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// License & terms of use: http://www.unicode.org/copyright.html#License

//License & terms of use: http://www.unicode.org/copyright.html#License

*******************************************************************************

import com.ibm.icu.impl.UBiDiProps;

import com.ibm.icu.lang.UCharacterDirection;

import com.ibm.icu.text.ArabicShapingException;

/**

* Shape Arabic text on a character basis.

* Shape Persian text on a character basis. - Edited by soheil rahsaz

* ArabicShaping performs basic operations for "shaping" Arabic text. It is most

* PersianShaping performs basic operations for "shaping" Arabic text. It is most

* useful for use with legacy data formats and legacy display technology

* (simple terminals). All operations are performed on Unicode characters.

* Text-based shaping means that some character code points in the text are

* replaced by others depending on the context. It transforms one kind of text

* into another. In comparison, modern displays for Arabic text select

* appropriate, context-dependent font glyphs for each text element, which means

* that they transform text into a glyph vector.

* Text transformations are necessary when modern display technology is not

* available or when text needs to be transformed to or from legacy formats that

* use "shaped" characters. Since the Arabic script is cursive, connecting

* adjacent letters to each other, computers select images for each letter based

* on the surrounding letters. This usually results in four images per Arabic

* letter: initial, middle, final, and isolated forms. In Unicode, on the other

* hand, letters are normally stored abstract, and a display system is expected

* to select the necessary glyphs. (This makes searching and other text

* processing easier because the same letter has only one code.) It is possible

* to mimic this with text transformations because there are characters in

* Unicode that are rendered as letters with a specific shape

* (or cursive connectivity). They were included for interoperability with

* legacy systems and codepages, and for unsophisticated display systems.

* A second kind of text transformations is supported for Arabic digits:

* For compatibility with legacy codepages that only include European digits,

* it is possible to replace one set of digits by another, changing the

* character code points. These operations can be performed for either

* Arabic-Indic Digits (U+0660...U+0669) or Eastern (Extended) Arabic-Indic

* digits (U+06f0...U+06f9).

* Some replacements may result in more or fewer characters (code points).

* By default, this means that the destination buffer may receive text with a

* length different from the source length. Some legacy systems rely on the

* length of the text to be constant. They expect extra spaces to be added

* or consumed either next to the affected character or at the end of the

* text.

* @stable ICU 2.0

* @author Edited: Soheil Rahsaz

public final class ArabicShaping {

public final class PersianShaping {

private final int options;

private boolean isLogical; // convenience

private boolean spacesRelativeToTextBeginEnd;

private char tailChar;

/**

* Convert a range of text in the source array, putting the result

* into a range of text in the destination array, and return the number

* of characters written.

* @param source An array containing the input text

* @param sourceStart The start of the range of text to convert

* @param sourceLength The length of the range of text to convert

* @param dest The destination array that will receive the result.

* It may be <code>NULL</code> only if <code>destSize</code> is 0.

* @param destStart The start of the range of the destination buffer to use.

* @param destSize The size (capacity) of the destination buffer.

* If <code>destSize</code> is 0, then no output is produced,

* but the necessary buffer size is returned ("preflighting"). This

* does not validate the text against the options, for example,

* if letters are being unshaped, and spaces are being consumed

* following lamalef, this will not detect a lamalef without a

* corresponding space. An error will be thrown when the actual

* conversion is attempted.

* @return The number of chars written to the destination buffer.

* If an error occurs, then no output was written, or it may be

* incomplete.

* @throws ArabicShapingException if the text cannot be converted according to the options.

* @stable ICU 2.0

public int shape(char[] source, int sourceStart, int sourceLength,

char[] dest, int destStart, int destSize) throws ArabicShapingException {

if (source == null) {

throw new IllegalArgumentException("source can not be null");

}

if (sourceStart < 0 || sourceLength < 0 || sourceStart + sourceLength > source.length) {

throw new IllegalArgumentException("bad source start (" + sourceStart +

") or length (" + sourceLength +

") for buffer of length " + source.length);

}

if (dest == null && destSize != 0) {

throw new IllegalArgumentException("null dest requires destSize == 0");

}

if ((destSize != 0) &&

(destStart < 0 || destSize < 0 || destStart + destSize > dest.length)) {

throw new IllegalArgumentException("bad dest start (" + destStart +

") or size (" + destSize +

") for buffer of length " + dest.length);

}

/* Validate input options */

if ( ((options&TASHKEEL_MASK) != 0) &&

!(((options & TASHKEEL_MASK)==TASHKEEL_BEGIN) ||

((options & TASHKEEL_MASK)==TASHKEEL_END) ||

((options & TASHKEEL_MASK)==TASHKEEL_RESIZE) ||

((options & TASHKEEL_MASK)==TASHKEEL_REPLACE_BY_TATWEEL))) {

throw new IllegalArgumentException("Wrong Tashkeel argument");

}

///CLOVER:OFF

//According to Steven Loomis, the code is unreachable when you OR all the constants within the if statements

if(((options&LAMALEF_MASK) != 0) &&

!(((options & LAMALEF_MASK)==LAMALEF_BEGIN) ||

((options & LAMALEF_MASK)==LAMALEF_END) ||

((options & LAMALEF_MASK)==LAMALEF_RESIZE) ||

((options & LAMALEF_MASK)==LAMALEF_AUTO) ||

((options & LAMALEF_MASK)==LAMALEF_NEAR))) {

throw new IllegalArgumentException("Wrong Lam Alef argument");

}

///CLOVER:ON

/* Validate Tashkeel (Tashkeel replacement options should be enabled in shaping mode only)*/

if(((options&TASHKEEL_MASK) != 0) && (options&LETTERS_MASK) == LETTERS_UNSHAPE) {

throw new IllegalArgumentException("Tashkeel replacement should not be enabled in deshaping mode ");

}

return internalShape(source, sourceStart, sourceLength, dest, destStart, destSize);

}

/**

* Convert a range of text in place. This may only be used if the Length option

* does not grow or shrink the text.

* @param source An array containing the input text

* @param start The start of the range of text to convert

* @param length The length of the range of text to convert

* @throws ArabicShapingException if the text cannot be converted according to the options.

* @stable ICU 2.0

public void shape(char[] source, int start, int length) throws ArabicShapingException {

if ((options & LAMALEF_MASK) == LAMALEF_RESIZE) {

throw new ArabicShapingException("Cannot shape in place with length option resize.");

}

shape(source, start, length, source, start, length);

}

/**

* Convert a string, returning the new string.

* @param text the string to convert

* @return the converted string

* @throws ArabicShapingException if the string cannot be converted according to the options.

* @stable ICU 2.0

public String shape(String text) throws ArabicShapingException {

char[] src = text.toCharArray();

char[] dest = src;

if (((options & LAMALEF_MASK) == LAMALEF_RESIZE) &&

((options & LETTERS_MASK) == LETTERS_UNSHAPE)) {

dest = new char[src.length * 2]; // max

}

int len = shape(src, 0, src.length, dest, 0, dest.length);

return new String(dest, 0, len);

}

/**

* Construct ArabicShaping using the options flags.

* Construct PersianShaping using the options flags.

* The flags are as follows:

* 'LENGTH' flags control whether the text can change size, and if not,

* how to maintain the size of the text when LamAlef ligatures are

* formed or broken.

* 'TEXT_DIRECTION' flags control whether the text is read and written

* in visual order or in logical order.

* 'LETTERS_SHAPE' flags control whether conversion is to or from

* presentation forms.

* 'DIGITS' flags control whether digits are shaped, and whether from

* European to Arabic-Indic or vice-versa.

* 'DIGIT_TYPE' flags control whether standard or extended Arabic-Indic

* digits are used when performing digit conversion.

* @stable ICU 2.0

public ArabicShaping(int options) {

public PersianShaping(int options) {

this.options = options;

if ((options & DIGITS_MASK) > 0x80) {

throw new IllegalArgumentException("bad DIGITS options");

}

isLogical = ( (options & TEXT_DIRECTION_MASK) == TEXT_DIRECTION_LOGICAL );

/* Validate options */

spacesRelativeToTextBeginEnd = ( (options & SPACES_RELATIVE_TO_TEXT_MASK) == SPACES_RELATIVE_TO_TEXT_BEGIN_END );

if ( (options&SHAPE_TAIL_TYPE_MASK) == SHAPE_TAIL_NEW_UNICODE){

tailChar = NEW_TAIL_CHAR;

} else {

tailChar = OLD_TAIL_CHAR;

}

/* Seen Tail options */

/**

* Memory option: the result must have the same length as the source.

* Shaping mode: The SEEN family character will expand into two characters using space near

* the SEEN family character(i.e. the space after the character).

* if there are no spaces found, ArabicShapingException will be thrown

* De-shaping mode: Any Seen character followed by Tail character will be

* replaced by one cell Seen and a space will replace the Tail.

* Affects: Seen options

* @stable ICU 4.2

public static final int SEEN_TWOCELL_NEAR = 0x200000;

/** Bit mask for Seen memory options.

* @stable ICU 4.2

public static final int SEEN_MASK = 0x700000;

/* YehHamza options */

/**

* Memory option: the result must have the same length as the source.

* Shaping mode: The YEHHAMZA character will expand into two characters using space near it

* (i.e. the space after the character)

* if there are no spaces found, ArabicShapingException will be thrown

* De-shaping mode: Any Yeh (final or isolated) character followed by Hamza character will be

* replaced by one cell YehHamza and space will replace the Hamza.

* Affects: YehHamza options

* @stable ICU 4.2

public static final int YEHHAMZA_TWOCELL_NEAR = 0x1000000;

/** Bit mask for YehHamza memory options.

* @stable ICU 4.2

public static final int YEHHAMZA_MASK = 0x3800000;

/* New Tashkeel options */

/**

* Memory option: the result must have the same length as the source.

* Shaping mode: Tashkeel characters will be replaced by spaces.

* Spaces will be placed at beginning of the buffer

* De-shaping mode: N/A

* Affects: Tashkeel options

* @stable ICU 4.2

public static final int TASHKEEL_BEGIN = 0x40000;

/**

* Memory option: the result must have the same length as the source.

* Shaping mode: Tashkeel characters will be replaced by spaces.

* Spaces will be placed at end of the buffer

* De-shaping mode: N/A

* Affects: Tashkeel options

* @stable ICU 4.2

public static final int TASHKEEL_END = 0x60000;

/**

* Memory option: allow the result to have a different length than the source.

* Shaping mode: Tashkeel characters will be removed, buffer length will shrink.

* De-shaping mode: N/A

* Affects: Tashkeel options

* @stable ICU 4.2

public static final int TASHKEEL_RESIZE = 0x80000;

/**

* Memory option: the result must have the same length as the source.

* Shaping mode: Tashkeel characters will be replaced by Tatweel if it is connected to adjacent

* characters (i.e. shaped on Tatweel) or replaced by space if it is not connected.

* De-shaping mode: N/A

* Affects: YehHamza options

* @stable ICU 4.2

public static final int TASHKEEL_REPLACE_BY_TATWEEL = 0xC0000;

/** Bit mask for Tashkeel replacement with Space or Tatweel memory options.

* @stable ICU 4.2

public static final int TASHKEEL_MASK = 0xE0000;

/* Space location Control options */

/**

* This option effects the meaning of BEGIN and END options. if this option is not used the default

* for BEGIN and END will be as following:

* The Default (for both Visual LTR, Visual RTL and Logical Text)

* 1. BEGIN always refers to the start address of physical memory.

* 2. END always refers to the end address of physical memory.

* If this option is used it will swap the meaning of BEGIN and END only for Visual LTR text.

* The affect on BEGIN and END Memory Options will be as following:

* A. BEGIN For Visual LTR text: This will be the beginning (right side) of the visual text

* (corresponding to the physical memory address end, same as END in default behavior)

* B. BEGIN For Logical text: Same as BEGIN in default behavior.

* C. END For Visual LTR text: This will be the end (left side) of the visual text. (corresponding to

* the physical memory address beginning, same as BEGIN in default behavior)

* D. END For Logical text: Same as END in default behavior.

* Affects: All LamAlef BEGIN, END and AUTO options.

* @stable ICU 4.2

public static final int SPACES_RELATIVE_TO_TEXT_BEGIN_END = 0x4000000;

/** Bit mask for swapping BEGIN and END for Visual LTR text

* @stable ICU 4.2

public static final int SPACES_RELATIVE_TO_TEXT_MASK = 0x4000000;

/**

* If this option is used, shaping will use the new Unicode code point for TAIL (i.e. 0xFE73).

* If this option is not specified (Default), old unofficial Unicode TAIL code point is used (i.e. 0x200B)

* De-shaping will not use this option as it will always search for both the new Unicode code point for the

* TAIL (i.e. 0xFE73) or the old unofficial Unicode TAIL code point (i.e. 0x200B) and de-shape the

* Seen-Family letter accordingly.

* Shaping Mode: Only shaping.

* De-shaping Mode: N/A.

* Affects: All Seen options

* @stable ICU 4.2

public static final int SHAPE_TAIL_NEW_UNICODE = 0x8000000;

/** Bit mask for new Unicode Tail option

* @stable ICU 4.2

public static final int SHAPE_TAIL_TYPE_MASK = 0x8000000;

/**

* Memory option: allow the result to have a different length than the source.

* @stable ICU 2.0

public static final int LENGTH_GROW_SHRINK = 0;

/**

* Memory option: allow the result to have a different length than the source.

* Affects: LamAlef options

* This option is an alias to LENGTH_GROW_SHRINK

* @stable ICU 4.2

public static final int LAMALEF_RESIZE = 0;

/**

* Memory option: the result must have the same length as the source.

* If more room is necessary, then try to consume spaces next to modified characters.

* @stable ICU 2.0

public static final int LENGTH_FIXED_SPACES_NEAR = 1;

/**

* Memory option: the result must have the same length as the source.

* If more room is necessary, then try to consume spaces next to modified characters.

* Affects: LamAlef options

* This option is an alias to LENGTH_FIXED_SPACES_NEAR

* @stable ICU 4.2

public static final int LAMALEF_NEAR = 1 ;

/**

* Memory option: the result must have the same length as the source.

* If more room is necessary, then try to consume spaces at the end of the text.

* @stable ICU 2.0

public static final int LENGTH_FIXED_SPACES_AT_END = 2;

/**

* Memory option: the result must have the same length as the source.

* If more room is necessary, then try to consume spaces at the end of the text.

* Affects: LamAlef options

* This option is an alias to LENGTH_FIXED_SPACES_AT_END

* @stable ICU 4.2

public static final int LAMALEF_END = 2;

/**

* Memory option: the result must have the same length as the source.

* If more room is necessary, then try to consume spaces at the beginning of the text.

* @stable ICU 2.0

public static final int LENGTH_FIXED_SPACES_AT_BEGINNING = 3;

/**

* Memory option: the result must have the same length as the source.

* If more room is necessary, then try to consume spaces at the beginning of the text.

* Affects: LamAlef options

* This option is an alias to LENGTH_FIXED_SPACES_AT_BEGINNING

* @stable ICU 4.2

public static final int LAMALEF_BEGIN = 3;

/**

* Memory option: the result must have the same length as the source.

* Shaping Mode: For each LAMALEF character found, expand LAMALEF using space at end.

* If there is no space at end, use spaces at beginning of the buffer. If there

* is no space at beginning of the buffer, use spaces at the near (i.e. the space

* after the LAMALEF character).

* Deshaping Mode: Perform the same function as the flag equals LAMALEF_END.

* Affects: LamAlef options

* @stable ICU 4.2

public static final int LAMALEF_AUTO = 0x10000;

/**

* Bit mask for memory options.

* @stable ICU 2.0

public static final int LENGTH_MASK = 0x10003;

/** Bit mask for LamAlef memory options.

* @stable ICU 4.2

public static final int LAMALEF_MASK = 0x10003;

/**

* Direction indicator: the source is in logical (keyboard) order.

* @stable ICU 2.0

public static final int TEXT_DIRECTION_LOGICAL = 0;

/**

* Direction indicator:the source is in visual RTL order,

* the rightmost displayed character stored first.

* This option is an alias to U_SHAPE_TEXT_DIRECTION_LOGICAL

* @stable ICU 4.2

public static final int TEXT_DIRECTION_VISUAL_RTL = 0;

/**

* Direction indicator: the source is in visual (display) order, that is,

* the leftmost displayed character is stored first.

* @stable ICU 2.0

public static final int TEXT_DIRECTION_VISUAL_LTR = 4;

/**

* Bit mask for direction indicators.

* @stable ICU 2.0

public static final int TEXT_DIRECTION_MASK = 4;

/**

* Letter shaping option: do not perform letter shaping.

* @stable ICU 2.0

public static final int LETTERS_NOOP = 0;

/**

* Letter shaping option: replace normative letter characters in the U+0600 (Arabic) block,

* by shaped ones in the U+FE70 (Presentation Forms B) block. Performs Lam-Alef ligature

* substitution.

* @stable ICU 2.0

public static final int LETTERS_SHAPE = 8;

/**

* Letter shaping option: replace shaped letter characters in the U+FE70 (Presentation Forms B) block

* by normative ones in the U+0600 (Arabic) block. Converts Lam-Alef ligatures to pairs of Lam and

* Alef characters, consuming spaces if required.

* @stable ICU 2.0

public static final int LETTERS_UNSHAPE = 0x10;

/**

* Letter shaping option: replace normative letter characters in the U+0600 (Arabic) block,

* except for the TASHKEEL characters at U+064B...U+0652, by shaped ones in the U+Fe70

* (Presentation Forms B) block. The TASHKEEL characters will always be converted to

* the isolated forms rather than to their correct shape.

* @stable ICU 2.0

public static final int LETTERS_SHAPE_TASHKEEL_ISOLATED = 0x18;

/**

* Bit mask for letter shaping options.

* @stable ICU 2.0

public static final int LETTERS_MASK = 0x18;

/**

* Digit shaping option: do not perform digit shaping.

* @stable ICU 2.0

public static final int DIGITS_NOOP = 0;

/**

* Digit shaping option: Replace European digits (U+0030...U+0039) by Arabic-Indic digits.

* @stable ICU 2.0

public static final int DIGITS_EN2AN = 0x20;

/**

* Digit shaping option: Replace Arabic-Indic digits by European digits (U+0030...U+0039).

* @stable ICU 2.0

public static final int DIGITS_AN2EN = 0x40;

/**

* Digit shaping option:

* Replace European digits (U+0030...U+0039) by Arabic-Indic digits

* if the most recent strongly directional character

* is an Arabic letter (its Bidi direction value is RIGHT_TO_LEFT_ARABIC).

* The initial state at the start of the text is assumed to be not an Arabic,

* letter, so European digits at the start of the text will not change.

* Compare to DIGITS_ALEN2AN_INIT_AL.

* @stable ICU 2.0

public static final int DIGITS_EN2AN_INIT_LR = 0x60;

/**

* Digit shaping option:

* Replace European digits (U+0030...U+0039) by Arabic-Indic digits

* if the most recent strongly directional character

* is an Arabic letter (its Bidi direction value is RIGHT_TO_LEFT_ARABIC).

* The initial state at the start of the text is assumed to be an Arabic,

* letter, so European digits at the start of the text will change.

* Compare to DIGITS_ALEN2AN_INT_LR.

* @stable ICU 2.0

public static final int DIGITS_EN2AN_INIT_AL = 0x80;

/** Not a valid option value. */

//private static final int DIGITS_RESERVED = 0xa0;

/**

* Bit mask for digit shaping options.

* @stable ICU 2.0

public static final int DIGITS_MASK = 0xe0;

/**

* Digit type option: Use Arabic-Indic digits (U+0660...U+0669).

* @stable ICU 2.0

public static final int DIGIT_TYPE_AN = 0;

/**

* Digit type option: Use Eastern (Extended) Arabic-Indic digits (U+06f0...U+06f9).

* @stable ICU 2.0

public static final int DIGIT_TYPE_AN_EXTENDED = 0x100;

/**

* Bit mask for digit type options.

* @stable ICU 2.0

public static final int DIGIT_TYPE_MASK = 0x0100; // 0x3f00?

/**

* some constants

private static final char HAMZAFE_CHAR = '\ufe80';

private static final char HAMZA06_CHAR = '\u0621';

private static final char YEH_HAMZA_CHAR = '\u0626';

private static final char YEH_HAMZAFE_CHAR = '\uFE89';

private static final char LAMALEF_SPACE_SUB = '\uffff';

private static final char TASHKEEL_SPACE_SUB = '\ufffe';

private static final char LAM_CHAR = '\u0644';

private static final char SPACE_CHAR = '\u0020';

private static final char SHADDA_CHAR = '\uFE7C';

private static final char SHADDA06_CHAR = '\u0651';

private static final char TATWEEL_CHAR = '\u0640';

private static final char SHADDA_TATWEEL_CHAR = '\uFE7D';

private static final char NEW_TAIL_CHAR = '\uFE73';

private static final char OLD_TAIL_CHAR = '\u200B';

private static final int SHAPE_MODE = 0;

private static final int DESHAPE_MODE = 1;

/**

* @stable ICU 2.0

@Override

public boolean equals(Object rhs) {

return rhs != null &&

rhs.getClass() == ArabicShaping.class &&

rhs.getClass() == PersianShaping.class &&

options == ((ArabicShaping)rhs).options;

options == ((PersianShaping)rhs).options;

}

/**

* @stable ICU 2.0

///CLOVER:OFF

@Override

public int hashCode() {

return options;

}

/**

* @stable ICU 2.0

@Override

public String toString() {

StringBuilder buf = new StringBuilder(super.toString());

buf.append('[');

switch (options & LAMALEF_MASK) {

case LAMALEF_RESIZE: buf.append("LamAlef resize"); break;

case LAMALEF_NEAR: buf.append("LamAlef spaces at near"); break;

case LAMALEF_BEGIN: buf.append("LamAlef spaces at begin"); break;

case LAMALEF_END: buf.append("LamAlef spaces at end"); break;

case LAMALEF_AUTO: buf.append("lamAlef auto"); break;

}

switch (options & TEXT_DIRECTION_MASK) {

case TEXT_DIRECTION_LOGICAL: buf.append(", logical"); break;

case TEXT_DIRECTION_VISUAL_LTR: buf.append(", visual"); break;

}

switch (options & LETTERS_MASK) {

case LETTERS_NOOP: buf.append(", no letter shaping"); break;

case LETTERS_SHAPE: buf.append(", shape letters"); break;

case LETTERS_SHAPE_TASHKEEL_ISOLATED: buf.append(", shape letters tashkeel isolated"); break;

case LETTERS_UNSHAPE: buf.append(", unshape letters"); break;

}

switch (options & SEEN_MASK) {

case SEEN_TWOCELL_NEAR: buf.append(", Seen at near"); break;

}

switch (options & YEHHAMZA_MASK) {

case YEHHAMZA_TWOCELL_NEAR: buf.append(", Yeh Hamza at near"); break;

}

switch (options & TASHKEEL_MASK) {

case TASHKEEL_BEGIN: buf.append(", Tashkeel at begin"); break;

case TASHKEEL_END: buf.append(", Tashkeel at end"); break;

case TASHKEEL_REPLACE_BY_TATWEEL: buf.append(", Tashkeel replace with tatweel"); break;

case TASHKEEL_RESIZE: buf.append(", Tashkeel resize"); break;

}

switch (options & DIGITS_MASK) {

case DIGITS_NOOP: buf.append(", no digit shaping"); break;

case DIGITS_EN2AN: buf.append(", shape digits to AN"); break;

case DIGITS_AN2EN: buf.append(", shape digits to EN"); break;

case DIGITS_EN2AN_INIT_LR: buf.append(", shape digits to AN contextually: default EN"); break;

case DIGITS_EN2AN_INIT_AL: buf.append(", shape digits to AN contextually: default AL"); break;

}

switch (options & DIGIT_TYPE_MASK) {

case DIGIT_TYPE_AN: buf.append(", standard Arabic-Indic digits"); break;

case DIGIT_TYPE_AN_EXTENDED: buf.append(", extended Arabic-Indic digits"); break;

}

buf.append("]");

return buf.toString();

}

///CLOVER:ON

// ported api

private static final int IRRELEVANT = 4;

private static final int LAMTYPE = 16;

private static final int ALEFTYPE = 32;

private static final int LINKR = 1;

private static final int LINKL = 2;

private static final int LINK_MASK = 3;

private static final int irrelevantPos[] = {

0x0, 0x2, 0x4, 0x6, 0x8, 0xA, 0xC, 0xE

};

private static final char convertLamAlef[] = {

'\u0622', // FEF5

'\u0622', // FEF6

'\u0623', // FEF7

'\u0623', // FEF8

'\u0625', // FEF9

'\u0625', // FEFA

'\u0627', // FEFB

'\u0627' // FEFC

};

private static final int tailFamilyIsolatedFinal[] = {

/* FEB1 */ 1,

/* FEB2 */ 1,

/* FEB3 */ 0,

/* FEB4 */ 0,

/* FEB5 */ 1,

/* FEB6 */ 1,

/* FEB7 */ 0,

/* FEB8 */ 0,

/* FEB9 */ 1,

/* FEBA */ 1,

/* FEBB */ 0,

/* FEBC */ 0,

/* FEBD */ 1,

/* FEBE */ 1

};

private static final int tashkeelMedial[] = {

/* FE70 */ 0,

/* FE71 */ 1,

/* FE72 */ 0,

/* FE73 */ 0,

/* FE74 */ 0,

/* FE75 */ 0,

/* FE76 */ 0,

/* FE77 */ 1,

/* FE78 */ 0,

/* FE79 */ 1,

/* FE7A */ 0,

/* FE7B */ 1,

/* FE7C */ 0,

/* FE7D */ 1,

/* FE7E */ 0,

/* FE7F */ 1

};

private static final char yehHamzaToYeh[] =

{

/* isolated*/ 0xFEEF,

/* final */ 0x

सेव किए गए Diffs

ऑरिजनल टेक्स्ट

फ़ाइल खोलें

// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html#License
/*
*******************************************************************************
* Copyright (C) 2001-2012, International Business Machines
* Corporation and others. All Rights Reserved.
*******************************************************************************
*/
import com.ibm.icu.impl.UBiDiProps;
import com.ibm.icu.lang.UCharacterDirection;
/**
* Shape Arabic text on a character basis.
*
* ArabicShaping performs basic operations for "shaping" Arabic text. It is most
* useful for use with legacy data formats and legacy display technology
* (simple terminals). All operations are performed on Unicode characters.
*
* Text-based shaping means that some character code points in the text are
* replaced by others depending on the context. It transforms one kind of text
* into another. In comparison, modern displays for Arabic text select
* appropriate, context-dependent font glyphs for each text element, which means
* that they transform text into a glyph vector.
*
* Text transformations are necessary when modern display technology is not
* available or when text needs to be transformed to or from legacy formats that
* use "shaped" characters. Since the Arabic script is cursive, connecting
* adjacent letters to each other, computers select images for each letter based
* on the surrounding letters. This usually results in four images per Arabic
* letter: initial, middle, final, and isolated forms. In Unicode, on the other
* hand, letters are normally stored abstract, and a display system is expected
* to select the necessary glyphs. (This makes searching and other text
* processing easier because the same letter has only one code.) It is possible
* to mimic this with text transformations because there are characters in
* Unicode that are rendered as letters with a specific shape
* (or cursive connectivity). They were included for interoperability with
* legacy systems and codepages, and for unsophisticated display systems.
*
* A second kind of text transformations is supported for Arabic digits:
* For compatibility with legacy codepages that only include European digits,
* it is possible to replace one set of digits by another, changing the
* character code points. These operations can be performed for either
* Arabic-Indic Digits (U+0660...U+0669) or Eastern (Extended) Arabic-Indic
* digits (U+06f0...U+06f9).
*
* Some replacements may result in more or fewer characters (code points).
* By default, this means that the destination buffer may receive text with a
* length different from the source length. Some legacy systems rely on the
* length of the text to be constant. They expect extra spaces to be added
* or consumed either next to the affected character or at the end of the
* text.
* @stable ICU 2.0
*/
public final class ArabicShaping {
private final int options;
private boolean isLogical; // convenience
private boolean spacesRelativeToTextBeginEnd;
private char tailChar;
/**
* Convert a range of text in the source array, putting the result
* into a range of text in the destination array, and return the number
* of characters written.
*
* @param source An array containing the input text
* @param sourceStart The start of the range of text to convert
* @param sourceLength The length of the range of text to convert
* @param dest The destination array that will receive the result.
* It may be <code>NULL</code> only if <code>destSize</code> is 0.
* @param destStart The start of the range of the destination buffer to use.
* @param destSize The size (capacity) of the destination buffer.
* If <code>destSize</code> is 0, then no output is produced,
* but the necessary buffer size is returned ("preflighting"). This
* does not validate the text against the options, for example,
* if letters are being unshaped, and spaces are being consumed
* following lamalef, this will not detect a lamalef without a
* corresponding space. An error will be thrown when the actual
* conversion is attempted.
* @return The number of chars written to the destination buffer.
* If an error occurs, then no output was written, or it may be
* incomplete.
* @throws ArabicShapingException if the text cannot be converted according to the options.
* @stable ICU 2.0
*/
public int shape(char[] source, int sourceStart, int sourceLength,
char[] dest, int destStart, int destSize) throws ArabicShapingException {
if (source == null) {
throw new IllegalArgumentException("source can not be null");
}
if (sourceStart < 0 || sourceLength < 0 || sourceStart + sourceLength > source.length) {
throw new IllegalArgumentException("bad source start (" + sourceStart +
") or length (" + sourceLength +
") for buffer of length " + source.length);
}
if (dest == null && destSize != 0) {
throw new IllegalArgumentException("null dest requires destSize == 0");
}
if ((destSize != 0) &&
(destStart < 0 || destSize < 0 || destStart + destSize > dest.length)) {
throw new IllegalArgumentException("bad dest start (" + destStart +
") or size (" + destSize +
") for buffer of length " + dest.length);
}
/* Validate input options */
if ( ((options&TASHKEEL_MASK) != 0) &&
!(((options & TASHKEEL_MASK)==TASHKEEL_BEGIN) ||
((options & TASHKEEL_MASK)==TASHKEEL_END) ||
((options & TASHKEEL_MASK)==TASHKEEL_RESIZE) ||
((options & TASHKEEL_MASK)==TASHKEEL_REPLACE_BY_TATWEEL))) {
throw new IllegalArgumentException("Wrong Tashkeel argument");
}
///CLOVER:OFF
//According to Steven Loomis, the code is unreachable when you OR all the constants within the if statements
if(((options&LAMALEF_MASK) != 0) &&
!(((options & LAMALEF_MASK)==LAMALEF_BEGIN) ||
((options & LAMALEF_MASK)==LAMALEF_END) ||
((options & LAMALEF_MASK)==LAMALEF_RESIZE) ||
((options & LAMALEF_MASK)==LAMALEF_AUTO) ||
((options & LAMALEF_MASK)==LAMALEF_NEAR))) {
throw new IllegalArgumentException("Wrong Lam Alef argument");
}
///CLOVER:ON
/* Validate Tashkeel (Tashkeel replacement options should be enabled in shaping mode only)*/
if(((options&TASHKEEL_MASK) != 0) && (options&LETTERS_MASK) == LETTERS_UNSHAPE) {
throw new IllegalArgumentException("Tashkeel replacement should not be enabled in deshaping mode ");
}
return internalShape(source, sourceStart, sourceLength, dest, destStart, destSize);
}
/**
* Convert a range of text in place. This may only be used if the Length option
* does not grow or shrink the text.
*
* @param source An array containing the input text
* @param start The start of the range of text to convert
* @param length The length of the range of text to convert
* @throws ArabicShapingException if the text cannot be converted according to the options.
* @stable ICU 2.0
*/
public void shape(char[] source, int start, int length) throws ArabicShapingException {
if ((options & LAMALEF_MASK) == LAMALEF_RESIZE) {
throw new ArabicShapingException("Cannot shape in place with length option resize.");
}
shape(source, start, length, source, start, length);
}
/**
* Convert a string, returning the new string.
*
* @param text the string to convert
* @return the converted string
* @throws ArabicShapingException if the string cannot be converted according to the options.
* @stable ICU 2.0
*/
public String shape(String text) throws ArabicShapingException {
char[] src = text.toCharArray();
char[] dest = src;
if (((options & LAMALEF_MASK) == LAMALEF_RESIZE) &&
((options & LETTERS_MASK) == LETTERS_UNSHAPE)) {
dest = new char[src.length * 2]; // max
}
int len = shape(src, 0, src.length, dest, 0, dest.length);
return new String(dest, 0, len);
}
/**
* Construct ArabicShaping using the options flags.
* The flags are as follows: 
* 'LENGTH' flags control whether the text can change size, and if not,
* how to maintain the size of the text when LamAlef ligatures are
* formed or broken. 
* 'TEXT_DIRECTION' flags control whether the text is read and written
* in visual order or in logical order. 
* 'LETTERS_SHAPE' flags control whether conversion is to or from
* presentation forms. 
* 'DIGITS' flags control whether digits are shaped, and whether from
* European to Arabic-Indic or vice-versa. 
* 'DIGIT_TYPE' flags control whether standard or extended Arabic-Indic
* digits are used when performing digit conversion.
* @stable ICU 2.0
*/
public ArabicShaping(int options) {
this.options = options;
if ((options & DIGITS_MASK) > 0x80) {
throw new IllegalArgumentException("bad DIGITS options");
}
isLogical = ( (options & TEXT_DIRECTION_MASK) == TEXT_DIRECTION_LOGICAL );
/* Validate options */
spacesRelativeToTextBeginEnd = ( (options & SPACES_RELATIVE_TO_TEXT_MASK) == SPACES_RELATIVE_TO_TEXT_BEGIN_END );
if ( (options&SHAPE_TAIL_TYPE_MASK) == SHAPE_TAIL_NEW_UNICODE){
tailChar = NEW_TAIL_CHAR;
} else {
tailChar = OLD_TAIL_CHAR;
}
}
/* Seen Tail options */
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: The SEEN family character will expand into two characters using space near
* the SEEN family character(i.e. the space after the character).
* if there are no spaces found, ArabicShapingException will be thrown
*
* De-shaping mode: Any Seen character followed by Tail character will be
* replaced by one cell Seen and a space will replace the Tail.
* Affects: Seen options
* @stable ICU 4.2
*/
public static final int SEEN_TWOCELL_NEAR = 0x200000;
/** Bit mask for Seen memory options.
* @stable ICU 4.2
*/
public static final int SEEN_MASK = 0x700000;
/* YehHamza options */
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: The YEHHAMZA character will expand into two characters using space near it
* (i.e. the space after the character)
* if there are no spaces found, ArabicShapingException will be thrown
*
* De-shaping mode: Any Yeh (final or isolated) character followed by Hamza character will be
* replaced by one cell YehHamza and space will replace the Hamza.
* Affects: YehHamza options
* @stable ICU 4.2
*/
public static final int YEHHAMZA_TWOCELL_NEAR = 0x1000000;
/** Bit mask for YehHamza memory options.
* @stable ICU 4.2
*/
public static final int YEHHAMZA_MASK = 0x3800000;
/* New Tashkeel options */
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: Tashkeel characters will be replaced by spaces.
* Spaces will be placed at beginning of the buffer
*
* De-shaping mode: N/A
* Affects: Tashkeel options
* @stable ICU 4.2
*/
public static final int TASHKEEL_BEGIN = 0x40000;
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: Tashkeel characters will be replaced by spaces.
* Spaces will be placed at end of the buffer
*
* De-shaping mode: N/A
* Affects: Tashkeel options
* @stable ICU 4.2
*/
public static final int TASHKEEL_END = 0x60000;
/**
* Memory option: allow the result to have a different length than the source.
* Shaping mode: Tashkeel characters will be removed, buffer length will shrink.
* De-shaping mode: N/A
*
* Affects: Tashkeel options
* @stable ICU 4.2
*/
public static final int TASHKEEL_RESIZE = 0x80000;
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: Tashkeel characters will be replaced by Tatweel if it is connected to adjacent
* characters (i.e. shaped on Tatweel) or replaced by space if it is not connected.
*
* De-shaping mode: N/A
* Affects: YehHamza options
* @stable ICU 4.2
*/
public static final int TASHKEEL_REPLACE_BY_TATWEEL = 0xC0000;
/** Bit mask for Tashkeel replacement with Space or Tatweel memory options.
* @stable ICU 4.2
*/
public static final int TASHKEEL_MASK = 0xE0000;
/* Space location Control options */
/**
* This option effects the meaning of BEGIN and END options. if this option is not used the default
* for BEGIN and END will be as following:
* The Default (for both Visual LTR, Visual RTL and Logical Text)
* 1. BEGIN always refers to the start address of physical memory.
* 2. END always refers to the end address of physical memory.
*
* If this option is used it will swap the meaning of BEGIN and END only for Visual LTR text.
*
* The affect on BEGIN and END Memory Options will be as following:
* A. BEGIN For Visual LTR text: This will be the beginning (right side) of the visual text
* (corresponding to the physical memory address end, same as END in default behavior)
* B. BEGIN For Logical text: Same as BEGIN in default behavior.
* C. END For Visual LTR text: This will be the end (left side) of the visual text. (corresponding to
* the physical memory address beginning, same as BEGIN in default behavior)
* D. END For Logical text: Same as END in default behavior.
* Affects: All LamAlef BEGIN, END and AUTO options.
* @stable ICU 4.2
*/
public static final int SPACES_RELATIVE_TO_TEXT_BEGIN_END = 0x4000000;
/** Bit mask for swapping BEGIN and END for Visual LTR text
* @stable ICU 4.2
*/
public static final int SPACES_RELATIVE_TO_TEXT_MASK = 0x4000000;
/**
* If this option is used, shaping will use the new Unicode code point for TAIL (i.e. 0xFE73).
* If this option is not specified (Default), old unofficial Unicode TAIL code point is used (i.e. 0x200B)
* De-shaping will not use this option as it will always search for both the new Unicode code point for the
* TAIL (i.e. 0xFE73) or the old unofficial Unicode TAIL code point (i.e. 0x200B) and de-shape the
* Seen-Family letter accordingly.
*
* Shaping Mode: Only shaping.
* De-shaping Mode: N/A.
* Affects: All Seen options
* @stable ICU 4.2
*/
public static final int SHAPE_TAIL_NEW_UNICODE = 0x8000000;
/** Bit mask for new Unicode Tail option
* @stable ICU 4.2
*/
public static final int SHAPE_TAIL_TYPE_MASK = 0x8000000;
/**
* Memory option: allow the result to have a different length than the source.
* @stable ICU 2.0
*/
public static final int LENGTH_GROW_SHRINK = 0;
/**
* Memory option: allow the result to have a different length than the source.
* Affects: LamAlef options
* This option is an alias to LENGTH_GROW_SHRINK
* @stable ICU 4.2
*/
public static final int LAMALEF_RESIZE = 0;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces next to modified characters.
* @stable ICU 2.0
*/
public static final int LENGTH_FIXED_SPACES_NEAR = 1;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces next to modified characters.
* Affects: LamAlef options
* This option is an alias to LENGTH_FIXED_SPACES_NEAR
* @stable ICU 4.2
*/
public static final int LAMALEF_NEAR = 1 ;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the end of the text.
* @stable ICU 2.0
*/
public static final int LENGTH_FIXED_SPACES_AT_END = 2;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the end of the text.
* Affects: LamAlef options
* This option is an alias to LENGTH_FIXED_SPACES_AT_END
* @stable ICU 4.2
*/
public static final int LAMALEF_END = 2;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the beginning of the text.
* @stable ICU 2.0
*/
public static final int LENGTH_FIXED_SPACES_AT_BEGINNING = 3;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the beginning of the text.
* Affects: LamAlef options
* This option is an alias to LENGTH_FIXED_SPACES_AT_BEGINNING
* @stable ICU 4.2
*/
public static final int LAMALEF_BEGIN = 3;
/**
* Memory option: the result must have the same length as the source.
* Shaping Mode: For each LAMALEF character found, expand LAMALEF using space at end.
* If there is no space at end, use spaces at beginning of the buffer. If there
* is no space at beginning of the buffer, use spaces at the near (i.e. the space
* after the LAMALEF character).
*
* Deshaping Mode: Perform the same function as the flag equals LAMALEF_END.
* Affects: LamAlef options
* @stable ICU 4.2
*/
public static final int LAMALEF_AUTO = 0x10000;
/**
* Bit mask for memory options.
* @stable ICU 2.0
*/
public static final int LENGTH_MASK = 0x10003;
/** Bit mask for LamAlef memory options.
* @stable ICU 4.2
*/
public static final int LAMALEF_MASK = 0x10003;
/**
* Direction indicator: the source is in logical (keyboard) order.
* @stable ICU 2.0
*/
public static final int TEXT_DIRECTION_LOGICAL = 0;
/**
* Direction indicator:the source is in visual RTL order,
* the rightmost displayed character stored first.
* This option is an alias to U_SHAPE_TEXT_DIRECTION_LOGICAL
* @stable ICU 4.2
*/
public static final int TEXT_DIRECTION_VISUAL_RTL = 0;
/**
* Direction indicator: the source is in visual (display) order, that is,
* the leftmost displayed character is stored first.
* @stable ICU 2.0
*/
public static final int TEXT_DIRECTION_VISUAL_LTR = 4;
/**
* Bit mask for direction indicators.
* @stable ICU 2.0
*/
public static final int TEXT_DIRECTION_MASK = 4;
/**
* Letter shaping option: do not perform letter shaping.
* @stable ICU 2.0
*/
public static final int LETTERS_NOOP = 0;
/**
* Letter shaping option: replace normative letter characters in the U+0600 (Arabic) block,
* by shaped ones in the U+FE70 (Presentation Forms B) block. Performs Lam-Alef ligature
* substitution.
* @stable ICU 2.0
*/
public static final int LETTERS_SHAPE = 8;
/**
* Letter shaping option: replace shaped letter characters in the U+FE70 (Presentation Forms B) block
* by normative ones in the U+0600 (Arabic) block. Converts Lam-Alef ligatures to pairs of Lam and
* Alef characters, consuming spaces if required.
* @stable ICU 2.0
*/
public static final int LETTERS_UNSHAPE = 0x10;
/**
* Letter shaping option: replace normative letter characters in the U+0600 (Arabic) block,
* except for the TASHKEEL characters at U+064B...U+0652, by shaped ones in the U+Fe70
* (Presentation Forms B) block. The TASHKEEL characters will always be converted to
* the isolated forms rather than to their correct shape.
* @stable ICU 2.0
*/
public static final int LETTERS_SHAPE_TASHKEEL_ISOLATED = 0x18;
/**
* Bit mask for letter shaping options.
* @stable ICU 2.0
*/
public static final int LETTERS_MASK = 0x18;
/**
* Digit shaping option: do not perform digit shaping.
* @stable ICU 2.0
*/
public static final int DIGITS_NOOP = 0;
/**
* Digit shaping option: Replace European digits (U+0030...U+0039) by Arabic-Indic digits.
* @stable ICU 2.0
*/
public static final int DIGITS_EN2AN = 0x20;
/**
* Digit shaping option: Replace Arabic-Indic digits by European digits (U+0030...U+0039).
* @stable ICU 2.0
*/
public static final int DIGITS_AN2EN = 0x40;
/**
* Digit shaping option:
* Replace European digits (U+0030...U+0039) by Arabic-Indic digits
* if the most recent strongly directional character
* is an Arabic letter (its Bidi direction value is RIGHT_TO_LEFT_ARABIC).
* The initial state at the start of the text is assumed to be not an Arabic,
* letter, so European digits at the start of the text will not change.
* Compare to DIGITS_ALEN2AN_INIT_AL.
* @stable ICU 2.0
*/
public static final int DIGITS_EN2AN_INIT_LR = 0x60;
/**
* Digit shaping option:
* Replace European digits (U+0030...U+0039) by Arabic-Indic digits
* if the most recent strongly directional character
* is an Arabic letter (its Bidi direction value is RIGHT_TO_LEFT_ARABIC).
* The initial state at the start of the text is assumed to be an Arabic,
* letter, so European digits at the start of the text will change.
* Compare to DIGITS_ALEN2AN_INT_LR.
* @stable ICU 2.0
*/
public static final int DIGITS_EN2AN_INIT_AL = 0x80;
/** Not a valid option value. */
//private static final int DIGITS_RESERVED = 0xa0;
/**
* Bit mask for digit shaping options.
* @stable ICU 2.0
*/
public static final int DIGITS_MASK = 0xe0;
/**
* Digit type option: Use Arabic-Indic digits (U+0660...U+0669).
* @stable ICU 2.0
*/
public static final int DIGIT_TYPE_AN = 0;
/**
* Digit type option: Use Eastern (Extended) Arabic-Indic digits (U+06f0...U+06f9).
* @stable ICU 2.0
*/
public static final int DIGIT_TYPE_AN_EXTENDED = 0x100;
/**
* Bit mask for digit type options.
* @stable ICU 2.0
*/
public static final int DIGIT_TYPE_MASK = 0x0100; // 0x3f00?
/**
* some constants
*/
private static final char HAMZAFE_CHAR = '\ufe80';
private static final char HAMZA06_CHAR = '\u0621';
private static final char YEH_HAMZA_CHAR = '\u0626';
private static final char YEH_HAMZAFE_CHAR = '\uFE89';
private static final char LAMALEF_SPACE_SUB = '\uffff';
private static final char TASHKEEL_SPACE_SUB = '\ufffe';
private static final char LAM_CHAR = '\u0644';
private static final char SPACE_CHAR = '\u0020';
private static final char SHADDA_CHAR = '\uFE7C';
private static final char SHADDA06_CHAR = '\u0651';
private static final char TATWEEL_CHAR = '\u0640';
private static final char SHADDA_TATWEEL_CHAR = '\uFE7D';
private static final char NEW_TAIL_CHAR = '\uFE73';
private static final char OLD_TAIL_CHAR = '\u200B';
private static final int SHAPE_MODE = 0;
private static final int DESHAPE_MODE = 1;
/**
* @stable ICU 2.0
*/
@Override
public boolean equals(Object rhs) {
return rhs != null &&
rhs.getClass() == ArabicShaping.class &&
options == ((ArabicShaping)rhs).options;
}
/**
* @stable ICU 2.0
*/
///CLOVER:OFF
@Override
public int hashCode() {
return options;
}
/**
* @stable ICU 2.0
*/
@Override
public String toString() {
StringBuilder buf = new StringBuilder(super.toString());
buf.append('[');
switch (options & LAMALEF_MASK) {
case LAMALEF_RESIZE: buf.append("LamAlef resize"); break;
case LAMALEF_NEAR: buf.append("LamAlef spaces at near"); break;
case LAMALEF_BEGIN: buf.append("LamAlef spaces at begin"); break;
case LAMALEF_END: buf.append("LamAlef spaces at end"); break;
case LAMALEF_AUTO: buf.append("lamAlef auto"); break;
}
switch (options & TEXT_DIRECTION_MASK) {
case TEXT_DIRECTION_LOGICAL: buf.append(", logical"); break;
case TEXT_DIRECTION_VISUAL_LTR: buf.append(", visual"); break;
}
switch (options & LETTERS_MASK) {
case LETTERS_NOOP: buf.append(", no letter shaping"); break;
case LETTERS_SHAPE: buf.append(", shape letters"); break;
case LETTERS_SHAPE_TASHKEEL_ISOLATED: buf.append(", shape letters tashkeel isolated"); break;
case LETTERS_UNSHAPE: buf.append(", unshape letters"); break;
}
switch (options & SEEN_MASK) {
case SEEN_TWOCELL_NEAR: buf.append(", Seen at near"); break;
}
switch (options & YEHHAMZA_MASK) {
case YEHHAMZA_TWOCELL_NEAR: buf.append(", Yeh Hamza at near"); break;
}
switch (options & TASHKEEL_MASK) {
case TASHKEEL_BEGIN: buf.append(", Tashkeel at begin"); break;
case TASHKEEL_END: buf.append(", Tashkeel at end"); break;
case TASHKEEL_REPLACE_BY_TATWEEL: buf.append(", Tashkeel replace with tatweel"); break;
case TASHKEEL_RESIZE: buf.append(", Tashkeel resize"); break;
}
switch (options & DIGITS_MASK) {
case DIGITS_NOOP: buf.append(", no digit shaping"); break;
case DIGITS_EN2AN: buf.append(", shape digits to AN"); break;
case DIGITS_AN2EN: buf.append(", shape digits to EN"); break;
case DIGITS_EN2AN_INIT_LR: buf.append(", shape digits to AN contextually: default EN"); break;
case DIGITS_EN2AN_INIT_AL: buf.append(", shape digits to AN contextually: default AL"); break;
}
switch (options & DIGIT_TYPE_MASK) {
case DIGIT_TYPE_AN: buf.append(", standard Arabic-Indic digits"); break;
case DIGIT_TYPE_AN_EXTENDED: buf.append(", extended Arabic-Indic digits"); break;
}
buf.append("]");
return buf.toString();
}
///CLOVER:ON
//
// ported api
//
private static final int IRRELEVANT = 4;
private static final int LAMTYPE = 16;
private static final int ALEFTYPE = 32;
private static final int LINKR = 1;
private static final int LINKL = 2;
private static final int LINK_MASK = 3;
private static final int irrelevantPos[] = {
0x0, 0x2, 0x4, 0x6, 0x8, 0xA, 0xC, 0xE
};
/*
private static final char convertLamAlef[] = {
'\u0622', // FEF5
'\u0622', // FEF6
'\u0623', // FEF7
'\u0623', // FEF8
'\u0625', // FEF9
'\u0625', // FEFA
'\u0627', // FEFB
'\u0627' // FEFC
};
*/
private static final int tailFamilyIsolatedFinal[] = {
/* FEB1 */ 1,
/* FEB2 */ 1,
/* FEB3 */ 0,
/* FEB4 */ 0,
/* FEB5 */ 1,
/* FEB6 */ 1,
/* FEB7 */ 0,
/* FEB8 */ 0,
/* FEB9 */ 1,
/* FEBA */ 1,
/* FEBB */ 0,
/* FEBC */ 0,
/* FEBD */ 1,
/* FEBE */ 1
};
private static final int tashkeelMedial[] = {
/* FE70 */ 0,
/* FE71 */ 1,
/* FE72 */ 0,
/* FE73 */ 0,
/* FE74 */ 0,
/* FE75 */ 0,
/* FE76 */ 0,
/* FE77 */ 1,
/* FE78 */ 0,
/* FE79 */ 1,
/* FE7A */ 0,
/* FE7B */ 1,
/* FE7C */ 0,
/* FE7D */ 1,
/* FE7E */ 0,
/* FE7F */ 1
};
private static final char yehHamzaToYeh[] =
{
/* isolated*/ 0xFEEF,
/* final */ 0xFEF0
};
private static final char convertNormalizedLamAlef[] = {
'\u0622', // 065C
'\u0623', // 065D
'\u0625', // 065E
'\u0627', // 065F
};
private static final int[] araLink = {
1 + 32 + 256 * 0x11, /*0x0622*/
1 + 32 + 256 * 0x13, /*0x0623*/
1 + 256 * 0x15, /*0x0624*/
1 + 32 + 256 * 0x17, /*0x0625*/
1 + 2 + 256 * 0x19, /*0x0626*/
1 + 32 + 256 * 0x1D, /*0x0627*/
1 + 2 + 256 * 0x1F, /*0x0628*/
1 + 256 * 0x23, /*0x0629*/
1 + 2 + 256 * 0x25, /*0x062A*/
1 + 2 + 256 * 0x29, /*0x062B*/
1 + 2 + 256 * 0x2D, /*0x062C*/
1 + 2 + 256 * 0x31, /*0x062D*/
1 + 2 + 256 * 0x35, /*0x062E*/
1 + 256 * 0x39, /*0x062F*/
1 + 256 * 0x3B, /*0x0630*/
1 + 256 * 0x3D, /*0x0631*/
1 + 256 * 0x3F, /*0x0632*/
1 + 2 + 256 * 0x41, /*0x0633*/
1 + 2 + 256 * 0x45, /*0x0634*/
1 + 2 + 256 * 0x49, /*0x0635*/
1 + 2 + 256 * 0x4D, /*0x0636*/
1 + 2 + 256 * 0x51, /*0x0637*/
1 + 2 + 256 * 0x55, /*0x0638*/
1 + 2 + 256 * 0x59, /*0x0639*/
1 + 2 + 256 * 0x5D, /*0x063A*/
0, 0, 0, 0, 0, /*0x063B-0x063F*/
1 + 2, /*0x0640*/
1 + 2 + 256 * 0x61, /*0x0641*/
1 + 2 + 256 * 0x65, /*0x0642*/
1 + 2 + 256 * 0x69, /*0x0643*/
1 + 2 + 16 + 256 * 0x6D, /*0x0644*/
1 + 2 + 256 * 0x71, /*0x0645*/
1 + 2 + 256 * 0x75, /*0x0646*/
1 + 2 + 256 * 0x79, /*0x0647*/
1 + 256 * 0x7D, /*0x0648*/
1 + 256 * 0x7F, /*0x0649*/
1 + 2 + 256 * 0x81, /*0x064A*/
4, 4, 4, 4, /*0x064B-0x064E*/
4, 4, 4, 4, /*0x064F-0x0652*/
4, 4, 4, 0, 0, /*0x0653-0x0657*/
0, 0, 0, 0, /*0x0658-0x065B*/
1 + 256 * 0x85, /*0x065C*/
1 + 256 * 0x87, /*0x065D*/
1 + 256 * 0x89, /*0x065E*/
1 + 256 * 0x8B, /*0x065F*/
0, 0, 0, 0, 0, /*0x0660-0x0664*/
0, 0, 0, 0, 0, /*0x0665-0x0669*/
0, 0, 0, 0, 0, 0, /*0x066A-0x066F*/
4, /*0x0670*/
0, /*0x0671*/
1 + 32, /*0x0672*/
1 + 32, /*0x0673*/
0, /*0x0674*/
1 + 32, /*0x0675*/
1, 1, /*0x0676-0x0677*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x0678-0x067D*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x067E-0x0683*/
1+2, 1+2, 1+2, 1+2, /*0x0684-0x0687*/
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /*0x0688-0x0691*/
1, 1, 1, 1, 1, 1, 1, 1, /*0x0692-0x0699*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x069A-0x06A3*/
1+2, 1+2, 1+2, 1+2, /*0x069A-0x06A3*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x06A4-0x06AD*/
1+2, 1+2, 1+2, 1+2, /*0x06A4-0x06AD*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x06AE-0x06B7*/
1+2, 1+2, 1+2, 1+2, /*0x06AE-0x06B7*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x06B8-0x06BF*/
1+2, 1+2, /*0x06B8-0x06BF*/
1, /*0x06C0*/
1+2, /*0x06C1*/
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /*0x06C2-0x06CB*/
1+2, /*0x06CC*/
1, /*0x06CD*/
1+2, 1+2, 1+2, 1+2, /*0x06CE-0x06D1*/
1, 1 /*0x06D2-0x06D3*/
};
private static final int[] presLink = {
1 + 2, /*0xFE70*/
1 + 2, /*0xFE71*/
1 + 2, 0, 1+ 2, 0, 1+ 2, /*0xFE72-0xFE76*/
1 + 2, /*0xFE77*/
1+ 2, 1 + 2, 1+2, 1 + 2, /*0xFE78-0xFE81*/
1+ 2, 1 + 2, 1+2, 1 + 2, /*0xFE82-0xFE85*/
0, 0 + 32, 1 + 32, 0 + 32, /*0xFE86-0xFE89*/
1 + 32, 0, 1, 0 + 32, /*0xFE8A-0xFE8D*/
1 + 32, 0, 2, 1 + 2, /*0xFE8E-0xFE91*/
1, 0 + 32, 1 + 32, 0, /*0xFE92-0xFE95*/
2, 1 + 2, 1, 0, /*0xFE96-0xFE99*/
1, 0, 2, 1 + 2, /*0xFE9A-0xFE9D*/
1, 0, 2, 1 + 2, /*0xFE9E-0xFEA1*/
1, 0, 2, 1 + 2, /*0xFEA2-0xFEA5*/
1, 0, 2, 1 + 2, /*0xFEA6-0xFEA9*/
1, 0, 2, 1 + 2, /*0xFEAA-0xFEAD*/
1, 0, 1, 0, /*0xFEAE-0xFEB1*/
1, 0, 1, 0, /*0xFEB2-0xFEB5*/
1, 0, 2, 1+2, /*0xFEB6-0xFEB9*/
1, 0, 2, 1+2, /*0xFEBA-0xFEBD*/
1, 0, 2, 1+2, /*0xFEBE-0xFEC1*/
1, 0, 2, 1+2, /*0xFEC2-0xFEC5*/
1, 0, 2, 1+2, /*0xFEC6-0xFEC9*/
1, 0, 2, 1+2, /*0xFECA-0xFECD*/
1, 0, 2, 1+2, /*0xFECE-0xFED1*/
1, 0, 2, 1+2, /*0xFED2-0xFED5*/
1, 0, 2, 1+2, /*0xFED6-0xFED9*/
1, 0, 2, 1+2, /*0xFEDA-0xFEDD*/
1, 0, 2, 1+2, /*0xFEDE-0xFEE1*/
1, 0 + 16, 2 + 16, 1 + 2 +16, /*0xFEE2-0xFEE5*/
1 + 16, 0, 2, 1+2, /*0xFEE6-0xFEE9*/
1, 0, 2, 1+2, /*0xFEEA-0xFEED*/
1, 0, 2, 1+2, /*0xFEEE-0xFEF1*/
1, 0, 1, 0, /*0xFEF2-0xFEF5*/
1, 0, 2, 1+2, /*0xFEF6-0xFEF9*/
1, 0, 1, 0, /*0xFEFA-0xFEFD*/
1, 0, 1, 0,
1
};
private static int[] convertFEto06 = {
/***********0******1******2******3******4******5******6******7******8******9******A******B******C******D******E******F***/
/*FE7*/ 0x64B, 0x64B, 0x64C, 0x64C, 0x64D, 0x64D, 0x64E, 0x64E, 0x64F, 0x64F, 0x650, 0x650, 0x651, 0x651, 0x652, 0x652,
/*FE8*/ 0x621, 0x622, 0x622, 0x623, 0x623, 0x624, 0x624, 0x625, 0x625, 0x626, 0x626, 0x626, 0x626, 0x627, 0x627, 0x628,
/*FE9*/ 0x628, 0x628, 0x628, 0x629, 0x629, 0x62A, 0x62A, 0x62A, 0x62A, 0x62B, 0x62B, 0x62B, 0x62B, 0x62C, 0x62C, 0x62C,
/*FEA*/ 0x62C, 0x62D, 0x62D, 0x62D, 0x62D, 0x62E, 0x62E, 0x62E, 0x62E, 0x62F, 0x62F, 0x630, 0x630, 0x631, 0x631, 0x632,
/*FEB*/ 0x632, 0x633, 0x633, 0x633, 0x633, 0x634, 0x634, 0x634, 0x634, 0x635, 0x635, 0x635, 0x635, 0x636, 0x636, 0x636,
/*FEC*/ 0x636, 0x637, 0x637, 0x637, 0x637, 0x638, 0x638, 0x638, 0x638, 0x639, 0x639, 0x639, 0x639, 0x63A, 0x63A, 0x63A,
/*FED*/ 0x63A, 0x641, 0x641, 0x641, 0x641, 0x642, 0x642, 0x642, 0x642, 0x643, 0x643, 0x643, 0x643, 0x644, 0x644, 0x644,
/*FEE*/ 0x644, 0x645, 0x645, 0x645, 0x645, 0x646, 0x646, 0x646, 0x646, 0x647, 0x647, 0x647, 0x647, 0x648, 0x648, 0x649,
/*FEF*/ 0x649, 0x64A, 0x64A, 0x64A, 0x64A, 0x65C, 0x65C, 0x65D, 0x65D, 0x65E, 0x65E, 0x65F, 0x65F
};
private static final int shapeTable[][][] = {
{ {0,0,0,0}, {0,0,0,0}, {0,1,0,3}, {0,1,0,1} },
{ {0,0,2,2}, {0,0,1,2}, {0,1,1,2}, {0,1,1,3} },
{ {0,0,0,0}, {0,0,0,0}, {0,1,0,3}, {0,1,0,3} },
{ {0,0,1,2}, {0,0,1,2}, {0,1,1,2}, {0,1,1,3} }
};
/*
* This function shapes European digits to Arabic-Indic digits
* in-place, writing over the input characters. Data is in visual
* order.
*/
private void shapeToArabicDigitsWithContext(char[] dest,
int start,
int length,
char digitBase,
boolean lastStrongWasAL) {
UBiDiProps bdp=UBiDiProps.INSTANCE;
digitBase -= '0'; // move common adjustment out of loop
for(int i = start + length; --i >= start;) {
char ch = dest[i];
switch (bdp.getClass(ch)) {
case UCharacterDirection.LEFT_TO_RIGHT:
case UCharacterDirection.RIGHT_TO_LEFT:
lastStrongWasAL = false;
break;
case UCharacterDirection.RIGHT_TO_LEFT_ARABIC:
lastStrongWasAL = true;
break;
case UCharacterDirection.EUROPEAN_NUMBER:
if (lastStrongWasAL && ch <= '\u0039') {
dest[i] = (char)(ch + digitBase);
}
break;
default:
break;
}
}
}
/*
* Name : invertBuffer
* Function: This function inverts the buffer, it's used
* in case the user specifies the buffer to be
* TEXT_DIRECTION_LOGICAL
*/
private static void invertBuffer(char[] buffer,
int start,
int length) {
for(int i = start, j = start + length - 1; i < j; i++, --j) {
char temp = buffer[i];
buffer[i] = buffer[j];
buffer[j] = temp;
}
}
/*
* Name : changeLamAlef
* Function: Converts the Alef characters into an equivalent
* LamAlef location in the 0x06xx Range, this is an
* intermediate stage in the operation of the program
* later it'll be converted into the 0xFExx LamAlefs
* in the shaping function.
*/
private static char changeLamAlef(char ch) {
switch(ch) {
case '\u0622': return '\u065C';
case '\u0623': return '\u065D';
case '\u0625': return '\u065E';
case '\u0627': return '\u065F';
default: return '\u0000'; // not a lamalef
}
}
/*
* Name : specialChar
* Function: Special Arabic characters need special handling in the shapeUnicode
* function, this function returns 1 or 2 for these special characters
*/
private static int specialChar(char ch) {
if ((ch > '\u0621' && ch < '\u0626') ||
(ch == '\u0627') ||
(ch > '\u062E' && ch < '\u0633') ||
(ch > '\u0647' && ch < '\u064A') ||
(ch == '\u0629')) {
return 1;
} else if (ch >= '\u064B' && ch<= '\u0652') {
return 2;
} else if (ch >= 0x0653 && ch <= 0x0655 ||
ch == 0x0670 ||
ch >= 0xFE70 && ch <= 0xFE7F) {
return 3;
} else {
return 0;
}
}
/*
* Name : getLink
* Function: Resolves the link between the characters as
* Arabic characters have four forms :
* Isolated, Initial, Middle and Final Form
*/
private static int getLink(char ch) {
if (ch >= '\u0622' && ch <= '\u06D3') {
return araLink[ch - '\u0622'];
} else if (ch == '\u200D') {
return 3;
} else if (ch >= '\u206D' && ch <= '\u206F') {
return 4;
} else if (ch >= '\uFE70' && ch <= '\uFEFC') {
return presLink[ch - '\uFE70'];
} else {
return 0;
}
}
/*
* Name : countSpaces
* Function: Counts the number of spaces
* at each end of the logical buffer
*/
private static int countSpacesLeft(char[] dest,
int start,
int count) {
for (int i = start, e = start + count; i < e; ++i) {
if (dest[i] != SPACE_CHAR) {
return i - start;
}
}
return count;
}
private static int countSpacesRight(char[] dest,
int start,
int count) {
for (int i = start + count; --i >= start;) {
if (dest[i] != SPACE_CHAR) {
return start + count - 1 - i;
}
}
return count;
}
/*
* Name : isTashkeelChar
* Function: Returns true for Tashkeel characters else return false
*/
private static boolean isTashkeelChar(char ch) {
return ( ch >='\u064B' && ch <= '\u0652' );
}
/*
*Name : isSeenTailFamilyChar
*Function : returns 1 if the character is a seen family isolated character
* in the FE range otherwise returns 0
*/
private static int isSeenTailFamilyChar(char ch) {
if (ch >= 0xfeb1 && ch < 0xfebf){
return tailFamilyIsolatedFinal [ch - 0xFEB1];
} else {
return 0;
}
}
/* Name : isSeenFamilyChar
* Function : returns 1 if the character is a seen family character in the Unicode
* 06 range otherwise returns 0
*/
private static int isSeenFamilyChar(char ch){
if (ch >= 0x633 && ch <= 0x636){
return 1;
}else {
return 0;
}
}
/*
*Name : isTailChar
*Function : returns true if the character matches one of the tail characters
* (0xfe73 or 0x200b) otherwise returns false
*/
private static boolean isTailChar(char ch) {
if(ch == OLD_TAIL_CHAR || ch == NEW_TAIL_CHAR){
return true;
}else{
return false;
}
}
/*
*Name : isAlefMaksouraChar
*Function : returns true if the character is a Alef Maksoura Final or isolated
* otherwise returns false
*/
private static boolean isAlefMaksouraChar(char ch) {
return ( (ch == 0xFEEF) || ( ch == 0xFEF0) || (ch == 0x0649));
}
/*
* Name : isYehHamzaChar
* Function : returns true if the character is a yehHamza isolated or yehhamza
* final is found otherwise returns false
*/
private static boolean isYehHamzaChar(char ch) {
if((ch==0xFE89)||(ch==0xFE8A)){
return true;
}else{
return false;
}
}
/*
*Name : isTashkeelCharFE
*Function : Returns true for Tashkeel characters in FE range else return false
*/
private static boolean isTashkeelCharFE(char ch) {
return ( ch!=0xFE75 &&(ch>=0xFE70 && ch<= 0xFE7F) );
}
/*
* Name: isTashkeelOnTatweelChar
* Function: Checks if the Tashkeel Character is on Tatweel or not,if the
* Tashkeel on tatweel (FE range), it returns 1 else if the
* Tashkeel with shadda on tatweel (FC range)return 2 otherwise
* returns 0
*/
private static int isTashkeelOnTatweelChar(char ch){
if (ch >= 0xfe70 && ch <= 0xfe7f && ch != NEW_TAIL_CHAR && ch != 0xFE75 && ch != SHADDA_TATWEEL_CHAR)
{
return tashkeelMedial [ch - 0xFE70];
} else if( (ch >= 0xfcf2 && ch <= 0xfcf4) || (ch == SHADDA_TATWEEL_CHAR)) {
return 2;
} else {
return 0;
}
}
/*
* Name: isIsolatedTashkeelChar
* Function: Checks if the Tashkeel Character is in the isolated form
* (i.e. Unicode FE range) returns 1 else if the Tashkeel
* with shadda is in the isolated form (i.e. Unicode FC range)
* returns 1 otherwise returns 0
*/
private static int isIsolatedTashkeelChar(char ch){
if (ch >= 0xfe70 && ch <= 0xfe7f && ch != NEW_TAIL_CHAR && ch != 0xFE75){
return (1 - tashkeelMedial [ch - 0xFE70]);
} else if(ch >= 0xfc5e && ch <= 0xfc63){
return 1;
} else{
return 0;
}
}
/*
* Name : isAlefChar
* Function: Returns 1 for Alef characters else return 0
*/
private static boolean isAlefChar(char ch) {
return ch == '\u0622' || ch == '\u0623' || ch == '\u0625' || ch == '\u0627';
}
/*
* Name : isLamAlefChar
* Function: Returns true for LamAlef characters else return false
*/
private static boolean isLamAlefChar(char ch) {
return ch >= '\uFEF5' && ch <= '\uFEFC';
}
private static boolean isNormalizedLamAlefChar(char ch) {
return ch >= '\u065C' && ch <= '\u065F';
}
/*
* Name : calculateSize
* Function: This function calculates the destSize to be used in preflighting
* when the destSize is equal to 0
*/
private int calculateSize(char[] source,
int sourceStart,
int sourceLength) {
int destSize = sourceLength;
switch (options & LETTERS_MASK) {
case LETTERS_SHAPE:
case LETTERS_SHAPE_TASHKEEL_ISOLATED:
if (isLogical) {
for (int i = sourceStart, e = sourceStart + sourceLength - 1; i < e; ++i) {
if ((source[i] == LAM_CHAR && isAlefChar(source[i+1])) || isTashkeelCharFE(source[i])){
--destSize;
}
}
} else { // visual
for(int i = sourceStart + 1, e = sourceStart + sourceLength; i < e; ++i) {
if ((source[i] == LAM_CHAR && isAlefChar(source[i-1])) || isTashkeelCharFE(source[i])) {
--destSize;
}
}
}
break;
case LETTERS_UNSHAPE:
for(int i = sourceStart, e = sourceStart + sourceLength; i < e; ++i) {
if (isLamAlefChar(source[i])) {
destSize++;
}
}
break;
default:
break;
}
return destSize;
}
/*
* Name : countSpaceSub
* Function: Counts number of times the subChar appears in the array
*/
private static int countSpaceSub(char [] dest,int length, char subChar){
int i = 0;
int count = 0;
while (i < length) {
if (dest[i] == subChar) {
count++;
}
i++;
}
return count;
}
/*
* Name : shiftArray
* Function: Shifts characters to replace space sub characters
*/
private static void shiftArray(char [] dest,int start, int e, char subChar){
int w = e;
int r = e;
while (--r >= start) {
char ch = dest[r];
if (ch != subChar) {
--w;
if (w != r) {
dest[w] = ch;
}
}
}
}
/*
* Name : flipArray
* Function: inverts array, so that start becomes end and vice versa
*/
private static int flipArray(char [] dest, int start, int e, int w){
int r;
if (w > start) {
// shift, assume small buffer size so don't use arraycopy
r = w;
w = start;
while (r < e) {
dest[w++] = dest[r++];
}
} else {
w = e;
}
return w;
}
/*
* Name : handleTashkeelWithTatweel
* Function : Replaces Tashkeel as following:
* Case 1 :if the Tashkeel on tatweel, replace it with Tatweel.
* Case 2 :if the Tashkeel aggregated with Shadda on Tatweel, replace
* it with Shadda on Tatweel.
* Case 3: if the Tashkeel is isolated replace it with Space.
*
*/
private static int handleTashkeelWithTatweel(char[] dest, int sourceLength) {
int i;
for(i = 0; i < sourceLength; i++){
if((isTashkeelOnTatweelChar(dest[i]) == 1)){
dest[i] = TATWEEL_CHAR;
}else if((isTashkeelOnTatweelChar(dest[i]) == 2)){
dest[i] = SHADDA_TATWEEL_CHAR;
}else if((isIsolatedTashkeelChar(dest[i])==1) && dest[i] != SHADDA_CHAR){
dest[i] = SPACE_CHAR;
}
}
return sourceLength;
}
/*
*Name : handleGeneratedSpaces
*Function : The shapeUnicode function converts Lam + Alef into LamAlef + space,
* and Tashkeel to space.
* handleGeneratedSpaces function puts these generated spaces
* according to the options the user specifies. LamAlef and Tashkeel
* spaces can be replaced at begin, at end, at near or decrease the
* buffer size.
*
* There is also Auto option for LamAlef and tashkeel, which will put
* the spaces at end of the buffer (or end of text if the user used
* the option SPACES_RELATIVE_TO_TEXT_BEGIN_END).
*
* If the text type was visual_LTR and the option
* SPACES_RELATIVE_TO_TEXT_BEGIN_END was selected the END
* option will place the space at the beginning of the buffer and
* BEGIN will place the space at the end of the buffer.
*/
private int handleGeneratedSpaces(char[] dest,
int start,
int length) {
int lenOptionsLamAlef = options & LAMALEF_MASK;
int lenOptionsTashkeel = options & TASHKEEL_MASK;
boolean lamAlefOn = false;
boolean tashkeelOn = false;
if (!isLogical & !spacesRelativeToTextBeginEnd) {
switch (lenOptionsLamAlef) {
case LAMALEF_BEGIN: lenOptionsLamAlef = LAMALEF_END; break;
case LAMALEF_END: lenOptionsLamAlef = LAMALEF_BEGIN; break;
default: break;
}
switch (lenOptionsTashkeel){
case TASHKEEL_BEGIN: lenOptionsTashkeel = TASHKEEL_END; break;
case TASHKEEL_END: lenOptionsTashkeel = TASHKEEL_BEGIN; break;
default: break;
}
}
if (lenOptionsLamAlef == LAMALEF_NEAR) {
for (int i = start, e = i + length; i < e; ++i) {
if (dest[i] == LAMALEF_SPACE_SUB) {
dest[i] = SPACE_CHAR;
}
}
} else {
final int e = start + length;
int wL = countSpaceSub(dest, length, LAMALEF_SPACE_SUB);
int wT = countSpaceSub(dest, length, TASHKEEL_SPACE_SUB);
if (lenOptionsLamAlef == LAMALEF_END){
lamAlefOn = true;
}
if (lenOptionsTashkeel == TASHKEEL_END){
tashkeelOn = true;
}
if (lamAlefOn && (lenOptionsLamAlef == LAMALEF_END)) {
shiftArray(dest, start, e, LAMALEF_SPACE_SUB);
while (wL > start) {
dest[--wL] = SPACE_CHAR;
}
}
if (tashkeelOn && (lenOptionsTashkeel == TASHKEEL_END)){
shiftArray(dest, start, e, TASHKEEL_SPACE_SUB);
while (wT > start) {
dest[--wT] = SPACE_CHAR;
}
}
lamAlefOn = false;
tashkeelOn = false;
if (lenOptionsLamAlef == LAMALEF_RESIZE){
lamAlefOn = true;
}
if (lenOptionsTashkeel == TASHKEEL_RESIZE){
tashkeelOn = true;
}
if (lamAlefOn && (lenOptionsLamAlef == LAMALEF_RESIZE)){
shiftArray(dest, start, e, LAMALEF_SPACE_SUB);
wL = flipArray(dest,start,e, wL);
length = wL - start;
}
if (tashkeelOn && (lenOptionsTashkeel == TASHKEEL_RESIZE)) {
shiftArray(dest, start, e, TASHKEEL_SPACE_SUB);
wT = flipArray(dest,start,e, wT);
length = wT - start;
}
lamAlefOn = false;
tashkeelOn = false;
if ((lenOptionsLamAlef == LAMALEF_BEGIN) ||
(lenOptionsLamAlef == LAMALEF_AUTO)){
lamAlefOn = true;
}
if (lenOptionsTashkeel == TASHKEEL_BEGIN){
tashkeelOn = true;
}
if (lamAlefOn && ((lenOptionsLamAlef == LAMALEF_BEGIN)||
(lenOptionsLamAlef == LAMALEF_AUTO))) { // spaces at beginning
shiftArray(dest, start, e, LAMALEF_SPACE_SUB);
wL = flipArray(dest,start,e, wL);
while (wL < e) {
dest[wL++] = SPACE_CHAR;
}
}
if(tashkeelOn && (lenOptionsTashkeel == TASHKEEL_BEGIN)){
shiftArray(dest, start, e, TASHKEEL_SPACE_SUB);
wT = flipArray(dest,start,e, wT);
while (wT < e) {
dest[wT++] = SPACE_CHAR;
}
}
}
return length;
}
/*
*Name :expandCompositCharAtBegin
*Function :Expands the LamAlef character to Lam and Alef consuming the required
* space from beginning of the buffer. If the text type was visual_LTR
* and the option SPACES_RELATIVE_TO_TEXT_BEGIN_END was selected
* the spaces will be located at end of buffer.
* If there are no spaces to expand the LamAlef, an exception is thrown.
*/
private boolean expandCompositCharAtBegin(char[] dest,int start, int length,
int lacount) {
boolean spaceNotFound = false;
if (lacount > countSpacesRight(dest, start, length)) {
spaceNotFound = true;
return spaceNotFound;
}
for (int r = start + length - lacount, w = start + length; --r >= start;) {
char ch = dest[r];
if (isNormalizedLamAlefChar(ch)) {
dest[--w] = LAM_CHAR;
dest[--w] = convertNormalizedLamAlef[ch - '\u065C'];
} else {
dest[--w] = ch;
}
}
return spaceNotFound;
}
/*
*Name : expandCompositCharAtEnd
*Function : Expands the LamAlef character to Lam and Alef consuming the
* required space from end of the buffer. If the text type was
* Visual LTR and the option SPACES_RELATIVE_TO_TEXT_BEGIN_END
* was used, the spaces will be consumed from begin of buffer. If
* there are no spaces to expand the LamAlef, an exception is thrown.
*/
private boolean expandCompositCharAtEnd(char[] dest,int start, int length,
int lacount){
boolean spaceNotFound = false;
if (lacount > countSpacesLeft(dest, start, length)) {
spaceNotFound = true;
return spaceNotFound;
}
for (int r = start + lacount, w = start, e = start + length; r < e; ++r) {
char ch = dest[r];
if (isNormalizedLamAlefChar(ch)) {
dest[w++] = convertNormalizedLamAlef[ch - '\u065C'];
dest[w++] = LAM_CHAR;
} else {
dest[w++] = ch;
}
}
return spaceNotFound;
}
/*
*Name : expandCompositCharAtNear
*Function : Expands the LamAlef character into Lam + Alef, YehHamza character
* into Yeh + Hamza, SeenFamily character into SeenFamily character
* + Tail, while consuming the space next to the character.
*/
private boolean expandCompositCharAtNear(char[] dest,int start, int length,
int yehHamzaOption, int seenTailOption, int lamAlefOption){
boolean spaceNotFound = false;
if (isNormalizedLamAlefChar(dest[start])) {
spaceNotFound = true;
return spaceNotFound;
}
for (int i = start + length; --i >=start;) {
char ch = dest[i];
if (lamAlefOption == 1 && isNormalizedLamAlefChar(ch)) {
if (i>start &&dest[i-1] == SPACE_CHAR) {
dest[i] = LAM_CHAR;
dest[--i] = convertNormalizedLamAlef[ch - '\u065C'];
} else {
spaceNotFound = true;
return spaceNotFound;
}
}else if(seenTailOption == 1 && isSeenTailFamilyChar(ch) == 1){
if(i>start &&dest[i-1] == SPACE_CHAR){
dest[i-1] = tailChar;
} else{
spaceNotFound = true;
return spaceNotFound;
}
}else if(yehHamzaOption == 1 && isYehHamzaChar(ch)){
if(i>start &&dest[i-1] == SPACE_CHAR){
dest[i] = yehHamzaToYeh[ch - YEH_HAMZAFE_CHAR];
dest[i-1] = HAMZAFE_CHAR;
}else{
spaceNotFound = true;
return spaceNotFound;
}
}
}
return false;
}
/*
* Name : expandCompositChar
* Function: LamAlef needs special handling as the LamAlef is
* one character while expanding it will give two
* characters Lam + Alef, so we need to expand the LamAlef
* in near or far spaces according to the options the user
* specifies or increase the buffer size.
* Dest has enough room for the expansion if we are growing.
* lamalef are normalized to the 'special characters'
*/
private int expandCompositChar(char[] dest,
int start,
int length,
int lacount,
int shapingMode) throws ArabicShapingException {
int lenOptionsLamAlef = options & LAMALEF_MASK;
int lenOptionsSeen = options & SEEN_MASK;
int lenOptionsYehHamza = options & YEHHAMZA_MASK;
boolean spaceNotFound = false;
if (!isLogical && !spacesRelativeToTextBeginEnd) {
switch (lenOptionsLamAlef) {
case LAMALEF_BEGIN: lenOptionsLamAlef = LAMALEF_END; break;
case LAMALEF_END: lenOptionsLamAlef = LAMALEF_BEGIN; break;
default: break;
}
}
if(shapingMode == 1){
if(lenOptionsLamAlef == LAMALEF_AUTO){
if(isLogical){
spaceNotFound = expandCompositCharAtEnd(dest, start, length, lacount);
if(spaceNotFound){
spaceNotFound = expandCompositCharAtBegin(dest, start, length, lacount);
}
if(spaceNotFound){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,0,1);
}
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else{
spaceNotFound = expandCompositCharAtBegin(dest, start, length, lacount);
if(spaceNotFound){
spaceNotFound = expandCompositCharAtEnd(dest, start, length, lacount);
}
if(spaceNotFound){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,0,1);
}
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}
}else if(lenOptionsLamAlef == LAMALEF_END){
spaceNotFound = expandCompositCharAtEnd(dest, start, length, lacount);
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else if(lenOptionsLamAlef == LAMALEF_BEGIN){
spaceNotFound = expandCompositCharAtBegin(dest, start, length, lacount);
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else if(lenOptionsLamAlef == LAMALEF_NEAR){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,0,1);
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else if(lenOptionsLamAlef == LAMALEF_RESIZE){
for (int r = start + length, w = r + lacount; --r >= start;) {
char ch = dest[r];
if (isNormalizedLamAlefChar(ch)) {
dest[--w] = '\u0644';
dest[--w] = convertNormalizedLamAlef[ch - '\u065C'];
} else {
dest[--w] = ch;
}
}
length += lacount;
}
}else{
if(lenOptionsSeen == SEEN_TWOCELL_NEAR){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,1,0);
if(spaceNotFound){
throw new ArabicShapingException("No space for Seen tail expansion");
}
}
if(lenOptionsYehHamza == YEHHAMZA_TWOCELL_NEAR){
spaceNotFound = expandCompositCharAtNear(dest, start, length,1,0,0);
if(spaceNotFound){
throw new ArabicShapingException("No space for YehHamza expansion");
}
}
}
return length;
}
/* Convert the input buffer from FExx Range into 06xx Range
* to put all characters into the 06xx range
* even the lamalef is converted to the special region in
* the 06xx range. Return the number of lamalef chars found.
*/
private int normalize(char[] dest, int start, int length) {
int lacount = 0;
for (int i = start, e = i + length; i < e; ++i) {
char ch = dest[i];
if (ch >= '\uFE70' && ch <= '\uFEFC') {
if (isLamAlefChar(ch)) {
++lacount;
}
dest[i] = (char)convertFEto06[ch - '\uFE70'];
}
}
return lacount;
}
/*
* Name : deshapeNormalize
* Function: Convert the input buffer from FExx Range into 06xx Range
* even the lamalef is converted to the special region in the 06xx range.
* According to the options the user enters, all seen family characters
* followed by a tail character are merged to seen tail family character and
* any yeh followed by a hamza character are merged to yehhamza character.
* Method returns the number of lamalef chars found.
*/
private int deshapeNormalize(char[] dest, int start, int length) {
int lacount = 0;
int yehHamzaComposeEnabled = 0;
int seenComposeEnabled = 0;
yehHamzaComposeEnabled = ((options&YEHHAMZA_MASK) == YEHHAMZA_TWOCELL_NEAR) ? 1 : 0;
seenComposeEnabled = ((options&SEEN_MASK) == SEEN_TWOCELL_NEAR)? 1 : 0;
for (int i = start, e = i + length; i < e; ++i) {
char ch = dest[i];
if( (yehHamzaComposeEnabled == 1) && ((ch == HAMZA06_CHAR) || (ch == HAMZAFE_CHAR))
&& (i < (length - 1)) && isAlefMaksouraChar(dest[i+1] )) {
dest[i] = SPACE_CHAR;
dest[i+1] = YEH_HAMZA_CHAR;
} else if ( (seenComposeEnabled == 1) && (isTailChar(ch)) && (i< (length - 1))
&& (isSeenTailFamilyChar(dest[i+1])==1) ) {
dest[i] = SPACE_CHAR;
}
else if (ch >= '\uFE70' && ch <= '\uFEFC') {
if (isLamAlefChar(ch)) {
++lacount;
}
dest[i] = (char)convertFEto06[ch - '\uFE70'];
}
}
return lacount;
}
/*
* Name : shapeUnicode
* Function: Converts an Arabic Unicode buffer in 06xx Range into a shaped
* arabic Unicode buffer in FExx Range
*/
private int shapeUnicode(char[] dest,
int start,
int length,
int destSize,
int tashkeelFlag)throws ArabicShapingException {
int lamalef_count = normalize(dest, start, length);
// resolve the link between the characters.
// Arabic characters have four forms: Isolated, Initial, Medial and Final.
// Tashkeel characters have two, isolated or medial, and sometimes only isolated.
// tashkeelFlag == 0: shape normally, 1: shape isolated, 2: don't shape
boolean lamalef_found = false, seenfam_found = false;
boolean yehhamza_found = false, tashkeel_found = false;
int i = start + length - 1;
int currLink = getLink(dest[i]);
int nextLink = 0;
int prevLink = 0;
int lastLink = 0;
//int prevPos = i;
int lastPos = i;
int nx = -2;
int nw = 0;
while (i >= 0) {
// If high byte of currLink != 0 then there might be more than one shape
if ((currLink & '\uFF00') != 0 || isTashkeelChar(dest[i])) {
nw = i - 1;
nx = -2;
while (nx < 0) { // we need to know about next char
if (nw == -1) {
nextLink = 0;
nx = Integer.MAX_VALUE;
} else {
nextLink = getLink(dest[nw]);
if ((nextLink & IRRELEVANT) == 0) {
nx = nw;
} else {
--nw;
}
}
}
if (((currLink & ALEFTYPE) > 0) && ((lastLink & LAMTYPE) > 0)) {
lamalef_found = true;
char wLamalef = changeLamAlef(dest[i]); // get from 0x065C-0x065f
if (wLamalef != '\u0000') {
// replace alef by marker, it will be removed later
dest[i] = '\uffff';
dest[lastPos] = wLamalef;
i = lastPos;
}
lastLink = prevLink;
currLink = getLink(wLamalef); // requires '\u0000', unfortunately
}
if ((i > 0) && (dest[i-1] == SPACE_CHAR))
{
if ( isSeenFamilyChar(dest[i]) == 1){
seenfam_found = true;
} else if (dest[i] == YEH_HAMZA_CHAR) {
yehhamza_found = true;
}
}
else if(i==0){
if ( isSeenFamilyChar(dest[i]) == 1){
seenfam_found = true;
} else if (dest[i] == YEH_HAMZA_CHAR) {
yehhamza_found = true;
}
}
// get the proper shape according to link ability of neighbors
// and of character; depends on the order of the shapes
// (isolated, initial, middle, final) in the compatibility area
int flag = specialChar(dest[i]);
int shape = shapeTable[nextLink & LINK_MASK]
[lastLink & LINK_MASK]
[currLink & LINK_MASK];
if (flag == 1) {
shape &= 0x1;
} else if (flag == 2) {
if (tashkeelFlag == 0 &&
((lastLink & LINKL) != 0) &&
((nextLink & LINKR) != 0) &&
dest[i] != '\u064C' &&
dest[i] != '\u064D' &&
!((nextLink & ALEFTYPE) == ALEFTYPE &&
(lastLink & LAMTYPE) == LAMTYPE)) {
shape = 1;
} else if(tashkeelFlag == 2 && dest[i] == SHADDA06_CHAR){
shape = 1;
} else {
shape = 0;
}
}
if (flag == 2) {
if (tashkeelFlag == 2 && dest[i] != SHADDA06_CHAR) {
dest[i] = TASHKEEL_SPACE_SUB;
tashkeel_found = true;
}
else{
dest[i] = (char)('\uFE70' + irrelevantPos[dest[i] - '\u064B'] + shape);
}
// else leave tashkeel alone
} else {
dest[i] = (char)('\uFE70' + (currLink >> 8) + shape);
}
}
// move one notch forward
if ((currLink & IRRELEVANT) == 0) {
prevLink = lastLink;
lastLink = currLink;
//prevPos = lastPos;
lastPos = i;
}
--i;
if (i == nx) {
currLink = nextLink;
nx = -2;
} else if (i != -1) {
currLink = getLink(dest[i]);
}
}
// If we found a lam/alef pair in the buffer
// call handleGeneratedSpaces to remove the spaces that were added
destSize = length;
if (lamalef_found || tashkeel_found) {
destSize = handleGeneratedSpaces(dest, start, length);
}
if (seenfam_found || yehhamza_found){
destSize = expandCompositChar(dest, start, destSize, lamalef_count, SHAPE_MODE);
}
return destSize;
}
/*
* Name : deShapeUnicode
* Function: Converts an Arabic Unicode buffer in FExx Range into unshaped
* arabic Unicode buffer in 06xx Range
*/
private int deShapeUnicode(char[] dest,
int start,
int length,
int destSize) throws ArabicShapingException {
int lamalef_count = deshapeNormalize(dest, start, length);
// If there was a lamalef in the buffer call expandLamAlef
if (lamalef_count != 0) {
// need to adjust dest to fit expanded buffer... !!!
destSize = expandCompositChar(dest, start, length, lamalef_count,DESHAPE_MODE);
} else {
destSize = length;
}
return destSize;
}
private int internalShape(char[] source,
int sourceStart,
int sourceLength,
char[] dest,
int destStart,
int destSize) throws ArabicShapingException {
if (sourceLength == 0) {
return 0;
}
if (destSize == 0) {
if (((options & LETTERS_MASK) != LETTERS_NOOP) &&
((options & LAMALEF_MASK) == LAMALEF_RESIZE)) {
return calculateSize(source, sourceStart, sourceLength);
} else {
return sourceLength; // by definition
}
}
// always use temp buffer
char[] temp = new char[sourceLength * 2]; // all lamalefs requiring expansion
System.arraycopy(source, sourceStart, temp, 0, sourceLength);
if (isLogical) {
invertBuffer(temp, 0, sourceLength);
}
int outputSize = sourceLength;
switch (options & LETTERS_MASK) {
case LETTERS_SHAPE_TASHKEEL_ISOLATED:
outputSize = shapeUnicode(temp, 0, sourceLength, destSize, 1);
break;
case LETTERS_SHAPE:
if( ((options&TASHKEEL_MASK) != 0) &&
((options&TASHKEEL_MASK) !=TASHKEEL_REPLACE_BY_TATWEEL)) {
/* Call the shaping function with tashkeel flag == 2 for removal of tashkeel */
outputSize = shapeUnicode(temp, 0, sourceLength, destSize, 2);
}else {
//default Call the shaping function with tashkeel flag == 1 */
outputSize = shapeUnicode(temp, 0, sourceLength, destSize, 0);
/*After shaping text check if user wants to remove tashkeel and replace it with tatweel*/
if( (options&TASHKEEL_MASK) == TASHKEEL_REPLACE_BY_TATWEEL){
outputSize = handleTashkeelWithTatweel(temp,sourceLength);
}
}
break;
case LETTERS_UNSHAPE:
outputSize = deShapeUnicode(temp, 0, sourceLength, destSize);
break;
default:
break;
}
if (outputSize > destSize) {
throw new ArabicShapingException("not enough room for result data");
}
if ((options & DIGITS_MASK) != DIGITS_NOOP) {
char digitBase = '\u0030'; // European digits
switch (options & DIGIT_TYPE_MASK) {
case DIGIT_TYPE_AN:
digitBase = '\u0660'; // Arabic-Indic digits
break;
case DIGIT_TYPE_AN_EXTENDED:
digitBase = '\u06f0'; // Eastern Arabic-Indic digits (Persian and Urdu)
break;
default:
break;
}
switch (options & DIGITS_MASK) {
case DIGITS_EN2AN:
{
int digitDelta = digitBase - '\u0030';
for (int i = 0; i < outputSize; ++i) {
char ch = temp[i];
if (ch <= '\u0039' && ch >= '\u0030') {
temp[i] += digitDelta;
}
}
}
break;
case DIGITS_AN2EN:
{
char digitTop = (char)(digitBase + 9);
int digitDelta = '\u0030' - digitBase;
for (int i = 0; i < outputSize; ++i) {
char ch = temp[i];
if (ch <= digitTop && ch >= digitBase) {
temp[i] += digitDelta;
}
}
}
break;
case DIGITS_EN2AN_INIT_LR:
shapeToArabicDigitsWithContext(temp, 0, outputSize, digitBase, false);
break;
case DIGITS_EN2AN_INIT_AL:
shapeToArabicDigitsWithContext(temp, 0, outputSize, digitBase, true);
break;
default:
break;
}
}
if (isLogical) {
invertBuffer(temp, 0, outputSize);
}
System.arraycopy(temp, 0, dest, destStart, outputSize);
return outputSize;
}
}

परिवर्तित टेक्स्ट

फ़ाइल खोलें

//© 2016 and later: Unicode, Inc. and others.
//License & terms of use: http://www.unicode.org/copyright.html#License
/*
*******************************************************************************
* Copyright (C) 2001-2012, International Business Machines
* Corporation and others. All Rights Reserved.
*******************************************************************************
*/
import com.ibm.icu.impl.UBiDiProps;
import com.ibm.icu.lang.UCharacterDirection;
import com.ibm.icu.text.ArabicShapingException;
/**
* Shape Persian text on a character basis. - Edited by soheil rahsaz
*
* PersianShaping performs basic operations for "shaping" Arabic text. It is most
* useful for use with legacy data formats and legacy display technology
* (simple terminals). All operations are performed on Unicode characters.
*
* Text-based shaping means that some character code points in the text are
* replaced by others depending on the context. It transforms one kind of text
* into another. In comparison, modern displays for Arabic text select
* appropriate, context-dependent font glyphs for each text element, which means
* that they transform text into a glyph vector.
*
* Text transformations are necessary when modern display technology is not
* available or when text needs to be transformed to or from legacy formats that
* use "shaped" characters. Since the Arabic script is cursive, connecting
* adjacent letters to each other, computers select images for each letter based
* on the surrounding letters. This usually results in four images per Arabic
* letter: initial, middle, final, and isolated forms. In Unicode, on the other
* hand, letters are normally stored abstract, and a display system is expected
* to select the necessary glyphs. (This makes searching and other text
* processing easier because the same letter has only one code.) It is possible
* to mimic this with text transformations because there are characters in
* Unicode that are rendered as letters with a specific shape
* (or cursive connectivity). They were included for interoperability with
* legacy systems and codepages, and for unsophisticated display systems.
*
* A second kind of text transformations is supported for Arabic digits:
* For compatibility with legacy codepages that only include European digits,
* it is possible to replace one set of digits by another, changing the
* character code points. These operations can be performed for either
* Arabic-Indic Digits (U+0660...U+0669) or Eastern (Extended) Arabic-Indic
* digits (U+06f0...U+06f9).
*
* Some replacements may result in more or fewer characters (code points).
* By default, this means that the destination buffer may receive text with a
* length different from the source length. Some legacy systems rely on the
* length of the text to be constant. They expect extra spaces to be added
* or consumed either next to the affected character or at the end of the
* text.
* @stable ICU 2.0
* @author Edited: Soheil Rahsaz
*/
public final class PersianShaping {
private final int options;
private boolean isLogical; // convenience
private boolean spacesRelativeToTextBeginEnd;
private char tailChar;
/**
* Convert a range of text in the source array, putting the result
* into a range of text in the destination array, and return the number
* of characters written.
*
* @param source An array containing the input text
* @param sourceStart The start of the range of text to convert
* @param sourceLength The length of the range of text to convert
* @param dest The destination array that will receive the result.
* It may be <code>NULL</code> only if <code>destSize</code> is 0.
* @param destStart The start of the range of the destination buffer to use.
* @param destSize The size (capacity) of the destination buffer.
* If <code>destSize</code> is 0, then no output is produced,
* but the necessary buffer size is returned ("preflighting"). This
* does not validate the text against the options, for example,
* if letters are being unshaped, and spaces are being consumed
* following lamalef, this will not detect a lamalef without a
* corresponding space. An error will be thrown when the actual
* conversion is attempted.
* @return The number of chars written to the destination buffer.
* If an error occurs, then no output was written, or it may be
* incomplete.
* @throws ArabicShapingException if the text cannot be converted according to the options.
* @stable ICU 2.0
*/
public int shape(char[] source, int sourceStart, int sourceLength,
char[] dest, int destStart, int destSize) throws ArabicShapingException {
if (source == null) {
throw new IllegalArgumentException("source can not be null");
}
if (sourceStart < 0 || sourceLength < 0 || sourceStart + sourceLength > source.length) {
throw new IllegalArgumentException("bad source start (" + sourceStart +
") or length (" + sourceLength +
") for buffer of length " + source.length);
}
if (dest == null && destSize != 0) {
throw new IllegalArgumentException("null dest requires destSize == 0");
}
if ((destSize != 0) &&
(destStart < 0 || destSize < 0 || destStart + destSize > dest.length)) {
throw new IllegalArgumentException("bad dest start (" + destStart +
") or size (" + destSize +
") for buffer of length " + dest.length);
}
/* Validate input options */
if ( ((options&TASHKEEL_MASK) != 0) &&
!(((options & TASHKEEL_MASK)==TASHKEEL_BEGIN) ||
((options & TASHKEEL_MASK)==TASHKEEL_END) ||
((options & TASHKEEL_MASK)==TASHKEEL_RESIZE) ||
((options & TASHKEEL_MASK)==TASHKEEL_REPLACE_BY_TATWEEL))) {
throw new IllegalArgumentException("Wrong Tashkeel argument");
}
///CLOVER:OFF
//According to Steven Loomis, the code is unreachable when you OR all the constants within the if statements
if(((options&LAMALEF_MASK) != 0) &&
!(((options & LAMALEF_MASK)==LAMALEF_BEGIN) ||
((options & LAMALEF_MASK)==LAMALEF_END) ||
((options & LAMALEF_MASK)==LAMALEF_RESIZE) ||
((options & LAMALEF_MASK)==LAMALEF_AUTO) ||
((options & LAMALEF_MASK)==LAMALEF_NEAR))) {
throw new IllegalArgumentException("Wrong Lam Alef argument");
}
///CLOVER:ON
/* Validate Tashkeel (Tashkeel replacement options should be enabled in shaping mode only)*/
if(((options&TASHKEEL_MASK) != 0) && (options&LETTERS_MASK) == LETTERS_UNSHAPE) {
throw new IllegalArgumentException("Tashkeel replacement should not be enabled in deshaping mode ");
}
return internalShape(source, sourceStart, sourceLength, dest, destStart, destSize);
}
/**
* Convert a range of text in place. This may only be used if the Length option
* does not grow or shrink the text.
*
* @param source An array containing the input text
* @param start The start of the range of text to convert
* @param length The length of the range of text to convert
* @throws ArabicShapingException if the text cannot be converted according to the options.
* @stable ICU 2.0
*/
public void shape(char[] source, int start, int length) throws ArabicShapingException {
if ((options & LAMALEF_MASK) == LAMALEF_RESIZE) {
throw new ArabicShapingException("Cannot shape in place with length option resize.");
}
shape(source, start, length, source, start, length);
}
/**
* Convert a string, returning the new string.
*
* @param text the string to convert
* @return the converted string
* @throws ArabicShapingException if the string cannot be converted according to the options.
* @stable ICU 2.0
*/
public String shape(String text) throws ArabicShapingException {
char[] src = text.toCharArray();
char[] dest = src;
if (((options & LAMALEF_MASK) == LAMALEF_RESIZE) &&
((options & LETTERS_MASK) == LETTERS_UNSHAPE)) {
dest = new char[src.length * 2]; // max
}
int len = shape(src, 0, src.length, dest, 0, dest.length);
return new String(dest, 0, len);
}
/**
* Construct PersianShaping using the options flags.
* The flags are as follows: 
* 'LENGTH' flags control whether the text can change size, and if not,
* how to maintain the size of the text when LamAlef ligatures are
* formed or broken. 
* 'TEXT_DIRECTION' flags control whether the text is read and written
* in visual order or in logical order. 
* 'LETTERS_SHAPE' flags control whether conversion is to or from
* presentation forms. 
* 'DIGITS' flags control whether digits are shaped, and whether from
* European to Arabic-Indic or vice-versa. 
* 'DIGIT_TYPE' flags control whether standard or extended Arabic-Indic
* digits are used when performing digit conversion.
* @stable ICU 2.0
*/
public PersianShaping(int options) {
this.options = options;
if ((options & DIGITS_MASK) > 0x80) {
throw new IllegalArgumentException("bad DIGITS options");
}
isLogical = ( (options & TEXT_DIRECTION_MASK) == TEXT_DIRECTION_LOGICAL );
/* Validate options */
spacesRelativeToTextBeginEnd = ( (options & SPACES_RELATIVE_TO_TEXT_MASK) == SPACES_RELATIVE_TO_TEXT_BEGIN_END );
if ( (options&SHAPE_TAIL_TYPE_MASK) == SHAPE_TAIL_NEW_UNICODE){
tailChar = NEW_TAIL_CHAR;
} else {
tailChar = OLD_TAIL_CHAR;
}
}
/* Seen Tail options */
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: The SEEN family character will expand into two characters using space near
* the SEEN family character(i.e. the space after the character).
* if there are no spaces found, ArabicShapingException will be thrown
*
* De-shaping mode: Any Seen character followed by Tail character will be
* replaced by one cell Seen and a space will replace the Tail.
* Affects: Seen options
* @stable ICU 4.2
*/
public static final int SEEN_TWOCELL_NEAR = 0x200000;
/** Bit mask for Seen memory options.
* @stable ICU 4.2
*/
public static final int SEEN_MASK = 0x700000;
/* YehHamza options */
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: The YEHHAMZA character will expand into two characters using space near it
* (i.e. the space after the character)
* if there are no spaces found, ArabicShapingException will be thrown
*
* De-shaping mode: Any Yeh (final or isolated) character followed by Hamza character will be
* replaced by one cell YehHamza and space will replace the Hamza.
* Affects: YehHamza options
* @stable ICU 4.2
*/
public static final int YEHHAMZA_TWOCELL_NEAR = 0x1000000;
/** Bit mask for YehHamza memory options.
* @stable ICU 4.2
*/
public static final int YEHHAMZA_MASK = 0x3800000;
/* New Tashkeel options */
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: Tashkeel characters will be replaced by spaces.
* Spaces will be placed at beginning of the buffer
*
* De-shaping mode: N/A
* Affects: Tashkeel options
* @stable ICU 4.2
*/
public static final int TASHKEEL_BEGIN = 0x40000;
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: Tashkeel characters will be replaced by spaces.
* Spaces will be placed at end of the buffer
*
* De-shaping mode: N/A
* Affects: Tashkeel options
* @stable ICU 4.2
*/
public static final int TASHKEEL_END = 0x60000;
/**
* Memory option: allow the result to have a different length than the source.
* Shaping mode: Tashkeel characters will be removed, buffer length will shrink.
* De-shaping mode: N/A
*
* Affects: Tashkeel options
* @stable ICU 4.2
*/
public static final int TASHKEEL_RESIZE = 0x80000;
/**
* Memory option: the result must have the same length as the source.
* Shaping mode: Tashkeel characters will be replaced by Tatweel if it is connected to adjacent
* characters (i.e. shaped on Tatweel) or replaced by space if it is not connected.
*
* De-shaping mode: N/A
* Affects: YehHamza options
* @stable ICU 4.2
*/
public static final int TASHKEEL_REPLACE_BY_TATWEEL = 0xC0000;
/** Bit mask for Tashkeel replacement with Space or Tatweel memory options.
* @stable ICU 4.2
*/
public static final int TASHKEEL_MASK = 0xE0000;
/* Space location Control options */
/**
* This option effects the meaning of BEGIN and END options. if this option is not used the default
* for BEGIN and END will be as following:
* The Default (for both Visual LTR, Visual RTL and Logical Text)
* 1. BEGIN always refers to the start address of physical memory.
* 2. END always refers to the end address of physical memory.
*
* If this option is used it will swap the meaning of BEGIN and END only for Visual LTR text.
*
* The affect on BEGIN and END Memory Options will be as following:
* A. BEGIN For Visual LTR text: This will be the beginning (right side) of the visual text
* (corresponding to the physical memory address end, same as END in default behavior)
* B. BEGIN For Logical text: Same as BEGIN in default behavior.
* C. END For Visual LTR text: This will be the end (left side) of the visual text. (corresponding to
* the physical memory address beginning, same as BEGIN in default behavior)
* D. END For Logical text: Same as END in default behavior.
* Affects: All LamAlef BEGIN, END and AUTO options.
* @stable ICU 4.2
*/
public static final int SPACES_RELATIVE_TO_TEXT_BEGIN_END = 0x4000000;
/** Bit mask for swapping BEGIN and END for Visual LTR text
* @stable ICU 4.2
*/
public static final int SPACES_RELATIVE_TO_TEXT_MASK = 0x4000000;
/**
* If this option is used, shaping will use the new Unicode code point for TAIL (i.e. 0xFE73).
* If this option is not specified (Default), old unofficial Unicode TAIL code point is used (i.e. 0x200B)
* De-shaping will not use this option as it will always search for both the new Unicode code point for the
* TAIL (i.e. 0xFE73) or the old unofficial Unicode TAIL code point (i.e. 0x200B) and de-shape the
* Seen-Family letter accordingly.
*
* Shaping Mode: Only shaping.
* De-shaping Mode: N/A.
* Affects: All Seen options
* @stable ICU 4.2
*/
public static final int SHAPE_TAIL_NEW_UNICODE = 0x8000000;
/** Bit mask for new Unicode Tail option
* @stable ICU 4.2
*/
public static final int SHAPE_TAIL_TYPE_MASK = 0x8000000;
/**
* Memory option: allow the result to have a different length than the source.
* @stable ICU 2.0
*/
public static final int LENGTH_GROW_SHRINK = 0;
/**
* Memory option: allow the result to have a different length than the source.
* Affects: LamAlef options
* This option is an alias to LENGTH_GROW_SHRINK
* @stable ICU 4.2
*/
public static final int LAMALEF_RESIZE = 0;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces next to modified characters.
* @stable ICU 2.0
*/
public static final int LENGTH_FIXED_SPACES_NEAR = 1;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces next to modified characters.
* Affects: LamAlef options
* This option is an alias to LENGTH_FIXED_SPACES_NEAR
* @stable ICU 4.2
*/
public static final int LAMALEF_NEAR = 1 ;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the end of the text.
* @stable ICU 2.0
*/
public static final int LENGTH_FIXED_SPACES_AT_END = 2;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the end of the text.
* Affects: LamAlef options
* This option is an alias to LENGTH_FIXED_SPACES_AT_END
* @stable ICU 4.2
*/
public static final int LAMALEF_END = 2;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the beginning of the text.
* @stable ICU 2.0
*/
public static final int LENGTH_FIXED_SPACES_AT_BEGINNING = 3;
/**
* Memory option: the result must have the same length as the source.
* If more room is necessary, then try to consume spaces at the beginning of the text.
* Affects: LamAlef options
* This option is an alias to LENGTH_FIXED_SPACES_AT_BEGINNING
* @stable ICU 4.2
*/
public static final int LAMALEF_BEGIN = 3;
/**
* Memory option: the result must have the same length as the source.
* Shaping Mode: For each LAMALEF character found, expand LAMALEF using space at end.
* If there is no space at end, use spaces at beginning of the buffer. If there
* is no space at beginning of the buffer, use spaces at the near (i.e. the space
* after the LAMALEF character).
*
* Deshaping Mode: Perform the same function as the flag equals LAMALEF_END.
* Affects: LamAlef options
* @stable ICU 4.2
*/
public static final int LAMALEF_AUTO = 0x10000;
/**
* Bit mask for memory options.
* @stable ICU 2.0
*/
public static final int LENGTH_MASK = 0x10003;
/** Bit mask for LamAlef memory options.
* @stable ICU 4.2
*/
public static final int LAMALEF_MASK = 0x10003;
/**
* Direction indicator: the source is in logical (keyboard) order.
* @stable ICU 2.0
*/
public static final int TEXT_DIRECTION_LOGICAL = 0;
/**
* Direction indicator:the source is in visual RTL order,
* the rightmost displayed character stored first.
* This option is an alias to U_SHAPE_TEXT_DIRECTION_LOGICAL
* @stable ICU 4.2
*/
public static final int TEXT_DIRECTION_VISUAL_RTL = 0;
/**
* Direction indicator: the source is in visual (display) order, that is,
* the leftmost displayed character is stored first.
* @stable ICU 2.0
*/
public static final int TEXT_DIRECTION_VISUAL_LTR = 4;
/**
* Bit mask for direction indicators.
* @stable ICU 2.0
*/
public static final int TEXT_DIRECTION_MASK = 4;
/**
* Letter shaping option: do not perform letter shaping.
* @stable ICU 2.0
*/
public static final int LETTERS_NOOP = 0;
/**
* Letter shaping option: replace normative letter characters in the U+0600 (Arabic) block,
* by shaped ones in the U+FE70 (Presentation Forms B) block. Performs Lam-Alef ligature
* substitution.
* @stable ICU 2.0
*/
public static final int LETTERS_SHAPE = 8;
/**
* Letter shaping option: replace shaped letter characters in the U+FE70 (Presentation Forms B) block
* by normative ones in the U+0600 (Arabic) block. Converts Lam-Alef ligatures to pairs of Lam and
* Alef characters, consuming spaces if required.
* @stable ICU 2.0
*/
public static final int LETTERS_UNSHAPE = 0x10;
/**
* Letter shaping option: replace normative letter characters in the U+0600 (Arabic) block,
* except for the TASHKEEL characters at U+064B...U+0652, by shaped ones in the U+Fe70
* (Presentation Forms B) block. The TASHKEEL characters will always be converted to
* the isolated forms rather than to their correct shape.
* @stable ICU 2.0
*/
public static final int LETTERS_SHAPE_TASHKEEL_ISOLATED = 0x18;
/**
* Bit mask for letter shaping options.
* @stable ICU 2.0
*/
public static final int LETTERS_MASK = 0x18;
/**
* Digit shaping option: do not perform digit shaping.
* @stable ICU 2.0
*/
public static final int DIGITS_NOOP = 0;
/**
* Digit shaping option: Replace European digits (U+0030...U+0039) by Arabic-Indic digits.
* @stable ICU 2.0
*/
public static final int DIGITS_EN2AN = 0x20;
/**
* Digit shaping option: Replace Arabic-Indic digits by European digits (U+0030...U+0039).
* @stable ICU 2.0
*/
public static final int DIGITS_AN2EN = 0x40;
/**
* Digit shaping option:
* Replace European digits (U+0030...U+0039) by Arabic-Indic digits
* if the most recent strongly directional character
* is an Arabic letter (its Bidi direction value is RIGHT_TO_LEFT_ARABIC).
* The initial state at the start of the text is assumed to be not an Arabic,
* letter, so European digits at the start of the text will not change.
* Compare to DIGITS_ALEN2AN_INIT_AL.
* @stable ICU 2.0
*/
public static final int DIGITS_EN2AN_INIT_LR = 0x60;
/**
* Digit shaping option:
* Replace European digits (U+0030...U+0039) by Arabic-Indic digits
* if the most recent strongly directional character
* is an Arabic letter (its Bidi direction value is RIGHT_TO_LEFT_ARABIC).
* The initial state at the start of the text is assumed to be an Arabic,
* letter, so European digits at the start of the text will change.
* Compare to DIGITS_ALEN2AN_INT_LR.
* @stable ICU 2.0
*/
public static final int DIGITS_EN2AN_INIT_AL = 0x80;
/** Not a valid option value. */
//private static final int DIGITS_RESERVED = 0xa0;
/**
* Bit mask for digit shaping options.
* @stable ICU 2.0
*/
public static final int DIGITS_MASK = 0xe0;
/**
* Digit type option: Use Arabic-Indic digits (U+0660...U+0669).
* @stable ICU 2.0
*/
public static final int DIGIT_TYPE_AN = 0;
/**
* Digit type option: Use Eastern (Extended) Arabic-Indic digits (U+06f0...U+06f9).
* @stable ICU 2.0
*/
public static final int DIGIT_TYPE_AN_EXTENDED = 0x100;
/**
* Bit mask for digit type options.
* @stable ICU 2.0
*/
public static final int DIGIT_TYPE_MASK = 0x0100; // 0x3f00?
/**
* some constants
*/
private static final char HAMZAFE_CHAR = '\ufe80';
private static final char HAMZA06_CHAR = '\u0621';
private static final char YEH_HAMZA_CHAR = '\u0626';
private static final char YEH_HAMZAFE_CHAR = '\uFE89';
private static final char LAMALEF_SPACE_SUB = '\uffff';
private static final char TASHKEEL_SPACE_SUB = '\ufffe';
private static final char LAM_CHAR = '\u0644';
private static final char SPACE_CHAR = '\u0020';
private static final char SHADDA_CHAR = '\uFE7C';
private static final char SHADDA06_CHAR = '\u0651';
private static final char TATWEEL_CHAR = '\u0640';
private static final char SHADDA_TATWEEL_CHAR = '\uFE7D';
private static final char NEW_TAIL_CHAR = '\uFE73';
private static final char OLD_TAIL_CHAR = '\u200B';
private static final int SHAPE_MODE = 0;
private static final int DESHAPE_MODE = 1;
/**
* @stable ICU 2.0
*/
@Override
public boolean equals(Object rhs) {
return rhs != null &&
rhs.getClass() == PersianShaping.class &&
options == ((PersianShaping)rhs).options;
}
/**
* @stable ICU 2.0
*/
///CLOVER:OFF
@Override
public int hashCode() {
return options;
}
/**
* @stable ICU 2.0
*/
@Override
public String toString() {
StringBuilder buf = new StringBuilder(super.toString());
buf.append('[');
switch (options & LAMALEF_MASK) {
case LAMALEF_RESIZE: buf.append("LamAlef resize"); break;
case LAMALEF_NEAR: buf.append("LamAlef spaces at near"); break;
case LAMALEF_BEGIN: buf.append("LamAlef spaces at begin"); break;
case LAMALEF_END: buf.append("LamAlef spaces at end"); break;
case LAMALEF_AUTO: buf.append("lamAlef auto"); break;
}
switch (options & TEXT_DIRECTION_MASK) {
case TEXT_DIRECTION_LOGICAL: buf.append(", logical"); break;
case TEXT_DIRECTION_VISUAL_LTR: buf.append(", visual"); break;
}
switch (options & LETTERS_MASK) {
case LETTERS_NOOP: buf.append(", no letter shaping"); break;
case LETTERS_SHAPE: buf.append(", shape letters"); break;
case LETTERS_SHAPE_TASHKEEL_ISOLATED: buf.append(", shape letters tashkeel isolated"); break;
case LETTERS_UNSHAPE: buf.append(", unshape letters"); break;
}
switch (options & SEEN_MASK) {
case SEEN_TWOCELL_NEAR: buf.append(", Seen at near"); break;
}
switch (options & YEHHAMZA_MASK) {
case YEHHAMZA_TWOCELL_NEAR: buf.append(", Yeh Hamza at near"); break;
}
switch (options & TASHKEEL_MASK) {
case TASHKEEL_BEGIN: buf.append(", Tashkeel at begin"); break;
case TASHKEEL_END: buf.append(", Tashkeel at end"); break;
case TASHKEEL_REPLACE_BY_TATWEEL: buf.append(", Tashkeel replace with tatweel"); break;
case TASHKEEL_RESIZE: buf.append(", Tashkeel resize"); break;
}
switch (options & DIGITS_MASK) {
case DIGITS_NOOP: buf.append(", no digit shaping"); break;
case DIGITS_EN2AN: buf.append(", shape digits to AN"); break;
case DIGITS_AN2EN: buf.append(", shape digits to EN"); break;
case DIGITS_EN2AN_INIT_LR: buf.append(", shape digits to AN contextually: default EN"); break;
case DIGITS_EN2AN_INIT_AL: buf.append(", shape digits to AN contextually: default AL"); break;
}
switch (options & DIGIT_TYPE_MASK) {
case DIGIT_TYPE_AN: buf.append(", standard Arabic-Indic digits"); break;
case DIGIT_TYPE_AN_EXTENDED: buf.append(", extended Arabic-Indic digits"); break;
}
buf.append("]");
return buf.toString();
}
///CLOVER:ON
//
// ported api
//
private static final int IRRELEVANT = 4;
private static final int LAMTYPE = 16;
private static final int ALEFTYPE = 32;
private static final int LINKR = 1;
private static final int LINKL = 2;
private static final int LINK_MASK = 3;
private static final int irrelevantPos[] = {
0x0, 0x2, 0x4, 0x6, 0x8, 0xA, 0xC, 0xE
};
/*
private static final char convertLamAlef[] = {
'\u0622', // FEF5
'\u0622', // FEF6
'\u0623', // FEF7
'\u0623', // FEF8
'\u0625', // FEF9
'\u0625', // FEFA
'\u0627', // FEFB
'\u0627' // FEFC
};
*/
private static final int tailFamilyIsolatedFinal[] = {
/* FEB1 */ 1,
/* FEB2 */ 1,
/* FEB3 */ 0,
/* FEB4 */ 0,
/* FEB5 */ 1,
/* FEB6 */ 1,
/* FEB7 */ 0,
/* FEB8 */ 0,
/* FEB9 */ 1,
/* FEBA */ 1,
/* FEBB */ 0,
/* FEBC */ 0,
/* FEBD */ 1,
/* FEBE */ 1
};
private static final int tashkeelMedial[] = {
/* FE70 */ 0,
/* FE71 */ 1,
/* FE72 */ 0,
/* FE73 */ 0,
/* FE74 */ 0,
/* FE75 */ 0,
/* FE76 */ 0,
/* FE77 */ 1,
/* FE78 */ 0,
/* FE79 */ 1,
/* FE7A */ 0,
/* FE7B */ 1,
/* FE7C */ 0,
/* FE7D */ 1,
/* FE7E */ 0,
/* FE7F */ 1
};
private static final char yehHamzaToYeh[] =
{
/* isolated*/ 0xFEEF,
/* final */ 0xFEF0
};
private static final char convertNormalizedLamAlef[] = {
'\u0622', // 065C
'\u0623', // 065D
'\u0625', // 065E
'\u0627', // 065F
};
private static final int[] araLink = {
1 + 32 + 256 * 0x11, /*0x0622*/
1 + 32 + 256 * 0x13, /*0x0623*/
1 + 256 * 0x15, /*0x0624*/
1 + 32 + 256 * 0x17, /*0x0625*/
1 + 2 + 256 * 0x19, /*0x0626*/
1 + 32 + 256 * 0x1D, /*0x0627*/
1 + 2 + 256 * 0x1F, /*0x0628*/
1 + 256 * 0x23, /*0x0629*/
1 + 2 + 256 * 0x25, /*0x062A*/
1 + 2 + 256 * 0x29, /*0x062B*/
1 + 2 + 256 * 0x2D, /*0x062C*/
1 + 2 + 256 * 0x31, /*0x062D*/
1 + 2 + 256 * 0x35, /*0x062E*/
1 + 256 * 0x39, /*0x062F*/
1 + 256 * 0x3B, /*0x0630*/
1 + 256 * 0x3D, /*0x0631*/
1 + 256 * 0x3F, /*0x0632*/
1 + 2 + 256 * 0x41, /*0x0633*/
1 + 2 + 256 * 0x45, /*0x0634*/
1 + 2 + 256 * 0x49, /*0x0635*/
1 + 2 + 256 * 0x4D, /*0x0636*/
1 + 2 + 256 * 0x51, /*0x0637*/
1 + 2 + 256 * 0x55, /*0x0638*/
1 + 2 + 256 * 0x59, /*0x0639*/
1 + 2 + 256 * 0x5D, /*0x063A*/
0, 0, 0, 0, 0, /*0x063B-0x063F*/
1 + 2, /*0x0640*/
1 + 2 + 256 * 0x61, /*0x0641*/
1 + 2 + 256 * 0x65, /*0x0642*/
1 + 2 + 256 * 0x69, /*0x0643*/
1 + 2 + 16 + 256 * 0x6D, /*0x0644*/
1 + 2 + 256 * 0x71, /*0x0645*/
1 + 2 + 256 * 0x75, /*0x0646*/
1 + 2 + 256 * 0x79, /*0x0647*/
1 + 256 * 0x7D, /*0x0648*/
1 + 256 * 0x7F, /*0x0649*/
1 + 2 + 256 * 0x81, /*0x064A*/
4, 4, 4, 4, /*0x064B-0x064E*/
4, 4, 4, 4, /*0x064F-0x0652*/
4, 4, 4, 0, 0, /*0x0653-0x0657*/
0, 0, 0, 0, /*0x0658-0x065B*/
1 + 256 * 0x85, /*0x065C*/
1 + 256 * 0x87, /*0x065D*/
1 + 256 * 0x89, /*0x065E*/
1 + 256 * 0x8B, /*0x065F*/
0, 0, 0, 0, 0, /*0x0660-0x0664*/
0, 0, 0, 0, 0, /*0x0665-0x0669*/
0, 0, 0, 0, 0, 0, /*0x066A-0x066F*/
4, /*0x0670*/
1 + 32 - 256 * 0x320, /*0x0671*/
1 + 32, /*0x0672*/
1 + 32, /*0x0673*/
0, /*0x0674*/
1 + 32, /*0x0675*/
1, 1, /*0x0676-0x0677*/
1+2, /*0x0678*/
1+2 - 256 * 0x30A, /*0x0679*/
1+2 - 256 * 0x312, /*0x067A*/
1+2 - 256 * 0x31E, /*0x067B*/
1+2, 1+2, /*0x067C-0x067D*/
1+2 - 256 * 0x31A, /*0x067E*/
1+2 - 256 * 0x30E, /*0x067F*/
1+2 - 256 * 0x316, /*0x0680*/
1+2, 1+2, /*0x0681-0x0682*/
1+2 - 256 * 0x2FA, /*0x0683*/
1+2 - 256 * 0x2FE, /*0x0684*/
1+2, /*0x685*/
1+2 - 256 * 0x2F6, /*0x0686*/
1+2 - 256 * 0x2F2, /*0x0687*/
1 - 256 * 0x2E8, /*0x0688*/
1, 1, 1, /*0x0689-068B*/
1 - 256 * 0x2EC, /*0x068C*/
1 - 256 * 0x2EE, /*0x068D*/
1 - 256 * 0x2EA, /*0x068E*/
1, 1, /*0x068F-0x0690*/
1 - 256 * 0x2E4, /*0x0691*/
1, 1, 1, 1, 1, 1, /*0x0692-0x697*/
1 - 256 * 0x2E6, /*0x698*/
1, /*0x0699*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x069A-0x069F*/
1+2, 1+2, 1+2, 1+2, /*0x06A0-0x06A3*/
1+2 - 256 * 0x306, /*0x06A4*/
1+2, /*0x06A5*/
1+2 - 256 * 0x302, /*0x06A6*/
1+2, 1+2, /*0x06A7-0x06A8*/
1+2 - 256 * 0x2E2, /*0x06A9*/
1+2, 1+2, 1+2, /*0x06AA-0x06AC*/
1+2 - 256 * 0x29D, /*0x06AD*/
1+2, /*0x06AE*/
1+2 - 256 * 0x2DE, /*0x06AF*/
1+2, /*0x06B0*/
1+2 - 256 * 0x2D6, /*0x06B1*/
1+2, /*0x06B2*/
1+2 - 256 * 0x2DA, /*0x06B3*/
1+2, 1+2, 1+2, 1+2, /*0x06B4-0x06B7*/
1+2, 1+2, /*0x06B8-0x06B9*/
1 - 256 * 0x2D2, /*0x06BA note: In UCD it is Dual joining but in Arabic PF-A there are only R glyphs*/
1+2 - 256 * 0x2D0, /*0x06BB*/
1+2, 1+2, /*0x06BC-0x06BD*/
1+2 - 256 * 0x2C6, /*0x06BE*/
1+2, /*0x06BF*/
1 - 256 * 0x2CC, /*0x06C0*/
1+2 - 256 * 0x2CA, /*0x06C1*/
1, 1, 1, /*0x06C2-0x06C4*/
1 - 256 * 0x290, /*0x06C5*/
1 - 256 * 0x297, /*0x06C6*/
1 - 256 * 0x299, /*0x06C7*/
1 - 256 * 0x295, /*0x06C8*/
1 - 256 * 0x28E, /*0x06C9*/
1, /*0x06CA*/
1 - 256 * 0x292, /*0x06CB*/
1+2 - 256 * 0x274, /*0x06CC*/
1, /*0x06CD*/
1+2, 1+2, /*0x06CE-0x06CF*/
1+2 - 256 * 0x28C, /*0x06D0*/
1+2, /*0x06D1*/
1 - 256 * 0x2C2, /*0x06D2*/
1 - 256 * 0x2C0 /*0x06D3*/
};
private static final int[] presALink = {
1 + 32, 1 + 32, /*0xFB50-0xFB51*/
1+2, 1+2, 1+2, 1+2, /*0xFB52-0xFB55*/
1+2, 1+2, 1+2, 1+2, /*0xFB56-0xFB59*/
1+2, 1+2, 1+2, 1+2, /*0xFB5A-0xFB5D*/
1+2, 1+2, 1+2, 1+2, /*0xFB5E-0xFB61*/
1+2, 1+2, 1+2, 1+2, /*0xFB62-0xFB65*/
1+2, 1+2, 1+2, 1+2, /*0xFB66-0xFB69*/
1+2, 1+2, 1+2, 1+2, /*0xFB6A-0xFB6D*/
1+2, 1+2, 1+2, 1+2, /*0xFB6E-0xFB71*/
1+2, 1+2, 1+2, 1+2, /*0xFB72-0xFB75*/
1+2, 1+2, 1+2, 1+2, /*0xFB76-0xFB79*/
1+2, 1+2, 1+2, 1+2, /*0xFB7A-0xFB7D*/
1+2, 1+2, 1+2, 1+2, /*0xFB7E-0xFB81*/
1, 1, 1, 1, 1, 1, 1, 1, /*0xFB82-0xFB89*/
1, 1, 1, 1, /*0xFB8A-0xFB8D*/
1+2, 1+2, 1+2, 1+2, /*0xFB8E-0xFB91*/
1+2, 1+2, 1+2, 1+2, /*0xFB92-0xFB95*/
1+2, 1+2, 1+2, 1+2, /*0xFB96-0xFB99*/
1+2, 1+2, 1+2, 1+2, /*0xFB9A-0xFB9D*/
1, 1, /*0xFB9E-0xFB9F*/
1+2, 1+2, 1+2, 1+2, /*0xFBA0-0xFBA3*/
1, 1, /*0xFBA4-0xFBA5*/
1+2, 1+2, 1+2, 1+2, /*0xFBA6-0xFBA9*/
1+2, 1+2, 1+2, 1+2, /*0xFBAA-0xFBAD*/
1, 1, 1, 1, /*0xFBAE-0xFBB1*/
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /*0xFBB2-0xFBBB*/
0, 0, 0, 0, 0, 0, /*0xFBBC-0xFBC1*/
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /*0xFBC2-0xFBCB*/
0, 0, 0, 0, 0, 0, 0, /*0xFBCC-0xFBD2*/
1+2, 1+2, 1+2, 1+2, /*0xFBD3-0xFBD6*/
1, 1, 1, 1, 1, 1, /*0xFBD7-0xFBDC*/
1, /*0xFBDD*/
1, 1, 1, 1, 1, 1, /*0xFBDE-0xFBE3*/
1+2, 1+2, 1+2, 1+2, /*0xFBE4-0xFBE7*/
1, 1 /*0xFBE8-0xFBE9*/
};
private static final int[] presBLink = {
1 + 2, /*0xFE70*/
1 + 2, /*0xFE71*/
1 + 2, 0, 1+ 2, 0, 1+ 2, /*0xFE72-0xFE76*/
1 + 2, /*0xFE77*/
1+ 2, 1 + 2, 1+2, 1 + 2, /*0xFE78-0xFE81*/
1+ 2, 1 + 2, 1+2, 1 + 2, /*0xFE82-0xFE85*/
0, 0 + 32, 1 + 32, 0 + 32, /*0xFE86-0xFE89*/
1 + 32, 0, 1, 0 + 32, /*0xFE8A-0xFE8D*/
1 + 32, 0, 2, 1 + 2, /*0xFE8E-0xFE91*/
1, 0 + 32, 1 + 32, 0, /*0xFE92-0xFE95*/
2, 1 + 2, 1, 0, /*0xFE96-0xFE99*/
1, 0, 2, 1 + 2, /*0xFE9A-0xFE9D*/
1, 0, 2, 1 + 2, /*0xFE9E-0xFEA1*/
1, 0, 2, 1 + 2, /*0xFEA2-0xFEA5*/
1, 0, 2, 1 + 2, /*0xFEA6-0xFEA9*/
1, 0, 2, 1 + 2, /*0xFEAA-0xFEAD*/
1, 0, 1, 0, /*0xFEAE-0xFEB1*/
1, 0, 1, 0, /*0xFEB2-0xFEB5*/
1, 0, 2, 1+2, /*0xFEB6-0xFEB9*/
1, 0, 2, 1+2, /*0xFEBA-0xFEBD*/
1, 0, 2, 1+2, /*0xFEBE-0xFEC1*/
1, 0, 2, 1+2, /*0xFEC2-0xFEC5*/
1, 0, 2, 1+2, /*0xFEC6-0xFEC9*/
1, 0, 2, 1+2, /*0xFECA-0xFECD*/
1, 0, 2, 1+2, /*0xFECE-0xFED1*/
1, 0, 2, 1+2, /*0xFED2-0xFED5*/
1, 0, 2, 1+2, /*0xFED6-0xFED9*/
1, 0, 2, 1+2, /*0xFEDA-0xFEDD*/
1, 0, 2, 1+2, /*0xFEDE-0xFEE1*/
1, 0 + 16, 2 + 16, 1 + 2 +16, /*0xFEE2-0xFEE5*/
1 + 16, 0, 2, 1+2, /*0xFEE6-0xFEE9*/
1, 0, 2, 1+2, /*0xFEEA-0xFEED*/
1, 0, 2, 1+2, /*0xFEEE-0xFEF1*/
1, 0, 1, 0, /*0xFEF2-0xFEF5*/
1, 0, 2, 1+2, /*0xFEF6-0xFEF9*/
1, 0, 1, 0, /*0xFEFA-0xFEFD*/
1, 0, 1, 0,
1
};
private static int[] convertFEto06 = {
/***********0******1******2******3******4******5******6******7******8******9******A******B******C******D******E******F***/
/*FE7*/ 0x64B, 0x64B, 0x64C, 0x64C, 0x64D, 0x64D, 0x64E, 0x64E, 0x64F, 0x64F, 0x650, 0x650, 0x651, 0x651, 0x652, 0x652,
/*FE8*/ 0x621, 0x622, 0x622, 0x623, 0x623, 0x624, 0x624, 0x625, 0x625, 0x626, 0x626, 0x626, 0x626, 0x627, 0x627, 0x628,
/*FE9*/ 0x628, 0x628, 0x628, 0x629, 0x629, 0x62A, 0x62A, 0x62A, 0x62A, 0x62B, 0x62B, 0x62B, 0x62B, 0x62C, 0x62C, 0x62C,
/*FEA*/ 0x62C, 0x62D, 0x62D, 0x62D, 0x62D, 0x62E, 0x62E, 0x62E, 0x62E, 0x62F, 0x62F, 0x630, 0x630, 0x631, 0x631, 0x632,
/*FEB*/ 0x632, 0x633, 0x633, 0x633, 0x633, 0x634, 0x634, 0x634, 0x634, 0x635, 0x635, 0x635, 0x635, 0x636, 0x636, 0x636,
/*FEC*/ 0x636, 0x637, 0x637, 0x637, 0x637, 0x638, 0x638, 0x638, 0x638, 0x639, 0x639, 0x639, 0x639, 0x63A, 0x63A, 0x63A,
/*FED*/ 0x63A, 0x641, 0x641, 0x641, 0x641, 0x642, 0x642, 0x642, 0x642, 0x643, 0x643, 0x643, 0x643, 0x644, 0x644, 0x644,
/*FEE*/ 0x644, 0x645, 0x645, 0x645, 0x645, 0x646, 0x646, 0x646, 0x646, 0x647, 0x647, 0x647, 0x647, 0x648, 0x648, 0x649,
/*FEF*/ 0x649, 0x64A, 0x64A, 0x64A, 0x64A, 0x65C, 0x65C, 0x65D, 0x65D, 0x65E, 0x65E, 0x65F, 0x65F
};
private static final int shapeTable[][][] = {
{ {0,0,0,0}, {0,0,0,0}, {0,1,0,3}, {0,1,0,1} },
{ {0,0,2,2}, {0,0,1,2}, {0,1,1,2}, {0,1,1,3} },
{ {0,0,0,0}, {0,0,0,0}, {0,1,0,3}, {0,1,0,3} },
{ {0,0,1,2}, {0,0,1,2}, {0,1,1,2}, {0,1,1,3} }
};
/*
* This function shapes European digits to Arabic-Indic digits
* in-place, writing over the input characters. Data is in visual
* order.
*/
@SuppressWarnings("deprecation")
private void shapeToArabicDigitsWithContext(char[] dest,
int start,
int length,
char digitBase,
boolean lastStrongWasAL) {
UBiDiProps bdp=UBiDiProps.INSTANCE;
digitBase -= '0'; // move common adjustment out of loop
for(int i = start + length; --i >= start;) {
char ch = dest[i];
switch (bdp.getClass(ch)) {
case UCharacterDirection.LEFT_TO_RIGHT:
case UCharacterDirection.RIGHT_TO_LEFT:
lastStrongWasAL = false;
break;
case UCharacterDirection.RIGHT_TO_LEFT_ARABIC:
lastStrongWasAL = true;
break;
case UCharacterDirection.EUROPEAN_NUMBER:
if (lastStrongWasAL && ch <= '\u0039') {
dest[i] = (char)(ch + digitBase);
}
break;
default:
break;
}
}
}
/*
* Name : invertBuffer
* Function: This function inverts the buffer, it's used
* in case the user specifies the buffer to be
* TEXT_DIRECTION_LOGICAL
*/
private static void invertBuffer(char[] buffer,
int start,
int length) {
for(int i = start, j = start + length - 1; i < j; i++, --j) {
char temp = buffer[i];
buffer[i] = buffer[j];
buffer[j] = temp;
}
}
/*
* Name : changeLamAlef
* Function: Converts the Alef characters into an equivalent
* LamAlef location in the 0x06xx Range, this is an
* intermediate stage in the operation of the program
* later it'll be converted into the 0xFExx LamAlefs
* in the shaping function.
*/
private static char changeLamAlef(char ch) {
switch(ch) {
case '\u0622': return '\u065C';
case '\u0623': return '\u065D';
case '\u0625': return '\u065E';
case '\u0627': return '\u065F';
default: return '\u0000'; // not a lamalef
}
}
/*
* Name : specialChar
* Function: Special Arabic characters need special handling in the shapeUnicode
* function, this function returns 1 or 2 for these special characters
*/
private static int specialChar(char ch) {
if ((ch > '\u0621' && ch < '\u0626') ||
(ch == '\u0627') ||
(ch > '\u062E' && ch < '\u0633') ||
(ch > '\u0647' && ch < '\u064A') ||
(ch == '\u0629')) {
return 1;
} else if (ch >= '\u064B' && ch<= '\u0652') {
return 2;
} else if (ch >= 0x0653 && ch <= 0x0655 ||
ch == 0x0670 ||
ch >= 0xFE70 && ch <= 0xFE7F) {
return 3;
} else {
return 0;
}
}
/*
* Name : getLink
* Function: Resolves the link between the characters as
* Arabic characters have four forms :
* Isolated, Initial, Middle and Final Form
*/
private static int getLink(char ch) {
if (ch >= '\u0622' && ch <= '\u06D3') {
return araLink[ch - '\u0622'];
} else if (ch == '\u200D') {
return 3;
} else if (ch >= '\u206D' && ch <= '\u206F') {
return 4;
} else if (ch >= '\uFE70' && ch <= '\uFEFC') {
return presBLink[ch - '\uFE70'];
} else if (ch >= '\uFB50' && ch <= '\uFBE9') {
return presALink[ch - '\uFB50'];
} else {
return 0;
}
}
/*
* Name : countSpaces
* Function: Counts the number of spaces
* at each end of the logical buffer
*/
private static int countSpacesLeft(char[] dest,
int start,
int count) {
for (int i = start, e = start + count; i < e; ++i) {
if (dest[i] != SPACE_CHAR) {
return i - start;
}
}
return count;
}
private static int countSpacesRight(char[] dest,
int start,
int count) {
for (int i = start + count; --i >= start;) {
if (dest[i] != SPACE_CHAR) {
return start + count - 1 - i;
}
}
return count;
}
/*
* Name : isTashkeelChar
* Function: Returns true for Tashkeel characters else return false
*/
private static boolean isTashkeelChar(char ch) {
return ( ch >='\u064B' && ch <= '\u0652' );
}
/*
*Name : isSeenTailFamilyChar
*Function : returns 1 if the character is a seen family isolated character
* in the FE range otherwise returns 0
*/
private static int isSeenTailFamilyChar(char ch) {
if (ch >= 0xfeb1 && ch < 0xfebf){
return tailFamilyIsolatedFinal [ch - 0xFEB1];
} else {
return 0;
}
}
/* Name : isSeenFamilyChar
* Function : returns 1 if the character is a seen family character in the Unicode
* 06 range otherwise returns 0
*/
private static int isSeenFamilyChar(char ch){
if (ch >= 0x633 && ch <= 0x636){
return 1;
}else {
return 0;
}
}
/*
*Name : isTailChar
*Function : returns true if the character matches one of the tail characters
* (0xfe73 or 0x200b) otherwise returns false
*/
private static boolean isTailChar(char ch) {
if(ch == OLD_TAIL_CHAR || ch == NEW_TAIL_CHAR){
return true;
}else{
return false;
}
}
/*
*Name : isAlefMaksouraChar
*Function : returns true if the character is a Alef Maksoura Final or isolated
* otherwise returns false
*/
private static boolean isAlefMaksouraChar(char ch) {
return ( (ch == 0xFEEF) || ( ch == 0xFEF0) || (ch == 0x0649));
}
/*
* Name : isYehHamzaChar
* Function : returns true if the character is a yehHamza isolated or yehhamza
* final is found otherwise returns false
*/
private static boolean isYehHamzaChar(char ch) {
if((ch==0xFE89)||(ch==0xFE8A)){
return true;
}else{
return false;
}
}
/*
*Name : isTashkeelCharFE
*Function : Returns true for Tashkeel characters in FE range else return false
*/
private static boolean isTashkeelCharFE(char ch) {
return ( ch!=0xFE75 &&(ch>=0xFE70 && ch<= 0xFE7F) );
}
/*
* Name: isTashkeelOnTatweelChar
* Function: Checks if the Tashkeel Character is on Tatweel or not,if the
* Tashkeel on tatweel (FE range), it returns 1 else if the
* Tashkeel with shadda on tatweel (FC range)return 2 otherwise
* returns 0
*/
private static int isTashkeelOnTatweelChar(char ch){
if (ch >= 0xfe70 && ch <= 0xfe7f && ch != NEW_TAIL_CHAR && ch != 0xFE75 && ch != SHADDA_TATWEEL_CHAR)
{
return tashkeelMedial [ch - 0xFE70];
} else if( (ch >= 0xfcf2 && ch <= 0xfcf4) || (ch == SHADDA_TATWEEL_CHAR)) {
return 2;
} else {
return 0;
}
}
/*
* Name: isIsolatedTashkeelChar
* Function: Checks if the Tashkeel Character is in the isolated form
* (i.e. Unicode FE range) returns 1 else if the Tashkeel
* with shadda is in the isolated form (i.e. Unicode FC range)
* returns 1 otherwise returns 0
*/
private static int isIsolatedTashkeelChar(char ch){
if (ch >= 0xfe70 && ch <= 0xfe7f && ch != NEW_TAIL_CHAR && ch != 0xFE75){
return (1 - tashkeelMedial [ch - 0xFE70]);
} else if(ch >= 0xfc5e && ch <= 0xfc63){
return 1;
} else{
return 0;
}
}
/*
* Name : isAlefChar
* Function: Returns 1 for Alef characters else return 0
*/
private static boolean isAlefChar(char ch) {
return ch == '\u0622' || ch == '\u0623' || ch == '\u0625' || ch == '\u0627';
}
/*
* Name : isLamAlefChar
* Function: Returns true for LamAlef characters else return false
*/
private static boolean isLamAlefChar(char ch) {
return ch >= '\uFEF5' && ch <= '\uFEFC';
}
private static boolean isNormalizedLamAlefChar(char ch) {
return ch >= '\u065C' && ch <= '\u065F';
}
/*
* Name : calculateSize
* Function: This function calculates the destSize to be used in preflighting
* when the destSize is equal to 0
*/
private int calculateSize(char[] source,
int sourceStart,
int sourceLength) {
int destSize = sourceLength;
switch (options & LETTERS_MASK) {
case LETTERS_SHAPE:
case LETTERS_SHAPE_TASHKEEL_ISOLATED:
if (isLogical) {
for (int i = sourceStart, e = sourceStart + sourceLength - 1; i < e; ++i) {
if ((source[i] == LAM_CHAR && isAlefChar(source[i+1])) || isTashkeelCharFE(source[i])){
--destSize;
}
}
} else { // visual
for(int i = sourceStart + 1, e = sourceStart + sourceLength; i < e; ++i) {
if ((source[i] == LAM_CHAR && isAlefChar(source[i-1])) || isTashkeelCharFE(source[i])) {
--destSize;
}
}
}
break;
case LETTERS_UNSHAPE:
for(int i = sourceStart, e = sourceStart + sourceLength; i < e; ++i) {
if (isLamAlefChar(source[i])) {
destSize++;
}
}
break;
default:
break;
}
return destSize;
}
/*
* Name : countSpaceSub
* Function: Counts number of times the subChar appears in the array
*/
private static int countSpaceSub(char [] dest,int length, char subChar){
int i = 0;
int count = 0;
while (i < length) {
if (dest[i] == subChar) {
count++;
}
i++;
}
return count;
}
/*
* Name : shiftArray
* Function: Shifts characters to replace space sub characters
*/
private static void shiftArray(char [] dest,int start, int e, char subChar){
int w = e;
int r = e;
while (--r >= start) {
char ch = dest[r];
if (ch != subChar) {
--w;
if (w != r) {
dest[w] = ch;
}
}
}
}
/*
* Name : flipArray
* Function: inverts array, so that start becomes end and vice versa
*/
private static int flipArray(char [] dest, int start, int e, int w){
int r;
if (w > start) {
// shift, assume small buffer size so don't use arraycopy
r = w;
w = start;
while (r < e) {
dest[w++] = dest[r++];
}
} else {
w = e;
}
return w;
}
/*
* Name : handleTashkeelWithTatweel
* Function : Replaces Tashkeel as following:
* Case 1 :if the Tashkeel on tatweel, replace it with Tatweel.
* Case 2 :if the Tashkeel aggregated with Shadda on Tatweel, replace
* it with Shadda on Tatweel.
* Case 3: if the Tashkeel is isolated replace it with Space.
*
*/
private static int handleTashkeelWithTatweel(char[] dest, int sourceLength) {
int i;
for(i = 0; i < sourceLength; i++){
if((isTashkeelOnTatweelChar(dest[i]) == 1)){
dest[i] = TATWEEL_CHAR;
}else if((isTashkeelOnTatweelChar(dest[i]) == 2)){
dest[i] = SHADDA_TATWEEL_CHAR;
}else if((isIsolatedTashkeelChar(dest[i])==1) && dest[i] != SHADDA_CHAR){
dest[i] = SPACE_CHAR;
}
}
return sourceLength;
}
/*
*Name : handleGeneratedSpaces
*Function : The shapeUnicode function converts Lam + Alef into LamAlef + space,
* and Tashkeel to space.
* handleGeneratedSpaces function puts these generated spaces
* according to the options the user specifies. LamAlef and Tashkeel
* spaces can be replaced at begin, at end, at near or decrease the
* buffer size.
*
* There is also Auto option for LamAlef and tashkeel, which will put
* the spaces at end of the buffer (or end of text if the user used
* the option SPACES_RELATIVE_TO_TEXT_BEGIN_END).
*
* If the text type was visual_LTR and the option
* SPACES_RELATIVE_TO_TEXT_BEGIN_END was selected the END
* option will place the space at the beginning of the buffer and
* BEGIN will place the space at the end of the buffer.
*/
private int handleGeneratedSpaces(char[] dest,
int start,
int length) {
int lenOptionsLamAlef = options & LAMALEF_MASK;
int lenOptionsTashkeel = options & TASHKEEL_MASK;
boolean lamAlefOn = false;
boolean tashkeelOn = false;
if (!isLogical & !spacesRelativeToTextBeginEnd) {
switch (lenOptionsLamAlef) {
case LAMALEF_BEGIN: lenOptionsLamAlef = LAMALEF_END; break;
case LAMALEF_END: lenOptionsLamAlef = LAMALEF_BEGIN; break;
default: break;
}
switch (lenOptionsTashkeel){
case TASHKEEL_BEGIN: lenOptionsTashkeel = TASHKEEL_END; break;
case TASHKEEL_END: lenOptionsTashkeel = TASHKEEL_BEGIN; break;
default: break;
}
}
if (lenOptionsLamAlef == LAMALEF_NEAR) {
for (int i = start, e = i + length; i < e; ++i) {
if (dest[i] == LAMALEF_SPACE_SUB) {
dest[i] = SPACE_CHAR;
}
}
} else {
final int e = start + length;
int wL = countSpaceSub(dest, length, LAMALEF_SPACE_SUB);
int wT = countSpaceSub(dest, length, TASHKEEL_SPACE_SUB);
if (lenOptionsLamAlef == LAMALEF_END){
lamAlefOn = true;
}
if (lenOptionsTashkeel == TASHKEEL_END){
tashkeelOn = true;
}
if (lamAlefOn && (lenOptionsLamAlef == LAMALEF_END)) {
shiftArray(dest, start, e, LAMALEF_SPACE_SUB);
while (wL > start) {
dest[--wL] = SPACE_CHAR;
}
}
if (tashkeelOn && (lenOptionsTashkeel == TASHKEEL_END)){
shiftArray(dest, start, e, TASHKEEL_SPACE_SUB);
while (wT > start) {
dest[--wT] = SPACE_CHAR;
}
}
lamAlefOn = false;
tashkeelOn = false;
if (lenOptionsLamAlef == LAMALEF_RESIZE){
lamAlefOn = true;
}
if (lenOptionsTashkeel == TASHKEEL_RESIZE){
tashkeelOn = true;
}
if (lamAlefOn && (lenOptionsLamAlef == LAMALEF_RESIZE)){
shiftArray(dest, start, e, LAMALEF_SPACE_SUB);
wL = flipArray(dest,start,e, wL);
length = wL - start;
}
if (tashkeelOn && (lenOptionsTashkeel == TASHKEEL_RESIZE)) {
shiftArray(dest, start, e, TASHKEEL_SPACE_SUB);
wT = flipArray(dest,start,e, wT);
length = wT - start;
}
lamAlefOn = false;
tashkeelOn = false;
if ((lenOptionsLamAlef == LAMALEF_BEGIN) ||
(lenOptionsLamAlef == LAMALEF_AUTO)){
lamAlefOn = true;
}
if (lenOptionsTashkeel == TASHKEEL_BEGIN){
tashkeelOn = true;
}
if (lamAlefOn && ((lenOptionsLamAlef == LAMALEF_BEGIN)||
(lenOptionsLamAlef == LAMALEF_AUTO))) { // spaces at beginning
shiftArray(dest, start, e, LAMALEF_SPACE_SUB);
wL = flipArray(dest,start,e, wL);
while (wL < e) {
dest[wL++] = SPACE_CHAR;
}
}
if(tashkeelOn && (lenOptionsTashkeel == TASHKEEL_BEGIN)){
shiftArray(dest, start, e, TASHKEEL_SPACE_SUB);
wT = flipArray(dest,start,e, wT);
while (wT < e) {
dest[wT++] = SPACE_CHAR;
}
}
}
return length;
}
/*
*Name :expandCompositCharAtBegin
*Function :Expands the LamAlef character to Lam and Alef consuming the required
* space from beginning of the buffer. If the text type was visual_LTR
* and the option SPACES_RELATIVE_TO_TEXT_BEGIN_END was selected
* the spaces will be located at end of buffer.
* If there are no spaces to expand the LamAlef, an exception is thrown.
*/
private boolean expandCompositCharAtBegin(char[] dest,int start, int length,
int lacount) {
boolean spaceNotFound = false;
if (lacount > countSpacesRight(dest, start, length)) {
spaceNotFound = true;
return spaceNotFound;
}
for (int r = start + length - lacount, w = start + length; --r >= start;) {
char ch = dest[r];
if (isNormalizedLamAlefChar(ch)) {
dest[--w] = LAM_CHAR;
dest[--w] = convertNormalizedLamAlef[ch - '\u065C'];
} else {
dest[--w] = ch;
}
}
return spaceNotFound;
}
/*
*Name : expandCompositCharAtEnd
*Function : Expands the LamAlef character to Lam and Alef consuming the
* required space from end of the buffer. If the text type was
* Visual LTR and the option SPACES_RELATIVE_TO_TEXT_BEGIN_END
* was used, the spaces will be consumed from begin of buffer. If
* there are no spaces to expand the LamAlef, an exception is thrown.
*/
private boolean expandCompositCharAtEnd(char[] dest,int start, int length,
int lacount){
boolean spaceNotFound = false;
if (lacount > countSpacesLeft(dest, start, length)) {
spaceNotFound = true;
return spaceNotFound;
}
for (int r = start + lacount, w = start, e = start + length; r < e; ++r) {
char ch = dest[r];
if (isNormalizedLamAlefChar(ch)) {
dest[w++] = convertNormalizedLamAlef[ch - '\u065C'];
dest[w++] = LAM_CHAR;
} else {
dest[w++] = ch;
}
}
return spaceNotFound;
}
/*
*Name : expandCompositCharAtNear
*Function : Expands the LamAlef character into Lam + Alef, YehHamza character
* into Yeh + Hamza, SeenFamily character into SeenFamily character
* + Tail, while consuming the space next to the character.
*/
private boolean expandCompositCharAtNear(char[] dest,int start, int length,
int yehHamzaOption, int seenTailOption, int lamAlefOption){
boolean spaceNotFound = false;
if (isNormalizedLamAlefChar(dest[start])) {
spaceNotFound = true;
return spaceNotFound;
}
for (int i = start + length; --i >=start;) {
char ch = dest[i];
if (lamAlefOption == 1 && isNormalizedLamAlefChar(ch)) {
if (i>start &&dest[i-1] == SPACE_CHAR) {
dest[i] = LAM_CHAR;
dest[--i] = convertNormalizedLamAlef[ch - '\u065C'];
} else {
spaceNotFound = true;
return spaceNotFound;
}
}else if(seenTailOption == 1 && isSeenTailFamilyChar(ch) == 1){
if(i>start &&dest[i-1] == SPACE_CHAR){
dest[i-1] = tailChar;
} else{
spaceNotFound = true;
return spaceNotFound;
}
}else if(yehHamzaOption == 1 && isYehHamzaChar(ch)){
if(i>start &&dest[i-1] == SPACE_CHAR){
dest[i] = yehHamzaToYeh[ch - YEH_HAMZAFE_CHAR];
dest[i-1] = HAMZAFE_CHAR;
}else{
spaceNotFound = true;
return spaceNotFound;
}
}
}
return false;
}
/*
* Name : expandCompositChar
* Function: LamAlef needs special handling as the LamAlef is
* one character while expanding it will give two
* characters Lam + Alef, so we need to expand the LamAlef
* in near or far spaces according to the options the user
* specifies or increase the buffer size.
* Dest has enough room for the expansion if we are growing.
* lamalef are normalized to the 'special characters'
*/
private int expandCompositChar(char[] dest,
int start,
int length,
int lacount,
int shapingMode) throws ArabicShapingException {
int lenOptionsLamAlef = options & LAMALEF_MASK;
int lenOptionsSeen = options & SEEN_MASK;
int lenOptionsYehHamza = options & YEHHAMZA_MASK;
boolean spaceNotFound = false;
if (!isLogical && !spacesRelativeToTextBeginEnd) {
switch (lenOptionsLamAlef) {
case LAMALEF_BEGIN: lenOptionsLamAlef = LAMALEF_END; break;
case LAMALEF_END: lenOptionsLamAlef = LAMALEF_BEGIN; break;
default: break;
}
}
if(shapingMode == 1){
if(lenOptionsLamAlef == LAMALEF_AUTO){
if(isLogical){
spaceNotFound = expandCompositCharAtEnd(dest, start, length, lacount);
if(spaceNotFound){
spaceNotFound = expandCompositCharAtBegin(dest, start, length, lacount);
}
if(spaceNotFound){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,0,1);
}
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else{
spaceNotFound = expandCompositCharAtBegin(dest, start, length, lacount);
if(spaceNotFound){
spaceNotFound = expandCompositCharAtEnd(dest, start, length, lacount);
}
if(spaceNotFound){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,0,1);
}
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}
}else if(lenOptionsLamAlef == LAMALEF_END){
spaceNotFound = expandCompositCharAtEnd(dest, start, length, lacount);
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else if(lenOptionsLamAlef == LAMALEF_BEGIN){
spaceNotFound = expandCompositCharAtBegin(dest, start, length, lacount);
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else if(lenOptionsLamAlef == LAMALEF_NEAR){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,0,1);
if(spaceNotFound){
throw new ArabicShapingException("No spacefor lamalef");
}
}else if(lenOptionsLamAlef == LAMALEF_RESIZE){
for (int r = start + length, w = r + lacount; --r >= start;) {
char ch = dest[r];
if (isNormalizedLamAlefChar(ch)) {
dest[--w] = '\u0644';
dest[--w] = convertNormalizedLamAlef[ch - '\u065C'];
} else {
dest[--w] = ch;
}
}
length += lacount;
}
}else{
if(lenOptionsSeen == SEEN_TWOCELL_NEAR){
spaceNotFound = expandCompositCharAtNear(dest, start, length,0,1,0);
if(spaceNotFound){
throw new ArabicShapingException("No space for Seen tail expansion");
}
}
if(lenOptionsYehHamza == YEHHAMZA_TWOCELL_NEAR){
spaceNotFound = expandCompositCharAtNear(dest, start, length,1,0,0);
if(spaceNotFound){
throw new ArabicShapingException("No space for YehHamza expansion");
}
}
}
return length;
}
/* Convert the input buffer from FExx Range into 06xx Range
* to put all characters into the 06xx range
* even the lamalef is converted to the special region in
* the 06xx range. Return the number of lamalef chars found.
*/
private int normalize(char[] dest, int start, int length) {
int lacount = 0;
for (int i = start, e = i + length; i < e; ++i) {
char ch = dest[i];
if (ch >= '\uFE70' && ch <= '\uFEFC') {
if (isLamAlefChar(ch)) {
++lacount;
}
dest[i] = (char)convertFEto06[ch - '\uFE70'];
}
}
return lacount;
}
/*
* Name : deshapeNormalize
* Function: Convert the input buffer from FExx Range into 06xx Range
* even the lamalef is converted to the special region in the 06xx range.
* According to the options the user enters, all seen family characters
* followed by a tail character are merged to seen tail family character and
* any yeh followed by a hamza character are merged to yehhamza character.
* Method returns the number of lamalef chars found.
*/
private int deshapeNormalize(char[] dest, int start, int length) {
int lacount = 0;
int yehHamzaComposeEnabled = 0;
int seenComposeEnabled = 0;
yehHamzaComposeEnabled = ((options&YEHHAMZA_MASK) == YEHHAMZA_TWOCELL_NEAR) ? 1 : 0;
seenComposeEnabled = ((options&SEEN_MASK) == SEEN_TWOCELL_NEAR)? 1 : 0;
for (int i = start, e = i + length; i < e; ++i) {
char ch = dest[i];
if( (yehHamzaComposeEnabled == 1) && ((ch == HAMZA06_CHAR) || (ch == HAMZAFE_CHAR))
&& (i < (length - 1)) && isAlefMaksouraChar(dest[i+1] )) {
dest[i] = SPACE_CHAR;
dest[i+1] = YEH_HAMZA_CHAR;
} else if ( (seenComposeEnabled == 1) && (isTailChar(ch)) && (i< (length - 1))
&& (isSeenTailFamilyChar(dest[i+1])==1) ) {
dest[i] = SPACE_CHAR;
}
else if (ch >= '\uFE70' && ch <= '\uFEFC') {
if (isLamAlefChar(ch)) {
++lacount;
}
dest[i] = (char)convertFEto06[ch - '\uFE70'];
}
}
return lacount;
}
/*
* Name : shapeUnicode
* Function: Converts an Arabic Unicode buffer in 06xx Range into a shaped
* arabic Unicode buffer in FExx Range
*/
private int shapeUnicode(char[] dest,
int start,
int length,
int destSize,
int tashkeelFlag)throws ArabicShapingException {
int lamalef_count = normalize(dest, start, length);
// resolve the link between the characters.
// Arabic characters have four forms: Isolated, Initial, Medial and Final.
// Tashkeel characters have two, isolated or medial, and sometimes only isolated.
// tashkeelFlag == 0: shape normally, 1: shape isolated, 2: don't shape
boolean lamalef_found = false, seenfam_found = false;
boolean yehhamza_found = false, tashkeel_found = false;
int i = start + length - 1;
int currLink = getLink(dest[i]);
int nextLink = 0;
int prevLink = 0;
int lastLink = 0;
//int prevPos = i;
int lastPos = i;
int nx = -2;
int nw = 0;
while (i >= 0) {
// If high byte of currLink != 0 then there might be more than one shape
if ((currLink & '\uFF00') != 0 || isTashkeelChar(dest[i])) {
nw = i - 1;
nx = -2;
while (nx < 0) { // we need to know about next char
if (nw == -1) {
nextLink = 0;
nx = Integer.MAX_VALUE;
} else {
nextLink = getLink(dest[nw]);
if ((nextLink & IRRELEVANT) == 0) {
nx = nw;
} else {
--nw;
}
}
}
if (((currLink & ALEFTYPE) > 0) && ((lastLink & LAMTYPE) > 0)) {
lamalef_found = true;
char wLamalef = changeLamAlef(dest[i]); // get from 0x065C-0x065f
if (wLamalef != '\u0000') {
// replace alef by marker, it will be removed later
dest[i] = '\uffff';
dest[lastPos] = wLamalef;
i = lastPos;
}
lastLink = prevLink;
currLink = getLink(wLamalef); // requires '\u0000', unfortunately
}
if ((i > 0) && (dest[i-1] == SPACE_CHAR))
{
if ( isSeenFamilyChar(dest[i]) == 1){
seenfam_found = true;
} else if (dest[i] == YEH_HAMZA_CHAR) {
yehhamza_found = true;
}
}
else if(i==0){
if ( isSeenFamilyChar(dest[i]) == 1){
seenfam_found = true;
} else if (dest[i] == YEH_HAMZA_CHAR) {
yehhamza_found = true;
}
}
// get the proper shape according to link ability of neighbors
// and of character; depends on the order of the shapes
// (isolated, initial, middle, final) in the compatibility area
int flag = specialChar(dest[i]);
int shape = shapeTable[nextLink & LINK_MASK]
[lastLink & LINK_MASK]
[currLink & LINK_MASK];
if (flag == 1) {
shape &= 0x1;
} else if (flag == 2) {
if (tashkeelFlag == 0 &&
((lastLink & LINKL) != 0) &&
((nextLink & LINKR) != 0) &&
dest[i] != '\u064C' &&
dest[i] != '\u064D' &&
!((nextLink & ALEFTYPE) == ALEFTYPE &&
(lastLink & LAMTYPE) == LAMTYPE)) {
shape = 1;
} else if(tashkeelFlag == 2 && dest[i] == SHADDA06_CHAR){
shape = 1;
} else {
shape = 0;
}
}
if (flag == 2) {
if (tashkeelFlag == 2 && dest[i] != SHADDA06_CHAR) {
dest[i] = TASHKEEL_SPACE_SUB;
tashkeel_found = true;
}
else{
dest[i] = (char)('\uFE70' + irrelevantPos[dest[i] - '\u064B'] + shape);
}
// else leave tashkeel alone
} else {
dest[i] = (char)('\uFE70' + (currLink >> 8) + shape);
}
}
// move one notch forward
if ((currLink & IRRELEVANT) == 0) {
prevLink = lastLink;
lastLink = currLink;
//prevPos = lastPos;
lastPos = i;
}
--i;
if (i == nx) {
currLink = nextLink;
nx = -2;
} else if (i != -1) {
currLink = getLink(dest[i]);
}
}
// If we found a lam/alef pair in the buffer
// call handleGeneratedSpaces to remove the spaces that were added
destSize = length;
if (lamalef_found || tashkeel_found) {
destSize = handleGeneratedSpaces(dest, start, length);
}
if (seenfam_found || yehhamza_found){
destSize = expandCompositChar(dest, start, destSize, lamalef_count, SHAPE_MODE);
}
return destSize;
}
/*
* Name : deShapeUnicode
* Function: Converts an Arabic Unicode buffer in FExx Range into unshaped
* arabic Unicode buffer in 06xx Range
*/
private int deShapeUnicode(char[] dest,
int start,
int length,
int destSize) throws ArabicShapingException {
int lamalef_count = deshapeNormalize(dest, start, length);
// If there was a lamalef in the buffer call expandLamAlef
if (lamalef_count != 0) {
// need to adjust dest to fit expanded buffer... !!!
destSize = expandCompositChar(dest, start, length, lamalef_count,DESHAPE_MODE);
} else {
destSize = length;
}
return destSize;
}
private int internalShape(char[] source,
int sourceStart,
int sourceLength,
char[] dest,
int destStart,
int destSize) throws ArabicShapingException {
if (sourceLength == 0) {
return 0;
}
if (destSize == 0) {
if (((options & LETTERS_MASK) != LETTERS_NOOP) &&
((options & LAMALEF_MASK) == LAMALEF_RESIZE)) {
return calculateSize(source, sourceStart, sourceLength);
} else {
return sourceLength; // by definition
}
}
// always use temp buffer
char[] temp = new char[sourceLength * 2]; // all lamalefs requiring expansion
System.arraycopy(source, sourceStart, temp, 0, sourceLength);
if (isLogical) {
invertBuffer(temp, 0, sourceLength);
}
int outputSize = sourceLength;
switch (options & LETTERS_MASK) {
case LETTERS_SHAPE_TASHKEEL_ISOLATED:
outputSize = shapeUnicode(temp, 0, sourceLength, destSize, 1);
break;
case LETTERS_SHAPE:
if( ((options&TASHKEEL_MASK) != 0) &&
((options&TASHKEEL_MASK) !=TASHKEEL_REPLACE_BY_TATWEEL)) {
/* Call the shaping function with tashkeel flag == 2 for removal of tashkeel */
outputSize = shapeUnicode(temp, 0, sourceLength, destSize, 2);
}else {
//default Call the shaping function with tashkeel flag == 1 */
outputSize = shapeUnicode(temp, 0, sourceLength, destSize, 0);
/*After shaping text check if user wants to remove tashkeel and replace it with tatweel*/
if( (options&TASHKEEL_MASK) == TASHKEEL_REPLACE_BY_TATWEEL){
outputSize = handleTashkeelWithTatweel(temp,sourceLength);
}
}
break;
case LETTERS_UNSHAPE:
outputSize = deShapeUnicode(temp, 0, sourceLength, destSize);
break;
default:
break;
}
if (outputSize > destSize) {
throw new ArabicShapingException("not enough room for result data");
}
if ((options & DIGITS_MASK) != DIGITS_NOOP) {
char digitBase = '\u0030'; // European digits
switch (options & DIGIT_TYPE_MASK) {
case DIGIT_TYPE_AN:
digitBase = '\u0660'; // Arabic-Indic digits
break;
case DIGIT_TYPE_AN_EXTENDED:
digitBase = '\u06f0'; // Eastern Arabic-Indic digits (Persian and Urdu)
break;
default:
break;
}
switch (options & DIGITS_MASK) {
case DIGITS_EN2AN:
{
int digitDelta = digitBase - '\u0030';
for (int i = 0; i < outputSize; ++i) {
char ch = temp[i];
if (ch <= '\u0039' && ch >= '\u0030') {
temp[i] += digitDelta;
}
}
}
break;
case DIGITS_AN2EN:
{
char digitTop = (char)(digitBase + 9);
int digitDelta = '\u0030' - digitBase;
for (int i = 0; i < outputSize; ++i) {
char ch = temp[i];
if (ch <= digitTop && ch >= digitBase) {
temp[i] += digitDelta;
}
}
}
break;
case DIGITS_EN2AN_INIT_LR:
shapeToArabicDigitsWithContext(temp, 0, outputSize, digitBase, false);
break;
case DIGITS_EN2AN_INIT_AL:
shapeToArabicDigitsWithContext(temp, 0, outputSize, digitBase, true);
break;
default:
break;
}
}
if (isLogical) {
invertBuffer(temp, 0, outputSize);
}
System.arraycopy(temp, 0, dest, destStart, outputSize);
return outputSize;
}
}