@0: a CActiveScheduler.
sl@0:
sl@0: Calling Stop() terminates the wait loop started by the most recent
sl@0: call to Start(). The panic is caused by a call to Stop() which is not
sl@0: matched by a corresponding call to Start().
sl@0: */
sl@0: EReqTooManyStops=45,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by an active scheduler, a CActiveScheduler.
sl@0:
sl@0: It is caused by a stray signal.
sl@0: */
sl@0: EReqStrayEvent=46,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Error() virtual member function of an active
sl@0: scheduler, a CActiveScheduler.
sl@0:
sl@0: This function is called when an active object’s RunL() function leaves.
sl@0: Applications always replace the Error() function in a class derived from
sl@0: CActiveScheduler; the default behaviour provided by CActiveScheduler raises
sl@0: this panic.
sl@0: */
sl@0: EReqActiveObjectLeave=47,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Add() member function of an active scheduler,
sl@0: a CActiveScheduler, when a NULL pointer is passed to the function.
sl@0: */
sl@0: EReqNull=48,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the SetActive() and Deque() member functions of
sl@0: an active object, a CActive.
sl@0:
sl@0: It is raised if the active object has not been added to the active scheduler.
sl@0: */
sl@0: EActiveNotAdded=49,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the SetPriority() member function of an active
sl@0: object, a CActive.
sl@0:
sl@0: It is caused by an attempt to change the priority of the active object
sl@0: while it is active, i.e. while a request is outstanding).
sl@0: */
sl@0: ESetPriorityActive=50,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the At(), After() and Lock() member functions of
sl@0: the CTimer active object.
sl@0:
sl@0: It is caused by an attempt to request a timer event when the CTimer active
sl@0: object has not been added to the active scheduler.
sl@0: */
sl@0: ETimNotAdded=51,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Start() member function of the periodic timer
sl@0: active object, a CPeriodic, when a negative time interval is passed to
sl@0: the function.
sl@0: */
sl@0: ETimIntervalNegativeOrZero=52,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Start() member function of the periodic
sl@0: timer active object, a CPeriodic, when a negative delay time interval
sl@0: is passed to the function.
sl@0: */
sl@0: ETimDelayNegative=53,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EUnusedBasePanic1=54, // Unused
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ESvrNoServerName=55,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the New() and NewL() member functions of
sl@0: CBitMapAllocator when a negative or zero size is passed to them.
sl@0: */
sl@0: EBmaSizeLessOrEqualToZero=56,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Free(TInt aPos) member function of
sl@0: CBitMapAllocator when a position value is passed which is out of bounds.
sl@0: */
sl@0: EBmaFreeOutOfRange=57,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the IsFree(TInt aPos) member function of
sl@0: CBitMapAllocator when a position value is passed which is out of bounds.
sl@0: */
sl@0: EBmaAllocOutOfRange=58,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the AllocFromTopFrom(TInt aPos) member function
sl@0: of CBitMapAllocator when a position value is passed which is out of bounds.
sl@0: */
sl@0: EBmaAllocFromTopFromOutOfRange=59,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EBmaFreeTooMany=60,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: EBmaFreeNotAllocated=61,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the AllocAt() member function of CBitMapAllocator
sl@0: when the implied position has already been allocated.
sl@0: */
sl@0: EBmaAllocAtAlreadyAllocated=62,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised as a result of a call to the Pop() and PopAndDestroy()
sl@0: static member functions of the CleanupStack class.
sl@0:
sl@0: The panic occurs when TRAPs have been nested and an attempt is made to pop too
sl@0: many items from the cleanup stack for the current nest level.
sl@0: */
sl@0: EClnPopAcrossLevels=63,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised as a result of a call to the Pop() and PopAndDestroy()
sl@0: static member functions of the CleanupStack class.
sl@0:
sl@0: The panic occurs when attempt is made to pop more items from the cleanup
sl@0: stack than are on the cleanup stack.
sl@0: */
sl@0: EClnPopUnderflow=64,
sl@0:
sl@0:
sl@0: /**
sl@0: The panic is raised as a result of a call to the Pop() and PopAndDestroy()
sl@0: static member functions of the CleanupStack class.
sl@0:
sl@0: The panic occurs when an attempt is made to pop more items from the cleanup
sl@0: stack than are on the cleanup stack.
sl@0: */
sl@0: EClnLevelUnderflow=65,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if an attempt is being made to insert a cleanup item
sl@0: into a position on the cleanup stack reserved for marking the current TRAP
sl@0: nest level.
sl@0:
sl@0: In practice this error occurs if the call to CleanupStack::PushL() happens
sl@0: when there has been no call to TRAP().
sl@0: */
sl@0: EClnPushAtLevelZero=66,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when building a TCleanupStackItem which is to be added
sl@0: to the cleanup stack.
sl@0:
sl@0: The building of the TCleanupStackItem needs a TCleanupItem and this has
sl@0: been constructed with a NULL cleanup operation (a TCleanupOperation).
sl@0: */
sl@0: EClnNoCleanupOperation=67,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if there are no free slots available on the cleanup
sl@0: stack to insert a cleanup item.
sl@0: */
sl@0: EClnNoFreeSlotItem=68,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if no trap handler has been installed.
sl@0:
sl@0: In practice, this occurs if CTrapCleanup::New() has not been called
sl@0: before using the cleanup stack.
sl@0: */
sl@0: EClnNoTrapHandlerInstalled=69,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised as a result of a call to the versions of the
sl@0: Pop() and PopAndDestroy() static member functions of the CleanupStack class
sl@0: which take an explicit count of the items to be popped.
sl@0:
sl@0: The panic is caused by passing a negative value for the number of items
sl@0: to be popped.
sl@0: */
sl@0: EClnPopCountNegative=70,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised when TRAPs have been nested and an attempt is made to
sl@0: exit from a TRAP nest level before all the cleanup items belonging to that
sl@0: level have been popped off the cleanup stack.
sl@0: */
sl@0: EClnLevelNotEmpty=71,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the constructor of the circular buffer base class,
sl@0: a CCirBufBase, when the size value passed is zero or negative.
sl@0: */
sl@0: ECircItemSizeNegativeOrZero=72,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by a call to the SetLengthL() member function of
sl@0: the circular buffer base class, a CCirBufBase, by passing a length
sl@0: value which is zero or negative.
sl@0: */
sl@0: ECircSetLengthNegativeOrZero=73,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by a call to the Add() member function of a
sl@0: circular buffer, a CCirBuf when the pointer to the item
sl@0: to be added is NULL.
sl@0: */
sl@0: ECircNoBufferAllocated=74,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by a call to the Add() member function of a
sl@0: circular buffer, a CCirBuf when the number of items to be added
sl@0: is zero or negative.
sl@0: */
sl@0: ECircAddCountNegative=75,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by a call to the Remove() member function of
sl@0: a circular buffer, a CCirBuf when the number of items to be removed is zero
sl@0: or negative.
sl@0: */
sl@0: ECircRemoveCountNegative=76,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raise by CConsoleBase::Getch() when the asynchronous request
sl@0: that fetches the character completes with a completion code that
sl@0: is not KErrNone.
sl@0: */
sl@0: EConsGetchFailed=77,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ESecurityData=78,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Alloc() member function
sl@0: of CBitMapAllocator if the object is in an inconsistnt state.
sl@0: */
sl@0: EBmaInconsistentState=79,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the AllocFrom() member function
sl@0: of CBitMapAllocator if the position passed into it is outside its valid
sl@0: range, i.e. is negative or is greater than or equal to the size.
sl@0: */
sl@0: EBmaAllocFromOutOfRange=80,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Alloc() member function
sl@0: of CBitMapAllocator if the count value passed into it
sl@0: is not positive.
sl@0: */
sl@0: EBmaAllocCountNegative=81,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the AllocAligned() member function
sl@0: of CBitMapAllocator if the alignment value passed into it
sl@0: is negative or greater than or equal to 32.
sl@0: */
sl@0: EBmaAllAlgnOutOfRange=82,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the AllocAlignedBlock() member function
sl@0: of CBitMapAllocator if the alignment value passed into it
sl@0: is negative or greater than or equal to 32.
sl@0: */
sl@0: EBmaAllAlgnBOutOfRange=83,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the AllocAt() member function
sl@0: of CBitMapAllocator if the position value passed into it
sl@0: is outside the permitted range.
sl@0: */
sl@0: EBmaAllocBlkOutOfRange=84,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the IsFree() member function
sl@0: of CBitMapAllocator if the position value passed into it
sl@0: is outside the permitted range.
sl@0: */
sl@0: EBmaChkBlkOutOfRange=85,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Free() member function
sl@0: of CBitMapAllocator if the position value passed into it
sl@0: is outside the permitted range.
sl@0: */
sl@0: EBmaFreeBlkOutOfRange=86,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Free() member function
sl@0: of CBitMapAllocator if attempting to free a block that is not allocated.
sl@0: */
sl@0: EBmaFreeBlkNotAllocated=87,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the Free() member function
sl@0: of CBitMapAllocator if attempting to allocate a block that is not free.
sl@0: */
sl@0: EBmaAllocBlkNotFree=88,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by call to the Replace() member function of
sl@0: CActiveScheduler when the replacement active scheduler is the same as
sl@0: the existing active scheduler.
sl@0: */
sl@0: EActiveSchedulerReplacingSelf=89,
sl@0:
sl@0:
sl@0: /**
sl@0: The panic is raised as a result of a call to the Pop() and PopAndDestroy()
sl@0: static member functions of the CleanupStack class.
sl@0:
sl@0: The panic occurs when an the item to be popped is not the expected item.
sl@0: */
sl@0: EClnCheckFailed=90,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by CActiveSchedulerWait::Start()
sl@0: when the CActiveSchedulerWait has already been started.
sl@0:
sl@0: @see CActiveSchedulerWait
sl@0: */
sl@0: EActiveSchedulerWaitAlreadyStarted=91,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by CActiveSchedulerWait::AsyncStop() and
sl@0: CActiveSchedulerWait::CanStopNow()
sl@0: when the CActiveSchedulerWait has not been started.
sl@0: */
sl@0: EActiveSchedulerWaitNotStarted=92,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised during construction of a CAsyncOneShot if the attempt
sl@0: to open a handle to the current thread fails.
sl@0: */
sl@0: EAsyncOneShotSetupFailed=93,
sl@0:
sl@0:
sl@0: /**
sl@0: Not used.
sl@0: */
sl@0: ESvrBadSecurityPolicy=94,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if CPolicyServer::CustomSecurityCheckL(),
sl@0: or CPolicyServer::CustomFailureActionL() are called.
sl@0:
sl@0: Odds are that you forgot to implement one of these two functions in your
sl@0: CPolicyServer derived Server.
sl@0: */
sl@0: EPolSvrCallingBaseImplementation=95,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised in debug builds by the CPolicyServer constructor if
sl@0: TPolicy::iRanges[0] does not have a value of 0.
sl@0: */
sl@0: EPolSvr1stRangeNotZero=96,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised in debug builds by the CPolicyServer constructor if
sl@0: each element of TPolicy::iRanges is not greater than the previous.
sl@0: */
sl@0: EPolSvrRangesNotIncreasing=97,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised in debug builds by the CPolicyServer constructor
sl@0: unless every element in TPolicy::iElementsIndex is valid. Every element,
sl@0: x, must not be one of (ESpecialCaseHardLimit <= x <= ESpecialCaseLimit) in
sl@0: order to be valid. See CPolicyServer::TSpecialCase for more information.
sl@0: */
sl@0: EPolSvrElementsIndexValueInvalid=98,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised in debug builds by the CPolicyServer constructor if
sl@0: TPolicy::iOnConnect has an invalid value. iOnConnect must not be one of
sl@0: (ESpecialCaseHardLimit <= x <= ESpecialCaseLimit) in order to be valid.
sl@0: See CPolicyServer::TSpecialCase for more information.
sl@0: */
sl@0: EPolSvrIOnConnectValueInvalid=99,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised if CPolicyServer::iPolicy is found to be invalid for
sl@0: an unkown reason. There is a good chance that your policy would cause the
sl@0: server to panic with one of the above specific policy panic codes if you
sl@0: run it in debug mode. See the policy server documentation for a
sl@0: description of a valid policy.
sl@0: */
sl@0: EPolSvrPolicyInvalid=100,
sl@0:
sl@0:
sl@0: /**
sl@0: The value returned from CustomSecurityCheckL or CustomFailureActionL was
sl@0: invalid. See CPolicyServer::TCustomResult for a list of valid results.
sl@0: */
sl@0: EPolSvrInvalidCustomResult=101,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised in debug builds by the CPolicyServer constructor if
sl@0: TPolicy.iRangeCount is not greater than 0. All policies given to the
sl@0: policy server must contain at least 1 policy.
sl@0: */
sl@0: EPolSvrIRangeCountInvalid=102,
sl@0:
sl@0:
sl@0: /**
sl@0: This panic is raised by the policy server framework if a message fails a
sl@0: policy check (custom or not) and the associated action is EPanicClient.
sl@0: */
sl@0: EPolSvrActionPanicClient=103,
sl@0:
sl@0: /**
sl@0: This panic is raised by CObjectIx class methods if inconsistent data condition occurs
sl@0: It can appear in debug build only.
sl@0: */
sl@0: EObjInconsistent=104,
sl@0:
sl@0: /**
sl@0: This panic is raised as a result of a call to the Pop() and PopAndDestroy()
sl@0: static member functions of the CleanupStack class.
sl@0:
sl@0: The panic occurs when the cleanup operation of a popped item modifies the
sl@0: cleanup stack. In such a case, the function cannot guarantee that the correct
sl@0: items will be popped.
sl@0: */
sl@0: EClnStackModified=105,
sl@0:
sl@0: /**
sl@0: This panic is raised as a result of a call to CServer2::SetPinClientDescriptors() after
sl@0: CServer2::Start() has been invoked on a CServer2 object.
sl@0: */
sl@0: ECServer2InvalidSetPin = 106,
sl@0: };
sl@0:
sl@0: #endif