Attempt to represent the S^2->S^3 header reorganisation as a series of "hg rename" operations
/*
* Copyright (c) 2002 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Symbian Foundation License v1.0" to Symbian Foundation members and "Symbian Foundation End User License Agreement v1.0" to non-members
* which accompanies this distribution, and is available
* at the URL "http://www.symbianfoundation.org/legal/licencesv10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: Text utilities e.g. truncating and wrapping to be used in code
* that needs to support text that requires conversion from logical
* to visual order, e.g. Arabic/Hebrew.
* Logical text is given as input to all methods.
* Output text is in visual order.
*
*
*/
#ifndef AKN_BIDI_TEXT_UTILS_H
#define AKN_BIDI_TEXT_UTILS_H
// INCLUDES
#include <e32base.h>
#include <uikon.hrh> // KEllipsis
#include <gdi.h> // For CCFont::TMeasureTextInput::TFlags
// CONSTANTS
const TInt KAknBidiExtraSpacePerLine = 4;
// FORWARD DECLARATIONS
// CLASS DECLARATION
/**
* Text utilities e.g. truncating and wrapping to be used in code that needs to
* support text that requires conversion from logical to visual order,
* e.g. Arabic/Hebrew Logical text is given as input to all
* methods. Output text is in visual order.
*
* Input text buffers given as parameters must contain extra space for some additional
* characters as stated in method descriptions.
*
* @lib avkon.dll
* @since 2.0
*/
class AknBidiTextUtils
{
public:
/**
* Overall paragraph directionality
*/
enum TParagraphDirectionality
{
EImplicit = 0, // implicit directionality of input text
ELeftToRight = 1,
ERightToLeft = 2
};
public: // New functions
/**
* Generic text clipping. This method allocates memory for visual buffer,
* and can leave in OOM situations.
*
* @since 2.0
*
* @param aLogicalText String to be clipped in logical order. This method
* converts it in visual order and clips it if necessary.
* The descriptor must contain extra space of at least
* KAknBidiExtraSpacePerLine. Otherwise, a panic is raised.
*
* @param aFont Font used when drawing the text.
*
* @param aMaxWidthInPixels Maximum width of text that is not be clipped.
*
* @param aMaxClippedWidthInPixels Maximum width of text that is clipped.
* Note that this should not be many pixels bigger than aMaxWidthInPixels
* because then truncation character could appear after fully fitting text.
*
* @param aDirectionality Paragraph directionality.
*
* @param aClipChar The truncation character.
* 0xFFFF if no truncation character is to be used.
*
* @return ETrue if the text was clipped, EFalse otherwise.
*/
IMPORT_C static TBool ConvertToVisualAndClipL(
TDes& aLogicalText,
const CFont& aFont,
TInt aMaxWidthInPixels,
TInt aMaxClippedWidthInPixels,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit,
TChar aClipChar = KEllipsis );
/**
* Generic text clipping. This method does not allocate memory and can
* be used in non-leaving functions. You must give a preallocated visual
* buffer as a parameter.
*
* @since 2.0
*
* @param aLogicalText String to be clipped in logical order.
*
* @param aVisualText The reordered text in visual form is returned here.
* This method converts aLogicalText into visual order
* and clips it if necessary. Maximum length of this
* descriptor must be at least
* aLogicalText.Length() + KAknBidiExtraSpacePerLine.
* otherwise a panic is raised.
*
* @param aFont Font used when drawing the text.
*
* @param aMaxWidthInPixels Maximum width of text that is not clipped.
*
* @param aMaxClippedWidthInPixels Maximum width of text that is clipped.
* Note that this should not be many pixels bigger than aMaxWidthInPixels
* because then truncation character could appear after fully fitting text.
*
* @param aDirectionality Paragraph directionality.
*
* @param aClipChar The truncation character.
* 0xFFFF if no truncation character is to be used.
*
* @return ETrue if the text was clipped, EFalse otherwise.
*/
IMPORT_C static TBool ConvertToVisualAndClip(
const TDesC& aLogicalText,
TDes& aVisualText,
const CFont& aFont,
TInt aMaxWidthInPixels,
TInt aMaxClippedWidthInPixels,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit,
TChar aClipChar = KEllipsis );
/**
* Tests how big run info array the given text requires and
* tries to increase the size of the array if required (stored in CAknEnv).
*
* This method is useful with the non-leaving version of
* ConvertToVisualAndClip(). By calling this method successfully
* (means KErrNone is returned) at any point during the lifetime of the application
* it is guaranteed that the text gets correctly converted in visual form even
* in out-of-memory situation when calling ConvertToVisualAndClip().
*
* Note that there is no use calling this method if you do not handle the
* return code, because the truncating methods already do that.
*
* @since 2.0
*
* @param aLogicalText Text in logical order.
*
* @return KErrNone or KErrNoMemory.
*/
IMPORT_C static TInt PrepareRunInfoArray( const TDesC& aLogicalText );
/**
* Converts a string in visual order and wraps it to an array of pointers.
* The maximum number of lines and line widths are specified in
* aLineWidthArray. The pointers in aWrappedArray are set to point to
* positions inside descriptor given in aLogicalText.
*
* @since 2.0
*
* @param aLogicalText Logical text to be wrapped. This method
* converts it in visual form (in strictly left to
* right order) and wraps it to lines.
* These lines can then be renderered using e.g.
* CGraphicsContext::DrawText().
* The descriptor must contain extra space of at least
* (aLineWidthArray.Count() * KAknBidiExtraSpacePerLine).
* Otherwise, a panic is raised.
*
* @param aLineWidthArray Line widths in pixels. Also determines maximum
* number of lines.
*
* @param aFont Used font.
*
* @param aWrappedArray Pointers to wrapped lines.
*
* @param aInsertTruncationChar Whether to insert truncation character
* (KEllipsis) or not if the text does not fit in
* given maximum number of lines.
*
* @param aDirectionality Paragraph directionality.
*/
IMPORT_C static void ConvertToVisualAndWrapToArrayL(
TDes& aLogicalText,
const CArrayFix<TInt>& aLineWidthArray,
const CFont& aFont,
CArrayFix<TPtrC>& aWrappedArray,
TBool aInsertTruncationChar,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit );
/**
* Converts a string in visual order and wraps it to an array of pointers.
* Constant line width is given. The pointers in aWrappedArray are set to
* point to positions inside the returned heap descriptor.
*
* @since 2.0
*
* @param aLogicalText Logical text to be wrapped. This method
* converts it in visual form (in strictly left to
* right order) and wraps it to lines. (The returned
* heap descriptor contains the string in visual
* order.)
* These lines can then be renderered using e.g.
* CGraphicsContext::DrawText().
*
* @param aLineWidth Constant line width in pixels.
*
* @param aFont Used font.
*
* @param aWrappedArray Pointers to wrapped lines.
*
* @param aDirectionality Paragraph directionality.
*
* @return Heap descriptor containing the wrapped string in visual form.
* Ownership is transferred to the caller.
*/
IMPORT_C static HBufC* ConvertToVisualAndWrapToArrayL(
const TDesC& aLogicalText,
TInt aLineWidth,
const CFont& aFont,
CArrayFix<TPtrC>& aWrappedArray,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit );
/**
* Converts a string in visual order and chops each line when a line break
* character is encountered.
* Clips at the end of each line if there isn't enough space
* on that line. When clipping, KEllipsis (shown as 3 dots) is inserted at
* the end of the line. The pointers in aChoppedArray are set to point to
* positions inside aLogicalText.
*
* @since 2.0
*
* @param aLogicalText Logical text to be chopped. This method
* converts it in visual form (in strictly left to
* right order) and chops each line when a line break
* character is encountered.
* These lines can then be renderered using e.g.
* CGraphicsContext::DrawText().
* The descriptor must contain extra space of at least
* (aLineWidthArray.Count() * KAknBidiExtraSpacePerLine).
* Otherwise, a panic is raised.
*
* @param aLineWidthArray Line widths in pixels. Also determines maximum
* number of lines.
*
* @param aFont Used font.
*
* @param aChoppedArray Pointers to chopped lines.
*
* @param aDirectionality Paragraph directionality.
*/
IMPORT_C static void ConvertToVisualAndChopToArrayL(
TDes& aLogicalText,
const CArrayFix<TInt>& aLineWidthArray,
const CFont& aFont,
CArrayFix<TPtrC>& aChoppedArray,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit );
/**
* Converts a string in visual order and chops each line when a line break
* character is encountered.
* Clips at the end of each line if there isn't enough space
* on that line. When clipping, KEllipsis (shown as 3 dots) is inserted at
* the end of the line. The pointers in aChoppedArray are set to point to
* positions inside the returned heap descriptor.
*
* @since 2.0
*
* @param aLogicalText Logical text to be chopped. This method
* converts it in visual form (in strictly left to
* right order) and chops each line when a line break
* character is encountered. (The returned
* heap descriptor contains the string in visual
* order.)
* These lines can then be renderered using e.g.
* CGraphicsContext::DrawText().
*
* @param aLineWidth Constant line width in pixels
*
* @param aFont Used font.
*
* @param aChoppedArray Pointers to chopped lines.
*
* @param aDirectionality Paragraph directionality.
*
* @return Heap descriptor containing the chopped string in visual form.
* Ownership is transferred to the caller.
*/
IMPORT_C static HBufC* ConvertToVisualAndChopToArrayL(
const TDesC& aLogicalText,
TInt aLineWidth,
const CFont& aFont,
CArrayFix<TPtrC>& aChoppedArray,
TParagraphDirectionality aDirectionality = EImplicit );
/**
* Converts a string in visual order and wraps it to lines by inserting
* '\n' after each line in text.
* The result is copied into aWrappedString.
*
* @since 2.0
*
* @param aLogicalText Logical text to be wrapped. This method
* converts it in visual form (in strictly left to
* right order) and wraps it to lines in aWrappedString.
* '\n' is inserted after each line.
* These lines can then be renderered using e.g.
* CGraphicsContext::DrawText().
*
* @param aLineWidthArray Line widths in pixels. Also determines maximum
* number of lines.
*
* @param aFont Used font.
*
* @param aWrappedString Wrapped string. The maximum length of the descriptor
* must be at least
* ( aLogicalText.Length() +
* aLineWidthArray.Count() * (KAknBidiExtraSpacePerLine+1) ).
* Otherwise, a panic is raised.
*
* @param aInsertTruncationChar Whether to insert truncation character
* (KEllipsis) or not if the text does not fit in
* given maximum number of lines.
*
* @param aDirectionality Paragraph directionality.
*/
IMPORT_C static void ConvertToVisualAndWrapToStringL(
const TDesC& aLogicalText,
const CArrayFix<TInt>& aLineWidthArray,
const CFont& aFont,
TDes& aWrappedString,
TBool aInsertTruncationChar,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit );
// -------------------------------------------------------------------------
// The following methods are introduced in release 2.1
// -------------------------------------------------------------------------
/**
* Converts a string in visual order and wraps it to an array of pointers.
* Line widths are specified in aLineWidthArray. If all the text does not fit
* in the amount of lines in aLineWidthArray, the last line width in the array
* is used for all the remaining lines. The pointers in aWrappedArray are set
* to point to positions inside the returned heap descriptor.
*
* @since 2.1
*
* @param aLogicalText Logical text to be wrapped. This method
* converts it in visual form (in strictly left to
* right order) and wraps it to lines. (The returned
* heap descriptor contains the string in visual
* order.)
* These lines can then be renderered using e.g.
* CGraphicsContext::DrawText().
*
* @param aLineWidthArray Line widths in pixels. If the whole text does
* not fit in the number of lines specified in the
* array, the last width is used for the remaining
* lines.
*
* @param aFont Used font.
*
* @param aWrappedArray Pointers to wrapped lines.
*
* @param aDirectionality Paragraph directionality.
*
* @return Heap descriptor containing the wrapped string in visual form.
* Ownership is transferred to the caller.
*/
IMPORT_C static HBufC* ConvertToVisualAndWrapToArrayWholeTextL(
const TDesC& aLogicalText,
const CArrayFix<TInt>& aLineWidthArray,
const CFont& aFont,
CArrayFix<TPtrC>& aWrappedArray,
AknBidiTextUtils::TParagraphDirectionality aDirectionality = EImplicit );
/**
* Measures the full horizontal width in pixels of the passed-in text using a particular font,
* including in the width any side-bearings of the glyphs at the ends of the text, and any
* declared "advance" of the run of glyphs.
*
* It cannot be used for vertical text measurement.
*
* Side-bearings are parts of glyphs that extend left or right from the normal width
* or "advance" of the glyph. A left side-bearing, for instance, will overlap with a glyph
* to its left. Another way of thinking about this is that the origin (0,0) of the glyph is
* not at its bottom left.
*
* The advance of a run of glyphs is the sum of the advances - once in visual ordering and
* shaping has been performed - of all the glyphs. It is defined relative to a drawing origin.
*
* Within runs of text, side-bearings do not contribute to the width of the text. However,
* at the (visual) ends of text, they are likely to need to be counted, depending upon the
* exact use case.
*
* This method returns the width of the horizontal envelope of the text by taking the extreme
* horizontal extents of the text bounds rectangle (which includes side-bearings on either end)
* and the extent of the advance. Thus it returns the width of :
* Min(<left_text_bound>, 0), Max( <right_text_bound>, <advance>)
*
* This method should be used when the proposed text is going to be drawn using any horizontal
* CGraphicsContext::DrawText drawing API.
*
* The text can be in visual or logical order.
*
* @since 3.1
* @param aFont Font to use
* @param aText Text to be measured
* @param aOrder Whether the text provided is in visual or logical order
* @return width of the text in pixels.
*/
IMPORT_C static TInt AknBidiTextUtils::MeasureTextBoundsWidth(
const CFont& aFont,
const TDesC& aText,
CFont::TMeasureTextInput::TFlags aOrder);
private:
static TBool DoConvertToVisualAndClip(
const TDesC& aLogicalText,
TDes& aVisualText,
const CFont& aFont,
TInt aMaxWidthInPixels,
TInt aMaxClippedWidthInPixels,
AknBidiTextUtils::TParagraphDirectionality aDirectionality,
TChar aClipChar );
/**
* C++ default constructor.
*/
AknBidiTextUtils();
};
#endif // AKN_BIDI_TEXT_UTILS_H
// End of File