os/graphics/graphicsdeviceinterface/gdi/sgdi/BidiCompact.cpp
author sl@SLION-WIN7.fritz.box
Fri, 15 Jun 2012 03:10:57 +0200
changeset 0 bde4ae8d615e
permissions -rw-r--r--
First public contribution.
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// Copyright (c) 2002-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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//
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#include "BidiCompact.h"
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#include "BidiCopy.h"
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#include <gdi.h>
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static const TInt KZeroWidthJoiner = 0x200D;
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// This gets round the compiler warning about converting
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// EFRightToLeft to unsigned long.
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inline TUint FRightToLeft() { return static_cast<TUint>(TRunInfoCompact::EFRightToLeft); }
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/**
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Constructs a run description without considering optimisations based
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on the text itself.
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@param aStart Index of the start of the run.
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@param aLength Length of the run.
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@param aReverse ETrue if the run is right-to-left.
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@internalTechnology
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*/
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TRunInfoCompact::TRunInfoCompact(TInt aStart, TInt aLength,
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	TBool aReverse)
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	: iStart(aStart), iLengthAndType(aLength)
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	{
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	if (aReverse)
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		iLengthAndType |= FRightToLeft();
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	}
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/**
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Constructs a run description.
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@param aStart Index of the start of the run.
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@param aLength Length of the run.
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@param aReverse ETrue if the run is right-to-left.
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@param aText The text that this run refers to (starting at index 0, not
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the start of the run). This is required only to determine if optimisations 
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to the re-ordering are possible.
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@internalTechnology
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*/
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TRunInfoCompact::TRunInfoCompact(TInt aStart, TInt aLength,
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	TBool aReverse, const TText* aText)
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	: iStart(aStart), iLengthAndType(aLength)
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	{
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	ASSERT(0 <= aLength);
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	ASSERT(aLength < 0x10000000);
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	ASSERT(0 <= aStart);
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	if (!aReverse)
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		return;
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	iLengthAndType |= FRightToLeft();
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	TUint32 flags = EFNoPairsNoCombiners | EFNoMirroredCharacters;
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	aText += aStart;
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	for (const TText* end = aText + aLength; aText < end && flags; ++aText)
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		{
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		TInt code = *aText;
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		if ((code & 0xF800) == 0xD800)
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			{
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			flags &= ~EFNoPairsNoCombiners;
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			if ((code & 0xFC00) == 0xDC00
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				&& aText + 1 < end
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				&& (aText[1] & 0xFC00) == 0xD800)
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				{
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				code = (aText[1] << 10) + (code & 0x3FF)
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					+ (0x10000 - 0xD800*0x400);
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				++aText;
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				}
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			}
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		TChar c = code;
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		if (c.GetCombiningClass() != 0)
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			flags &= ~EFNoPairsNoCombiners;
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		if (BidiCopy::Mirror(code) != code)
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			flags &= ~EFNoMirroredCharacters;
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		}
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	iLengthAndType |= flags;
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	}
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/**
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Attempts to extend a run.
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@param aToBeAdded The run to be merged.
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@return ETrue if extension succeeded, EFalse if not.
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@internalTechnology
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*/
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TBool TRunInfoCompact::AddRun(const TRunInfoCompact& aToBeAdded)
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	{
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	TInt length = Length();
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	if (length == 0)
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		{
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		*this = aToBeAdded;
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		return ETrue;
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		}
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	// Are both runs in the same direction?
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	if ((iLengthAndType ^ aToBeAdded.iLengthAndType) & FRightToLeft())
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		return EFalse;
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	TBool rightToLeft = TypeFlags() & EFRightToLeft;
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	TInt end = rightToLeft?
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		Start() - Length() : Start() + Length();
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	if (end != aToBeAdded.Start())
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		return EFalse;
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	length += aToBeAdded.Length();
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	iLengthAndType = length | (TypeFlags() & aToBeAdded.TypeFlags());
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	if (rightToLeft)
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		iStart -= aToBeAdded.Length();
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	return ETrue;
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	}
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/**
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Reorders text described by this run according to aContext. Allow 6 extra
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bytes for a truncation.
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@param aDestination	Where to write this run of visually-ordered text to.
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@param aContext The source of the text to be ordered.
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@return	The first byte not written to: in other words, what aDestination
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should be updated to.
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@internalTechnology
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*/
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TText* TRunInfoCompact::Reorder(TText* aDestination,
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	const TRunInfoCompact::TReorderingContext& aContext) const
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	{
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	TInt start = Start();
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	if (aContext.iEnd < start)
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		// does not overlap
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		return aDestination;
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	TInt end = Start() + Length();
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	if (end <= aContext.iStart)
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		// does not overlap
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		return aDestination;
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	TBool startJoins = EFalse;
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	if (start <= aContext.iStart)
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		{
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		start = aContext.iStart;
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		startJoins = aContext.iJoinsAtStart;
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		}
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	TBool truncated = EFalse;
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	TBool endJoins = EFalse;
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	if (aContext.iEnd <= end)
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		{
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		if (aContext.iEnd < end
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			&& aContext.iTruncation != 0xFFFF)
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			truncated = ETrue;
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		end = aContext.iEnd;
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		endJoins = aContext.iJoinsAtEnd;
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		}
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	TInt length = end - start;
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	if (length == 0 && !truncated)
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		return aDestination;
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	ASSERT(0 <= length);
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	const TText* source = aContext.iSource + start;
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	if (TypeFlags() & FRightToLeft())
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		{
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		// Right-to-left
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		if (truncated)
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			aDestination = BidiCopy::OutputTChar(aDestination, aContext.iTruncation);
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		if (endJoins)
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			*(aDestination++) = KZeroWidthJoiner;
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		if (TypeFlags() & EFNoPairsNoCombiners)
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			{
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			// Simple
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			aDestination = TypeFlags() & EFNoMirroredCharacters?
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				BidiCopy::CopyBackwards(aDestination, source, length)
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				: BidiCopy::CopyBackwardsWithMirroring(aDestination, source, length);
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			}
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		else
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			// Respect groups
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			aDestination = BidiCopy::CopyGroupsBackwards(aDestination, source, length);
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		if (startJoins)
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			*aDestination++ = KZeroWidthJoiner;
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		return aDestination;
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		}
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	// Left-to-right
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	if (startJoins)
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		*aDestination++ = KZeroWidthJoiner;
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	Mem::Copy(aDestination, source, length * sizeof(TText));
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	aDestination += length;
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	if (endJoins)
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		*aDestination++ = KZeroWidthJoiner;
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	if (truncated)
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		aDestination = BidiCopy::OutputTChar(aDestination, aContext.iTruncation);
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	return aDestination;
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	}
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/**
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Converts an array of aArraySize TBidirectionalState::TRunInfos into a
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compact form.
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@param aBuffer Memory to output to, or null just to find out how large the output
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array will need to be.
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@param aText The text that aRunArray refers to.
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@param aRunArray The array to be converted.
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@param aArraySize The length of aRunArray.
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@return The length of the output array.
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@internalTechnology
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*/
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TInt TRunInfoCompact::Convert(TRunInfoCompact* aBuffer, const TDesC& aText,
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	const TBidirectionalState::TRunInfo* aRunArray, TInt aArraySize)
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	{
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	const TText* text = aText.Ptr();
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	TInt outputSize =  0;
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	TRunInfoCompact currentRun;
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	while (aArraySize)
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		{
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		TRunInfoCompact newRun(aRunArray->iStart, aRunArray->iLength,
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			aRunArray->iDirection, text);
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		--aArraySize;
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		if (!currentRun.AddRun(newRun))
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			{
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			if (aBuffer)
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				*aBuffer++ = currentRun;
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			++outputSize;
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			currentRun = newRun;
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			}
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		++aRunArray; //point to next run
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		}
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	if (0 < currentRun.Length())
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		{
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		if (aBuffer)
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			*aBuffer++ = currentRun;
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		++outputSize;
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		}
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	return outputSize;
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	}
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/**
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Utility tells whether a character will form a join with the previous
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base character.
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@param aText The text.
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@param aIndex The index into aText of the character to test.
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@return ETrue if there is a join before the character.
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*/
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TBool TRunInfoCompact::JoinBefore(const TText* aText, TInt aIndex)
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	{
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	TInt charUnderTest = aText[aIndex];
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	if (!CFont::CharactersJoin(charUnderTest, KZeroWidthJoiner))
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		// Character does not join with anything, so we
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		// will not do any more work.
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		return EFalse;
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	while (aIndex != 0)
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		{
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		--aIndex;
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		TInt c = aText[aIndex];
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		// If it is an Arabic point, we will skip it.
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		if (0x64B <= c && c < 0x671
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			&& !(0x656 <= c && c < 0x670))
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			continue;
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		return CFont::CharactersJoin(charUnderTest, c);
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		}
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	return EFalse;
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	}