CFormatLayer Class Reference

class CFormatLayer : public CBase

Abstract base class for the paragraph and character format layers.

A format layer is a set of character or paragraph format attributes which may own a pointer to another format layer. This pointer is called a based-on link. The effective formatting of a text object may be built up from a chain of format layers - the final layer in the chain has a NULL based-on link. In case of conflict, attribute values set in upper layers (layers furthest from the layer with the NULL based-on link) override those set in lower layers. In rich text, additional formatting may be applied on top of these format layers.

The system of based-on links is implemented by the CFormatLayer class. It also implements persistence for chains of format layers.

When setting or sensing the attributes of a CParaFormatLayer or CCharFormatLayer , a format mask and container are specified as parameters. The container has data members for every format attribute, which may be set independently. When setting the layer, the mask indicates the attributes which will be taken from the container. Any attributes not specified in the mask will be taken from the system-provided default values.

When sensing a layer, on return, the mask indicates which attributes have been explicitly set in the layer, (i.e. not taken from the default values). In addition, a layer's effective format may be sensed. In this case, no mask is used because the format container will, on return, contain a value for every attribute.

Inherits from

Constructor & Destructor Documentation

CFormatLayer(const CFormatLayer &)

CFormatLayer ( const CFormatLayer & aFormatLayer ) [private]

Parameters

const CFormatLayer & aFormatLayer

CFormatLayer()

CFormatLayer ( ) [protected]

~CFormatLayer()

~CFormatLayer ( ) [protected]

Member Functions Documentation

ChainCount()

IMPORT_C TInt ChainCount ( ) const

Gets the number of format layers in the chain, inclusive of itself. Assumes that the format layer chain has been correctly set up to terminate with a NULL based-on link.

CloneLayerL(CFormatLayer *)

void CloneLayerL ( CFormatLayer * aClone ) const [protected]

Parameters

CFormatLayer * aClone

DoCloneL()

CFormatLayer * DoCloneL ( ) const [private, pure virtual]

ExternalizeChainL(RWriteStream &, TInt)

IMPORT_C void ExternalizeChainL ( RWriteStream & aStream,
TInt aExcludeCount = 0
) const

Stores a chain of format layers. By default an entire chain is stored unless an exclude count is provided. In this case, the length of the chain stored is the ChainCount() minus the exclude count. The excluded layers are the ones starting with the layer with the NULL based-on link.

Note

The exclude count must be zero or greater but must be less than the total number of layers in the chain, otherwise a panic occurs.

Parameters

RWriteStream & aStream Stream to which the format layer chain should be externalised.
TInt aExcludeCount = 0 The number of layers to be excluded. By default, zero.

ExternalizeL(RWriteStream &)

void ExternalizeL ( RWriteStream & aStream ) const [pure virtual]

Implementations of this function externalise the format layer but not its based-on link to a write stream. The presence of this function means that the standard templatedoperator<<() (defined in s32strm.h) is available to externalise objects of the derived class.

Parameters

RWriteStream & aStream Stream to which the format layer should be externalised.

ExternalizeLayersRecurseL(RWriteStream &, TInt)

void ExternalizeLayersRecurseL ( RWriteStream & aStream,
TInt aDescendantCount
) const [protected]

Stores a format layer chain with *aLength* number of layers in a stack-like fashion. This necessitates navigating to the end of the chain and storing the layers as we unwind back to the top of the chain.

Parameters

RWriteStream & aStream
TInt aDescendantCount

InternalizeChainL(RReadStream &, const CFormatLayer *)

IMPORT_C void InternalizeChainL ( RReadStream & aStream,
const CFormatLayer * aBase = NULL
)

Restores a chain of format layers from a read stream. The layer at the end of the chain (the one furthest from this layer) is set to be based on the specified layer aBase, which may be NULL. This layer is set to be at the head of the restored chain (i.e. no other layers are based on it).

Parameters

RReadStream & aStream Stream from which the format layer chain should be internalised.
const CFormatLayer * aBase = NULL The format layer at the end of the chain (furthest from this layer). May be NULL.

InternalizeL(RReadStream &, const CFormatLayer *)

void InternalizeL ( RReadStream & aStream,
const CFormatLayer * aBase = NULL
) [pure virtual]

Implementations of this function internalise the format layer but not its based-on link from a read stream. The presence of this function means that the standard templated operator>>() (defined in s32strm.h) is available to internalise objects of the derived class. The internalised layer is set to be based on the layer specified.

Parameters

RReadStream & aStream Stream from which the format layer should be internalised.
const CFormatLayer * aBase = NULL The based-on link to assign to the layer. By default, NULL.

IsEmpty()

IMPORT_C TBool IsEmpty ( ) const

Tests whether any formatting is stored in the format layer.

IsIdentical(CFormatLayer *, TBool)

TBool IsIdentical ( CFormatLayer * aLayer,
TBool aCheckBasedOnLink = ETrue
) const [pure virtual]

Implementations of this function compare another format layer with the current object. For the two layers to be equal, they must have the same contents and (if the second parameter is ETrue), their based-on links must point to the same format layer.

Parameters

CFormatLayer * aLayer The layer to compare to this format layer.
TBool aCheckBasedOnLink = ETrue If ETrue, both layers' based-on links must point to the same format layer. If EFalse, the based-on links are not used in the comparison. By default, ETrue.

IsIdentical(const TUint8 *, TInt)

TBool IsIdentical ( const TUint8 * aPtr,
TInt aSize
) const [protected]

Implementations of this function compare another format layer with the current object. For the two layers to be equal, they must have the same contents and (if the second parameter is ETrue),their based-on links must point to the same format layer.

Parameters

const TUint8 * aPtr
TInt aSize

Ptr(TInt &)

const TUint8 * Ptr ( TInt & aSize ) const [protected]

Return a pointer to the stored bytecode.

Parameters

TInt & aSize

Reset()

IMPORT_C void Reset ( )

Deletes the contents of the format layer. The based-on link is not affected.

RestoreNewL(RReadStream &)

CFormatLayer * RestoreNewL ( RReadStream & aStream ) [protected, pure virtual]

Parameters

RReadStream & aStream

SenseBase()

IMPORT_C const CFormatLayer * SenseBase ( ) const

Gets the format layer which this layer's based-on link points to. If NULL, this layer is the final layer in the chain.

SetBase(const CFormatLayer *)

IMPORT_C void SetBase ( const CFormatLayer * aBaseFormatLayer )

Sets the format layer which this layer's based-on link points to.

Parameters

const CFormatLayer * aBaseFormatLayer The format layer which this layer's based-on link points to. Specify NULL if this is the final layer in the chain (the layer on which all other layers are based).

Swap(CFormatLayer &)

void Swap ( CFormatLayer & aLayer )

Swaps the contents of this with aLayer.

Parameters

CFormatLayer & aLayer The layer to swap contents with.

operator=(const CFormatLayer &)

CFormatLayer & operator= ( const CFormatLayer & aFormatLayer ) [private]

Parameters

const CFormatLayer & aFormatLayer

Member Data Documentation

const CFormatLayer * iBasedOn

const CFormatLayer * iBasedOn [protected]

RFormatStream iStore

RFormatStream iStore [protected]