--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/kernel/eka/include/unicode.h	Mon Oct 19 15:55:17 2009 +0100
@@ -0,0 +1,181 @@
+// Copyright (c) 1997-2009 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 "Eclipse Public License v1.0"
+// which accompanies this distribution, and is available
+// at the URL "http://www.eclipse.org/legal/epl-v10.html".
+//
+// Initial Contributors:
+// Nokia Corporation - initial contribution.
+//
+// Contributors:
+//
+// Description:
+// e32\include\unicode.h
+// The TUnicode class contains a Unicode value. It is provided for convenience in implementing the
+// character attribute retrieval functions. It also contains:
+// structures used to store and search the tables of character information:
+// when modifying these, please remember that they form part of tables that must be initialised as aggregates,
+// so they cannot have constructors, non-public members, base classes or virtual functions. I have used 'struct'
+// rather than class to make that clear.
+// default constructor that sets the stored Unicode value to 0xFFFF - an invalid character
+// constructors and conversion functions for converting between integers and TUnicode objects
+// functions to retrieve the categories and attributes
+// The categories are explained in 'unicode_fields.txt', which is a key to the fields of the data file
+// 'unidata2.txt'; these files are supplied on the CD-ROM that comes with the book 'The Unicode Standard,
+// Version 2.0'.
+// Because the category constants must be available to users they are defined not here but in the TChar
+// class in e32std.h.
+// 
+// WARNING: This file contains some APIs which are internal and are subject
+//          to change without notice. Such APIs should therefore not be used
+//          outside the Kernel and Hardware Services package.
+//
+
+/**
+ @file
+ @internalTechnology
+*/
+
+
+#ifndef __UNICODE_H__
+#define __UNICODE_H__ 1
+
+#include <e32cmn.h>
+
+/*
+A structure to contain the raw data about a Unicode character:
+it must not have a constructor because an array of these in unitable.cpp is initialised as an aggregate.
+*/
+struct TUnicodeData
+	{
+	// bit values for iFlags
+	enum
+		{
+		EHasLowerCase = 1,			// adding the case offset gives the lower case form
+		EHasUpperCase = 2,			// subtracting the case offset gives the upper case form
+		EHasTitleCase = 4,			// a title case form exists that is distinct from the upper case form
+		EMirrored = 8,				// this character is replaced by a mirror-image in right-to-left text
+		ENumericFlags = 0x70,		// one of these flags is set if this number has a numeric value
+		ENonNumeric = 0x00,			// this character has no numeric value
+		ESmallNumeric = 0x10,		// numeric in the range 0..255 (see iDigitOffset)
+		EFiveHundred = 0x20,		// numeric with the value 500
+		EOneThousand = 0x30,		// numeric with the value 1000
+		EFiveThousand = 0x40,		// numeric with the value 5000
+		ETenThousand = 0x50,		// numeric with the value 10000
+		EHundredThousand = 0x60,	// numeric with the value 100000
+		EFraction = 0x70			// numeric with a fractional value
+		};
+
+	TUint8 iCategory;					// general category
+	TUint8 iBdCategory;					// bidirectional category
+	TUint8 iCombiningClass;				// combining class
+	TInt8 iDigitOffset;					// if this character has a small numeric value, the difference between the low
+										// 8 bits of the character code and the numeric value
+	TInt16 iCaseOffset;					// offset to other case; subtract to get upper case, add to get lower
+										// case (this makes it more likely that characters
+										// differing only by case have the same	data, making the table smaller)
+	TUint8 iFlags;						// flags: does this character have a lower case form, etc.
+	};
+
+/*
+A structure for Unicode plane information.
+An array of 17 elements should be defined in unitable.cpp, which is generated
+by the readtype tool. All characters in a plane are divided into blocks. All
+blocks in a plane have the same block size. Block size can be 2, 4, 8, etc.
+Any field in this structure can be calculated from any other field. Such
+'redundant' information is just for faster runtime speed.
+For example, a plane has block size of 16, which is 2 ^ 4. The code number 
+will be 4. The mask for block will be 0xFFF0, which means high 12 bit indicates
+block index. The mask for code point will be 0x000F, which means the lower 4
+bits indicates index in block.
+*/
+struct TUnicodePlane
+	{
+	TUint8 iCodesPerBlock;			// how many bits are used to represent code points (for example if there were 4096 blocks (12 bits), this would be 4 bits)
+	TUint16 iMaskForBlock;			// mask of 16 bits for blocks (for example 8 bits would be 0xff00)
+	TUint16 iMaskForCodePoint;		// mask of 16 bits for index in block (for example 8 bits would be 0x00ff)
+	};
+
+/*
+A structure for a range of Unicode characters with the same raw data; must not have a
+constructor because an array of these in unitable.cpp is initialised as an aggregate.
+
+@deprecated
+*/
+struct TUnicodeDataRange
+	{
+	TUint16 iRangeStart;	// Unicode value of the start of the range of characters
+	TInt16 iIndex;			// index into an array of character information structures (-1 means data no available)
+	};
+
+/*
+A structure to hold a set of overriding character data
+*/
+struct TUnicodeDataSet
+	{
+	const TUnicodeData *iData;			// array of character data structures
+	const TUnicodeDataRange *iRange;	// array of ranges referring to elements of iData
+	TInt iRanges;						// number of elements in the array of ranges
+	};
+
+// A structure to hold the standard character data
+struct TStandardUnicodeDataSet
+	{
+	const TUint16* iIndex1;				// first trie index: 4096 elements indexed by high 12 bits of Unicode value
+	const TUint16* iIndex2;				// second trie index, indexed by values in iIndex1
+	const TUnicodeData *iData;			// array of character data structures, indexed by values in iIndex2, offset
+										// by low 4 bits of Unicode value
+	};
+
+/*
+A class to hold a Unicode character and provide functions for characterisation (e.g., is this character lowercase?)
+composition (e.g., create a character from a base character and an accent), and decomposition
+(e.g., remove the accent from this character if there is one).
+*/
+class TUnicode
+	{
+	public:
+
+	// Constructors
+	TUnicode() { iCode = 0xFFFF; }
+	TUnicode(TUint c) : iCode(c) {}
+	operator TUint() const { return iCode; }
+
+	// Attribute retrieval (functions used by the ExecHandler class, etc., in ekern.dll take IMPORT_C)
+	void GetInfo(TChar::TCharInfo& aInfo,const TUnicodeDataSet *aOverridingDataSet) const;
+	IMPORT_C TChar::TCategory GetCategory(const TUnicodeDataSet *aOverridingDataSet) const;
+	TChar::TBdCategory GetBdCategory(const TUnicodeDataSet *aOverridingDataSet) const;
+	TInt GetCombiningClass(const TUnicodeDataSet *aOverridingDataSet) const;
+	IMPORT_C TUint GetLowerCase(const TUnicodeDataSet *aOverridingDataSet) const;
+	IMPORT_C TUint GetUpperCase(const TUnicodeDataSet *aOverridingDataSet) const;
+	TUint GetTitleCase(const TUnicodeDataSet *aOverridingDataSet) const;
+	TBool IsMirrored(const TUnicodeDataSet *aOverridingDataSet) const;
+	TInt GetNumericValue(const TUnicodeDataSet *aOverridingDataSet) const;
+	TChar::TCjkWidth GetCjkWidth() const;
+	IMPORT_C TUint Fold(TInt aFlags,const TUnicodeDataSet *aOverridingDataSet) const;
+	
+	// Utilities
+	static TInt Compare(const TUint16 *aString1,TInt aLength1,const TUint16 *aString2,TInt aLength2);
+
+	private:
+	const TUnicodeData& GetData(const TUnicodeDataSet *aOverridingDataSet) const;
+	const TUnicodeData *GetDataFromDataSet(const TUnicodeDataSet& aDataSet) const;
+	TUint GetLowerCase(const TUnicodeData& aData) const;
+	TUint GetUpperCase(const TUnicodeData& aData) const;
+	TUint GetTitleCase(const TUnicodeData& aData) const;
+	TInt GetNumericValue(const TUnicodeData& aData) const;
+
+	TUint iCode; // not TUint16 because values in the extended range from 0x10000 to 0xFFFFF may be used.
+
+	public:
+#ifndef __KERNEL_MODE__
+	static const TUint16 FoldTable[256];		// fold table (strip accents, fold case) for the range 0..255
+	static const TUint16 CjkWidthFoldTable[256];// width fold table (convert from width variants) for range 0xFF00..0xFFFF
+#else
+	static const TUint16* FoldTable;
+	static const TUint16* CjkWidthFoldTable;
+#endif
+	};
+
+#endif // __UNICODE_H__