Bidi


public class Bidi
extends Object

java.lang.Object
   ↳ android.icu.text.Bidi


Bidi algorithm for ICU

This is an implementation of the Unicode Bidirectional Algorithm. The algorithm is defined in the Unicode Standard Annex #9.

Note: Libraries that perform a bidirectional algorithm and reorder strings accordingly are sometimes called "Storage Layout Engines". ICU's Bidi and shaping (ArabicShaping) classes can be used at the core of such "Storage Layout Engines".

General remarks about the API:

The "limit" of a sequence of characters is the position just after their last character, i.e., one more than that position.

Some of the API methods provide access to "runs". Such a "run" is defined as a sequence of characters that are at the same embedding level after performing the Bidi algorithm.

Basic concept: paragraph

A piece of text can be divided into several paragraphs by characters with the Bidi class Block Separator. For handling of paragraphs, see:

Basic concept: text direction

The direction of a piece of text may be:

Basic concept: levels

Levels in this API represent embedding levels according to the Unicode Bidirectional Algorithm. Their low-order bit (even/odd value) indicates the visual direction.

Levels can be abstract values when used for the paraLevel and embeddingLevels arguments of setPara(); there:

  • the high-order bit of an embeddingLevels[] value indicates whether the using application is specifying the level of a character to override whatever the Bidi implementation would resolve it to.
  • paraLevel can be set to the pseudo-level values LEVEL_DEFAULT_LTR and LEVEL_DEFAULT_RTL.

The related constants are not real, valid level values. DEFAULT_XXX can be used to specify a default for the paragraph level for when the setPara() method shall determine it but there is no strongly typed character in the input.

Note that the value for LEVEL_DEFAULT_LTR is even and the one for LEVEL_DEFAULT_RTL is odd, just like with normal LTR and RTL level values - these special values are designed that way. Also, the implementation assumes that MAX_EXPLICIT_LEVEL is odd.

Note: The numeric values of the related constants will not change: They are tied to the use of 7-bit byte values (plus the override bit) and of the byte data type in this API.

See Also:

Basic concept: Reordering Mode

Reordering mode values indicate which variant of the Bidi algorithm to use. See Also:

Basic concept: Reordering Options

Reordering options can be applied during Bidi text transformations. See Also:

Sample code for the ICU Bidi API

Rendering a paragraph with the ICU Bidi API
This is (hypothetical) sample code that illustrates how the ICU Bidi API could be used to render a paragraph of text. Rendering code depends highly on the graphics system, therefore this sample code must make a lot of assumptions, which may or may not match any existing graphics system's properties.

The basic assumptions are:

  • Rendering is done from left to right on a horizontal line.
  • A run of single-style, unidirectional text can be rendered at once.
  • Such a run of text is passed to the graphics system with characters (code units) in logical order.
  • The line-breaking algorithm is very complicated and Locale-dependent - and therefore its implementation omitted from this sample code.

  package android.icu.dev.test.bidi;

  import android.icu.text.Bidi;
  import android.icu.text.BidiRun;

  public class Sample {

      static final int styleNormal = 0;
      static final int styleSelected = 1;
      static final int styleBold = 2;
      static final int styleItalics = 4;
      static final int styleSuper=8;
      static final int styleSub = 16;

      static class StyleRun {
          int limit;
          int style;

          public StyleRun(int limit, int style) {
              this.limit = limit;
              this.style = style;
          }
      }

      static class Bounds {
          int start;
          int limit;

          public Bounds(int start, int limit) {
              this.start = start;
              this.limit = limit;
          }
      }

      static int getTextWidth(String text, int start, int limit,
                              StyleRun[] styleRuns, int styleRunCount) {
          // simplistic way to compute the width
          return limit - start;
      }

      // set limit and StyleRun limit for a line
      // from text[start] and from styleRuns[styleRunStart]
      // using Bidi.getLogicalRun(...)
      // returns line width
      static int getLineBreak(String text, Bounds line, Bidi para,
                              StyleRun styleRuns[], Bounds styleRun) {
          // dummy return
          return 0;
      }

      // render runs on a line sequentially, always from left to right

      // prepare rendering a new line
      static void startLine(byte textDirection, int lineWidth) {
          System.out.println();
      }

      // render a run of text and advance to the right by the run width
      // the text[start..limit-1] is always in logical order
      static void renderRun(String text, int start, int limit,
                            byte textDirection, int style) {
      }

      // We could compute a cross-product
      // from the style runs with the directional runs
      // and then reorder it.
      // Instead, here we iterate over each run type
      // and render the intersections -
      // with shortcuts in simple (and common) cases.
      // renderParagraph() is the main function.

      // render a directional run with
      // (possibly) multiple style runs intersecting with it
      static void renderDirectionalRun(String text, int start, int limit,
                                       byte direction, StyleRun styleRuns[],
                                       int styleRunCount) {
          int i;

          // iterate over style runs
          if (direction == Bidi.LTR) {
              int styleLimit;
              for (i = 0; i < styleRunCount; ++i) {
                  styleLimit = styleRuns[i].limit;
                  if (start < styleLimit) {
                      if (styleLimit > limit) {
                          styleLimit = limit;
                      }
                      renderRun(text, start, styleLimit,
                                direction, styleRuns[i].style);
                      if (styleLimit == limit) {
                          break;
                      }
                      start = styleLimit;
                  }
              }
          } else {
              int styleStart;

              for (i = styleRunCount-1; i >= 0; --i) {
                  if (i > 0) {
                      styleStart = styleRuns[i-1].limit;
                  } else {
                      styleStart = 0;
                  }
                  if (limit >= styleStart) {
                      if (styleStart < start) {
                          styleStart = start;
                      }
                      renderRun(text, styleStart, limit, direction,
                                styleRuns[i].style);
                      if (styleStart == start) {
                          break;
                      }
                      limit = styleStart;
                  }
              }
          }
      }

      // the line object represents text[start..limit-1]
      static void renderLine(Bidi line, String text, int start, int limit,
                             StyleRun styleRuns[], int styleRunCount) {
          byte direction = line.getDirection();
          if (direction != Bidi.MIXED) {
              // unidirectional
              if (styleRunCount <= 1) {
                  renderRun(text, start, limit, direction, styleRuns[0].style);
              } else {
                  renderDirectionalRun(text, start, limit, direction,
                                       styleRuns, styleRunCount);
              }
          } else {
              // mixed-directional
              int count, i;
              BidiRun run;

              try {
                  count = line.countRuns();
              } catch (IllegalStateException e) {
                  e.printStackTrace();
                  return;
              }
              if (styleRunCount <= 1) {
                  int style = styleRuns[0].style;

                  // iterate over directional runs
                  for (i = 0; i < count; ++i) {
                      run = line.getVisualRun(i);
                      renderRun(text, run.getStart(), run.getLimit(),
                                run.getDirection(), style);
                  }
              } else {
                  // iterate over both directional and style runs
                  for (i = 0; i < count; ++i) {
                      run = line.getVisualRun(i);
                      renderDirectionalRun(text, run.getStart(),
                                           run.getLimit(), run.getDirection(),
                                           styleRuns, styleRunCount);
                  }
              }
          }
      }

      static void renderParagraph(String text, byte textDirection,
                                  StyleRun styleRuns[], int styleRunCount,
                                  int lineWidth) {
          int length = text.length();
          Bidi para = new Bidi();
          try {
              para.setPara(text,
                           textDirection != 0 ? Bidi.LEVEL_DEFAULT_RTL
                                              : Bidi.LEVEL_DEFAULT_LTR,
                           null);
          } catch (Exception e) {
              e.printStackTrace();
              return;
          }
          byte paraLevel = (byte)(1 & para.getParaLevel());
          StyleRun styleRun = new StyleRun(length, styleNormal);

          if (styleRuns == null || styleRunCount <= 0) {
              styleRuns = new StyleRun[1];
              styleRunCount = 1;
              styleRuns[0] = styleRun;
          }
          // assume styleRuns[styleRunCount-1].limit>=length

          int width = getTextWidth(text, 0, length, styleRuns, styleRunCount);
          if (width <= lineWidth) {
              // everything fits onto one line

              // prepare rendering a new line from either left or right
              startLine(paraLevel, width);

              renderLine(para, text, 0, length, styleRuns, styleRunCount);
          } else {
              // we need to render several lines
              Bidi line = new Bidi(length, 0);
              int start = 0, limit;
              int styleRunStart = 0, styleRunLimit;

              for (;;) {
                  limit = length;
                  styleRunLimit = styleRunCount;
                  width = getLineBreak(text, new Bounds(start, limit),
                                       para, styleRuns,
                                       new Bounds(styleRunStart, styleRunLimit));
                  try {
                      line = para.setLine(start, limit);
                  } catch (Exception e) {
                      e.printStackTrace();
                      return;
                  }
                  // prepare rendering a new line
                  // from either left or right
                  startLine(paraLevel, width);

                  if (styleRunStart > 0) {
                      int newRunCount = styleRuns.length - styleRunStart;
                      StyleRun[] newRuns = new StyleRun[newRunCount];
                      System.arraycopy(styleRuns, styleRunStart, newRuns, 0,
                                       newRunCount);
                      renderLine(line, text, start, limit, newRuns,
                                 styleRunLimit - styleRunStart);
                  } else {
                      renderLine(line, text, start, limit, styleRuns,
                                 styleRunLimit - styleRunStart);
                  }
                  if (limit == length) {
                      break;
                  }
                  start = limit;
                  styleRunStart = styleRunLimit - 1;
                  if (start >= styleRuns[styleRunStart].limit) {
                      ++styleRunStart;
                  }
              }
          }
      }

      public static void main(String[] args)
      {
          renderParagraph("Some Latin text...", Bidi.LTR, null, 0, 80);
          renderParagraph("Some Hebrew text...", Bidi.RTL, null, 0, 60);
      }
  }

 

Summary

Constants

int DIRECTION_DEFAULT_LEFT_TO_RIGHT

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm.

int DIRECTION_DEFAULT_RIGHT_TO_LEFT

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm.

int DIRECTION_LEFT_TO_RIGHT

Constant indicating base direction is left-to-right.

int DIRECTION_RIGHT_TO_LEFT

Constant indicating base direction is right-to-left.

short DO_MIRRORING

option bit for writeReordered(): replace characters with the "mirrored" property in RTL runs by their mirror-image mappings

short INSERT_LRM_FOR_NUMERIC

option bit for writeReordered(): surround the run with LRMs if necessary; this is part of the approximate "inverse Bidi" algorithm

This option does not imply corresponding adjustment of the index mappings.

short KEEP_BASE_COMBINING

option bit for writeReordered(): keep combining characters after their base characters in RTL runs

byte LEVEL_DEFAULT_LTR

Paragraph level setting

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm.

byte LEVEL_DEFAULT_RTL

Paragraph level setting

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm.

byte LEVEL_OVERRIDE

Bit flag for level input.

byte LTR

Left-to-right text.

int MAP_NOWHERE

Special value which can be returned by the mapping methods when a logical index has no corresponding visual index or vice-versa.

byte MAX_EXPLICIT_LEVEL

Maximum explicit embedding level.

byte MIXED

Mixed-directional text.

byte NEUTRAL

No strongly directional text.

int OPTION_DEFAULT

Option value for setReorderingOptions: disable all the options which can be set with this method

int OPTION_INSERT_MARKS

Option bit for setReorderingOptions: insert Bidi marks (LRM or RLM) when needed to ensure correct result of a reordering to a Logical order

This option must be set or reset before calling setPara.

int OPTION_REMOVE_CONTROLS

Option bit for setReorderingOptions: remove Bidi control characters

This option must be set or reset before calling setPara.

int OPTION_STREAMING

Option bit for setReorderingOptions: process the output as part of a stream to be continued

This option must be set or reset before calling setPara.

short OUTPUT_REVERSE

option bit for writeReordered(): write the output in reverse order

This has the same effect as calling writeReordered() first without this option, and then calling writeReverse() without mirroring.

short REMOVE_BIDI_CONTROLS

option bit for writeReordered(): remove Bidi control characters (this does not affect INSERT_LRM_FOR_NUMERIC)

This option does not imply corresponding adjustment of the index mappings.

short REORDER_DEFAULT

Reordering mode: Regular Logical to Visual Bidi algorithm according to Unicode.

short REORDER_GROUP_NUMBERS_WITH_R

Reordering mode: Logical to Visual algorithm grouping numbers with adjacent R characters (reversible algorithm).

short REORDER_INVERSE_FOR_NUMBERS_SPECIAL

Reordering mode: Inverse Bidi (Visual to Logical) algorithm for the REORDER_NUMBERS_SPECIAL Bidi algorithm.

short REORDER_INVERSE_LIKE_DIRECT

Reordering mode: Visual to Logical algorithm equivalent to the regular Logical to Visual algorithm.

short REORDER_INVERSE_NUMBERS_AS_L

Reordering mode: Visual to Logical algorithm which handles numbers like L (same algorithm as selected by setInverse(true).

short REORDER_NUMBERS_SPECIAL

Reordering mode: Logical to Visual algorithm which handles numbers in a way which mimicks the behavior of Windows XP.

short REORDER_RUNS_ONLY

Reordering mode: Reorder runs only to transform a Logical LTR string to the logical RTL string with the same display, or vice-versa.

byte RTL

Right-to-left text.

Public constructors

Bidi()

Allocate a Bidi object.

Bidi(int maxLength, int maxRunCount)

Allocate a Bidi object with preallocated memory for internal structures.

Bidi(String paragraph, int flags)

Create Bidi from the given paragraph of text and base direction.

Bidi(AttributedCharacterIterator paragraph)

Create Bidi from the given paragraph of text.

Bidi(char[] text, int textStart, byte[] embeddings, int embStart, int paragraphLength, int flags)

Create Bidi from the given text, embedding, and direction information.

Public methods

boolean baseIsLeftToRight()

Return true if the base direction is left-to-right

int countParagraphs()

Get the number of paragraphs.

int countRuns()

Get the number of runs.

Bidi createLineBidi(int lineStart, int lineLimit)

Create a Bidi object representing the bidi information on a line of text within the paragraph represented by the current Bidi.

static byte getBaseDirection(CharSequence paragraph)

Get the base direction of the text provided according to the Unicode Bidirectional Algorithm.

int getBaseLevel()

Return the base level (0 if left-to-right, 1 if right-to-left).

BidiClassifier getCustomClassifier()

Gets the current custom class classifier used for Bidi class determination.

int getCustomizedClass(int c)

Retrieves the Bidi class for a given code point.

byte getDirection()

Get the directionality of the text.

int getLength()

Get the length of the text.

byte getLevelAt(int charIndex)

Get the level for one character.

byte[] getLevels()

Get an array of levels for each character.

int getLogicalIndex(int visualIndex)

Get the logical text position from a visual position.

int[] getLogicalMap()

Get a logical-to-visual index map (array) for the characters in the Bidi (paragraph or line) object.

BidiRun getLogicalRun(int logicalPosition)

Get a logical run.

byte getParaLevel()

Get the paragraph level of the text.

BidiRun getParagraph(int charIndex)

Get a paragraph, given a position within the text.

BidiRun getParagraphByIndex(int paraIndex)

Get a paragraph, given the index of this paragraph.

int getParagraphIndex(int charIndex)

Get the index of a paragraph, given a position within the text.

int getProcessedLength()

Get the length of the source text processed by the last call to setPara().

int getReorderingMode()

What is the requested reordering mode for a given Bidi object?

int getReorderingOptions()

What are the reordering options applied to a given Bidi object?

int getResultLength()

Get the length of the reordered text resulting from the last call to setPara().

int getRunCount()

Return the number of level runs.

int getRunLevel(int run)

Return the level of the nth logical run in this line.

int getRunLimit(int run)

Return the index of the character past the end of the nth logical run in this line, as an offset from the start of the line.

int getRunStart(int run)

Return the index of the character at the start of the nth logical run in this line, as an offset from the start of the line.

char[] getText()

Get the text.

String getTextAsString()

Get the text.

int getVisualIndex(int logicalIndex)

Get the visual position from a logical text position.

int[] getVisualMap()

Get a visual-to-logical index map (array) for the characters in the Bidi (paragraph or line) object.

BidiRun getVisualRun(int runIndex)

Get a BidiRun object according to its index.

static int[] invertMap(int[] srcMap)

Invert an index map.

boolean isInverse()

Is this Bidi object set to perform the inverse Bidi algorithm?

Note: calling this method after setting the reordering mode with setReorderingMode will return true if the reordering mode was set to REORDER_INVERSE_NUMBERS_AS_L, false for all other values.

boolean isLeftToRight()

Return true if the line is all left-to-right text and the base direction is left-to-right.

boolean isMixed()

Return true if the line is not left-to-right or right-to-left.

boolean isOrderParagraphsLTR()

Is this Bidi object set to allocate level 0 to block separators so that successive paragraphs progress from left to right?

boolean isRightToLeft()

Return true if the line is all right-to-left text, and the base direction is right-to-left

void orderParagraphsLTR(boolean ordarParaLTR)

Specify whether block separators must be allocated level zero, so that successive paragraphs will progress from left to right.

static int[] reorderLogical(byte[] levels)

This is a convenience method that does not use a Bidi object.

static int[] reorderVisual(byte[] levels)

This is a convenience method that does not use a Bidi object.

static void reorderVisually(byte[] levels, int levelStart, Object[] objects, int objectStart, int count)

Reorder the objects in the array into visual order based on their levels.

static boolean requiresBidi(char[] text, int start, int limit)

Return true if the specified text requires bidi analysis.

void setContext(String prologue, String epilogue)

Set the context before a call to setPara().

void setCustomClassifier(BidiClassifier classifier)

Set a custom Bidi classifier used by the UBA implementation for Bidi class determination.

void setInverse(boolean isInverse)

Modify the operation of the Bidi algorithm such that it approximates an "inverse Bidi" algorithm.

Bidi setLine(int start, int limit)

setLine() returns a Bidi object to contain the reordering information, especially the resolved levels, for all the characters in a line of text.

void setPara(AttributedCharacterIterator paragraph)

Perform the Unicode Bidi algorithm on a given paragraph, as defined in the Unicode Standard Annex #9, version 13, also described in The Unicode Standard, Version 4.0 .

void setPara(char[] chars, byte paraLevel, byte[] embeddingLevels)

Perform the Unicode Bidi algorithm.

void setPara(String text, byte paraLevel, byte[] embeddingLevels)

Perform the Unicode Bidi algorithm.

void setReorderingMode(int reorderingMode)

Modify the operation of the Bidi algorithm such that it implements some variant to the basic Bidi algorithm or approximates an "inverse Bidi" algorithm, depending on different values of the "reordering mode".

void setReorderingOptions(int options)

Specify which of the reordering options should be applied during Bidi transformations.

String writeReordered(int options)

Take a Bidi object containing the reordering information for a piece of text (one or more paragraphs) set by setPara() or for a line of text set by setLine() and return a string containing the reordered text.

static String writeReverse(String src, int options)

Reverse a Right-To-Left run of Unicode text.

Inherited methods

Constants

DIRECTION_DEFAULT_LEFT_TO_RIGHT

Added in API level 29
public static final int DIRECTION_DEFAULT_LEFT_TO_RIGHT

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm. If no strong directional character is present, the base direction is left-to-right.

Constant Value: 126 (0x0000007e)

DIRECTION_DEFAULT_RIGHT_TO_LEFT

Added in API level 29
public static final int DIRECTION_DEFAULT_RIGHT_TO_LEFT

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm. If no strong directional character is present, the base direction is right-to-left.

Constant Value: 127 (0x0000007f)

DIRECTION_LEFT_TO_RIGHT

Added in API level 29
public static final int DIRECTION_LEFT_TO_RIGHT

Constant indicating base direction is left-to-right.

Constant Value: 0 (0x00000000)

DIRECTION_RIGHT_TO_LEFT

Added in API level 29
public static final int DIRECTION_RIGHT_TO_LEFT

Constant indicating base direction is right-to-left.

Constant Value: 1 (0x00000001)

DO_MIRRORING

Added in API level 29
public static final short DO_MIRRORING

option bit for writeReordered(): replace characters with the "mirrored" property in RTL runs by their mirror-image mappings

Constant Value: 2 (0x00000002)

INSERT_LRM_FOR_NUMERIC

Added in API level 29
public static final short INSERT_LRM_FOR_NUMERIC

option bit for writeReordered(): surround the run with LRMs if necessary; this is part of the approximate "inverse Bidi" algorithm

This option does not imply corresponding adjustment of the index mappings.

Constant Value: 4 (0x00000004)

KEEP_BASE_COMBINING

Added in API level 29
public static final short KEEP_BASE_COMBINING

option bit for writeReordered(): keep combining characters after their base characters in RTL runs

Constant Value: 1 (0x00000001)

LEVEL_DEFAULT_LTR

Added in API level 29
public static final byte LEVEL_DEFAULT_LTR

Paragraph level setting

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm. If no strong directional character is present, then set the paragraph level to 0 (left-to-right).

If this value is used in conjunction with reordering modes REORDER_INVERSE_LIKE_DIRECT or REORDER_INVERSE_FOR_NUMBERS_SPECIAL, the text to reorder is assumed to be visual LTR, and the text after reordering is required to be the corresponding logical string with appropriate contextual direction. The direction of the result string will be RTL if either the rightmost or leftmost strong character of the source text is RTL or Arabic Letter, the direction will be LTR otherwise.

If reordering option OPTION_INSERT_MARKS is set, an RLM may be added at the beginning of the result string to ensure round trip (that the result string, when reordered back to visual, will produce the original source text).

Constant Value: 126 (0x0000007e)

LEVEL_DEFAULT_RTL

Added in API level 29
public static final byte LEVEL_DEFAULT_RTL

Paragraph level setting

Constant indicating that the base direction depends on the first strong directional character in the text according to the Unicode Bidirectional Algorithm. If no strong directional character is present, then set the paragraph level to 1 (right-to-left).

If this value is used in conjunction with reordering modes REORDER_INVERSE_LIKE_DIRECT or REORDER_INVERSE_FOR_NUMBERS_SPECIAL, the text to reorder is assumed to be visual LTR, and the text after reordering is required to be the corresponding logical string with appropriate contextual direction. The direction of the result string will be RTL if either the rightmost or leftmost strong character of the source text is RTL or Arabic Letter, or if the text contains no strong character; the direction will be LTR otherwise.

If reordering option OPTION_INSERT_MARKS is set, an RLM may be added at the beginning of the result string to ensure round trip (that the result string, when reordered back to visual, will produce the original source text).

Constant Value: 127 (0x0000007f)

LEVEL_OVERRIDE

Added in API level 29
public static final byte LEVEL_OVERRIDE

Bit flag for level input. Overrides directional properties.

Constant Value: -128 (0xffffff80)

LTR

Added in API level 29
public static final byte LTR

Left-to-right text.

  • As return value for getDirection(), it means that the source string contains no right-to-left characters, or that the source string is empty and the paragraph level is even.
  • As return value for getBaseDirection(), it means that the first strong character of the source string has a left-to-right direction.

Constant Value: 0 (0x00000000)

MAP_NOWHERE

Added in API level 29
public static final int MAP_NOWHERE

Special value which can be returned by the mapping methods when a logical index has no corresponding visual index or vice-versa. This may happen for the logical-to-visual mapping of a Bidi control when option OPTION_REMOVE_CONTROLS is specified. This can also happen for the visual-to-logical mapping of a Bidi mark (LRM or RLM) inserted by option OPTION_INSERT_MARKS.

Constant Value: -1 (0xffffffff)

MAX_EXPLICIT_LEVEL

Added in API level 29
public static final byte MAX_EXPLICIT_LEVEL

Maximum explicit embedding level. Same as the max_depth value in the Unicode Bidirectional Algorithm. (The maximum resolved level can be up to MAX_EXPLICIT_LEVEL+1).

Constant Value: 125 (0x0000007d)

MIXED

Added in API level 29
public static final byte MIXED

Mixed-directional text.

As return value for getDirection(), it means that the source string contains both left-to-right and right-to-left characters.

Constant Value: 2 (0x00000002)

NEUTRAL

Added in API level 29
public static final byte NEUTRAL

No strongly directional text.

As return value for getBaseDirection(), it means that the source string is missing or empty, or contains neither left-to-right nor right-to-left characters.

Constant Value: 3 (0x00000003)

OPTION_DEFAULT

Added in API level 29
public static final int OPTION_DEFAULT

Option value for setReorderingOptions: disable all the options which can be set with this method

Constant Value: 0 (0x00000000)

OPTION_INSERT_MARKS

Added in API level 29
public static final int OPTION_INSERT_MARKS

Option bit for setReorderingOptions: insert Bidi marks (LRM or RLM) when needed to ensure correct result of a reordering to a Logical order

This option must be set or reset before calling setPara.

This option is significant only with reordering modes which generate a result with Logical order, specifically.

  • REORDER_RUNS_ONLY
  • REORDER_INVERSE_NUMBERS_AS_L
  • REORDER_INVERSE_LIKE_DIRECT
  • REORDER_INVERSE_FOR_NUMBERS_SPECIAL

If this option is set in conjunction with reordering mode REORDER_INVERSE_NUMBERS_AS_L or with calling setInverse(true), it implies option INSERT_LRM_FOR_NUMERIC in calls to method writeReordered().

For other reordering modes, a minimum number of LRM or RLM characters will be added to the source text after reordering it so as to ensure round trip, i.e. when applying the inverse reordering mode on the resulting logical text with removal of Bidi marks (option OPTION_REMOVE_CONTROLS set before calling setPara() or option REMOVE_BIDI_CONTROLS in writeReordered), the result will be identical to the source text in the first transformation.

This option will be ignored if specified together with option OPTION_REMOVE_CONTROLS. It inhibits option REMOVE_BIDI_CONTROLS in calls to method writeReordered() and it implies option INSERT_LRM_FOR_NUMERIC in calls to method writeReordered() if the reordering mode is REORDER_INVERSE_NUMBERS_AS_L.

Constant Value: 1 (0x00000001)

OPTION_REMOVE_CONTROLS

Added in API level 29
public static final int OPTION_REMOVE_CONTROLS

Option bit for setReorderingOptions: remove Bidi control characters

This option must be set or reset before calling setPara.

This option nullifies option OPTION_INSERT_MARKS. It inhibits option INSERT_LRM_FOR_NUMERIC in calls to method writeReordered() and it implies option REMOVE_BIDI_CONTROLS in calls to that method.

Constant Value: 2 (0x00000002)

OPTION_STREAMING

Added in API level 29
public static final int OPTION_STREAMING

Option bit for setReorderingOptions: process the output as part of a stream to be continued

This option must be set or reset before calling setPara.

This option specifies that the caller is interested in processing large text object in parts. The results of the successive calls are expected to be concatenated by the caller. Only the call for the last part will have this option bit off.

When this option bit is on, setPara() may process less than the full source text in order to truncate the text at a meaningful boundary. The caller should call getProcessedLength() immediately after calling setPara() in order to determine how much of the source text has been processed. Source text beyond that length should be resubmitted in following calls to setPara. The processed length may be less than the length of the source text if a character preceding the last character of the source text constitutes a reasonable boundary (like a block separator) for text to be continued.
If the last character of the source text constitutes a reasonable boundary, the whole text will be processed at once.
If nowhere in the source text there exists such a reasonable boundary, the processed length will be zero.
The caller should check for such an occurrence and do one of the following:

  • submit a larger amount of text with a better chance to include a reasonable boundary.
  • resubmit the same text after turning off option OPTION_STREAMING.
In all cases, this option should be turned off before processing the last part of the text.

When the OPTION_STREAMING option is used, it is recommended to call orderParagraphsLTR(true) before calling setPara() so that later paragraphs may be concatenated to previous paragraphs on the right.

Constant Value: 4 (0x00000004)

OUTPUT_REVERSE

Added in API level 29
public static final short OUTPUT_REVERSE

option bit for writeReordered(): write the output in reverse order

This has the same effect as calling writeReordered() first without this option, and then calling writeReverse() without mirroring. Doing this in the same step is faster and avoids a temporary buffer. An example for using this option is output to a character terminal that is designed for RTL scripts and stores text in reverse order.

Constant Value: 16 (0x00000010)

REMOVE_BIDI_CONTROLS

Added in API level 29
public static final short REMOVE_BIDI_CONTROLS

option bit for writeReordered(): remove Bidi control characters (this does not affect INSERT_LRM_FOR_NUMERIC)

This option does not imply corresponding adjustment of the index mappings.

Constant Value: 8 (0x00000008)

REORDER_DEFAULT

Added in API level 29
public static final short REORDER_DEFAULT

Reordering mode: Regular Logical to Visual Bidi algorithm according to Unicode.

Constant Value: 0 (0x00000000)

REORDER_GROUP_NUMBERS_WITH_R

Added in API level 29
public static final short REORDER_GROUP_NUMBERS_WITH_R

Reordering mode: Logical to Visual algorithm grouping numbers with adjacent R characters (reversible algorithm).

Constant Value: 2 (0x00000002)

REORDER_INVERSE_FOR_NUMBERS_SPECIAL

Added in API level 29
public static final short REORDER_INVERSE_FOR_NUMBERS_SPECIAL

Reordering mode: Inverse Bidi (Visual to Logical) algorithm for the REORDER_NUMBERS_SPECIAL Bidi algorithm.

Constant Value: 6 (0x00000006)

REORDER_INVERSE_LIKE_DIRECT

Added in API level 29
public static final short REORDER_INVERSE_LIKE_DIRECT

Reordering mode: Visual to Logical algorithm equivalent to the regular Logical to Visual algorithm.

Constant Value: 5 (0x00000005)

REORDER_INVERSE_NUMBERS_AS_L

Added in API level 29
public static final short REORDER_INVERSE_NUMBERS_AS_L

Reordering mode: Visual to Logical algorithm which handles numbers like L (same algorithm as selected by setInverse(true).

Constant Value: 4 (0x00000004)

REORDER_NUMBERS_SPECIAL

Added in API level 29
public static final short REORDER_NUMBERS_SPECIAL

Reordering mode: Logical to Visual algorithm which handles numbers in a way which mimicks the behavior of Windows XP.

Constant Value: 1 (0x00000001)

REORDER_RUNS_ONLY

Added in API level 29
public static final short REORDER_RUNS_ONLY

Reordering mode: Reorder runs only to transform a Logical LTR string to the logical RTL string with the same display, or vice-versa.
If this mode is set together with option OPTION_INSERT_MARKS, some Bidi controls in the source text may be removed and other controls may be added to produce the minimum combination which has the required display.

Constant Value: 3 (0x00000003)

RTL

Added in API level 29
public static final byte RTL

Right-to-left text.

  • As return value for getDirection(), it means that the source string contains no left-to-right characters, or that the source string is empty and the paragraph level is odd.
  • As return value for getBaseDirection(), it means that the first strong character of the source string has a right-to-left direction.

Constant Value: 1 (0x00000001)

Public constructors

Bidi

Added in API level 29
public Bidi ()

Allocate a Bidi object. Such an object is initially empty. It is assigned the Bidi properties of a piece of text containing one or more paragraphs by setPara() or the Bidi properties of a line within a paragraph by setLine().

This object can be reused.

setPara() and setLine() will allocate additional memory for internal structures as necessary.

Bidi

Added in API level 29
public Bidi (int maxLength, 
                int maxRunCount)

Allocate a Bidi object with preallocated memory for internal structures. This method provides a Bidi object like the default constructor but it also preallocates memory for internal structures according to the sizings supplied by the caller.

The preallocation can be limited to some of the internal memory by setting some values to 0 here. That means that if, e.g., maxRunCount cannot be reasonably predetermined and should not be set to maxLength (the only failproof value) to avoid wasting memory, then maxRunCount could be set to 0 here and the internal structures that are associated with it will be allocated on demand, just like with the default constructor.

Parameters
maxLength int: is the maximum text or line length that internal memory will be preallocated for. An attempt to associate this object with a longer text will fail, unless this value is 0, which leaves the allocation up to the implementation.

maxRunCount int: is the maximum anticipated number of same-level runs that internal memory will be preallocated for. An attempt to access visual runs on an object that was not preallocated for as many runs as the text was actually resolved to will fail, unless this value is 0, which leaves the allocation up to the implementation.

The number of runs depends on the actual text and maybe anywhere between 1 and maxLength. It is typically small.

Throws
IllegalArgumentException if maxLength or maxRunCount is less than 0

Bidi

Added in API level 29
public Bidi (String paragraph, 
                int flags)

Create Bidi from the given paragraph of text and base direction.

Parameters
paragraph String: a paragraph of text

flags int: a collection of flags that control the algorithm. The algorithm understands the flags DIRECTION_LEFT_TO_RIGHT, DIRECTION_RIGHT_TO_LEFT, DIRECTION_DEFAULT_LEFT_TO_RIGHT, and DIRECTION_DEFAULT_RIGHT_TO_LEFT. Other values are reserved.

Bidi

Added in API level 29
public Bidi (AttributedCharacterIterator paragraph)

Create Bidi from the given paragraph of text.

The RUN_DIRECTION attribute in the text, if present, determines the base direction (left-to-right or right-to-left). If not present, the base direction is computed using the Unicode Bidirectional Algorithm, defaulting to left-to-right if there are no strong directional characters in the text. This attribute, if present, must be applied to all the text in the paragraph.

The BIDI_EMBEDDING attribute in the text, if present, represents embedding level information. Negative values indicate overrides at the absolute value of the level. Positive values indicate embeddings. (See MAX_EXPLICIT_LEVEL.) Where values are zero or not defined, the base embedding level as determined by the base direction is assumed.

The NUMERIC_SHAPING attribute in the text, if present, converts European digits to other decimal digits before running the bidi algorithm. This attribute, if present, must be applied to all the text in the paragraph.

Note: this constructor calls setPara() internally.

Parameters
paragraph AttributedCharacterIterator: a paragraph of text with optional character and paragraph attribute information

Bidi

Added in API level 29
public Bidi (char[] text, 
                int textStart, 
                byte[] embeddings, 
                int embStart, 
                int paragraphLength, 
                int flags)

Create Bidi from the given text, embedding, and direction information.

The embeddings array may be null. If present, the values represent embedding level information. Negative values indicate overrides at the absolute value of the level. Positive values indicate embeddings. (See MAX_EXPLICIT_LEVEL.) Where values are zero, the base embedding level as determined by the base direction is assumed, except for paragraph separators which remain at 0 to prevent reordering of paragraphs.

Note: This constructor calls setPara() internally, after converting the java.text.Bidi-style embeddings with negative overrides into ICU-style embeddings with bit fields for LEVEL_OVERRIDE and the level.

Parameters
text char: an array containing the paragraph of text to process.

textStart int: the index into the text array of the start of the paragraph.

embeddings byte: an array containing embedding values for each character in the paragraph. This can be null, in which case it is assumed that there is no external embedding information.

embStart int: the index into the embedding array of the start of the paragraph.

paragraphLength int: the length of the paragraph in the text and embeddings arrays.

flags int: a collection of flags that control the algorithm. The algorithm understands the flags DIRECTION_LEFT_TO_RIGHT, DIRECTION_RIGHT_TO_LEFT, DIRECTION_DEFAULT_LEFT_TO_RIGHT, and DIRECTION_DEFAULT_RIGHT_TO_LEFT. Other values are reserved.

Throws
IllegalArgumentException if the values in embeddings are not within the allowed range

Public methods

baseIsLeftToRight

Added in API level 29
public boolean baseIsLeftToRight ()

Return true if the base direction is left-to-right

Returns
boolean true if the base direction is left-to-right

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

countParagraphs

Added in API level 29
public int countParagraphs ()

Get the number of paragraphs.

Returns
int The number of paragraphs.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

countRuns

Added in API level 29
public int countRuns ()

Get the number of runs. This method may invoke the actual reordering on the Bidi object, after setPara() may have resolved only the levels of the text. Therefore, countRuns() may have to allocate memory, and may throw an exception if it fails to do so.

Returns
int The number of runs.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

createLineBidi

Added in API level 29
public Bidi createLineBidi (int lineStart, 
                int lineLimit)

Create a Bidi object representing the bidi information on a line of text within the paragraph represented by the current Bidi. This call is not required if the entire paragraph fits on one line.

Parameters
lineStart int: the offset from the start of the paragraph to the start of the line.

lineLimit int: the offset from the start of the paragraph to the limit of the line.

Returns
Bidi

Throws
IllegalStateException if this call is not preceded by a successful call to setPara
IllegalArgumentException if lineStart and lineLimit are not in the range 0<=lineStart<lineLimit<=getProcessedLength(), or if the specified line crosses a paragraph boundary

getBaseDirection

Added in API level 29
public static byte getBaseDirection (CharSequence paragraph)

Get the base direction of the text provided according to the Unicode Bidirectional Algorithm. The base direction is derived from the first character in the string with bidirectional character type L, R, or AL. If the first such character has type L, LTR is returned. If the first such character has type R or AL, RTL is returned. If the string does not contain any character of these types, then NEUTRAL is returned. This is a lightweight function for use when only the base direction is needed and no further bidi processing of the text is needed.

Parameters
paragraph CharSequence: the text whose paragraph level direction is needed.

Returns
byte LTR, RTL, NEUTRAL

See also:

getBaseLevel

Added in API level 29
public int getBaseLevel ()

Return the base level (0 if left-to-right, 1 if right-to-left).

Returns
int the base level

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getCustomClassifier

Added in API level 29
public BidiClassifier getCustomClassifier ()

Gets the current custom class classifier used for Bidi class determination.

Returns
BidiClassifier An instance of class BidiClassifier

getCustomizedClass

Added in API level 29
public int getCustomizedClass (int c)

Retrieves the Bidi class for a given code point.

If a BidiClassifier is defined and returns a value other than UCharacter.getIntPropertyMaxValue(UProperty.BIDI_CLASS)+1, that value is used; otherwise the default class determination mechanism is invoked.

Parameters
c int: The code point to get a Bidi class for.

Returns
int The Bidi class for the character c that is in effect for this Bidi instance.

See also:

getDirection

Added in API level 29
public byte getDirection ()

Get the directionality of the text.

Returns
byte a value of LTR, RTL or MIXED that indicates if the entire text represented by this object is unidirectional, and which direction, or if it is mixed-directional.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

See also:

getLength

Added in API level 29
public int getLength ()

Get the length of the text.

Returns
int The length of the text that the Bidi object was created for.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getLevelAt

Added in API level 29
public byte getLevelAt (int charIndex)

Get the level for one character.

Parameters
charIndex int: the index of a character.

Returns
byte The level for the character at charIndex.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if charIndex is not in the range 0<=charIndex<getProcessedLength()

getLevels

Added in API level 29
public byte[] getLevels ()

Get an array of levels for each character.

Note that this method may allocate memory under some circumstances, unlike getLevelAt().

Returns
byte[] The levels array for the text, or null if an error occurs.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getLogicalIndex

Added in API level 29
public int getLogicalIndex (int visualIndex)

Get the logical text position from a visual position. If such a mapping is used many times on the same Bidi object, then calling getVisualMap() is more efficient.

The value returned may be MAP_NOWHERE if there is no logical position because the corresponding text character is a Bidi mark inserted in the output by option OPTION_INSERT_MARKS.

This is the inverse method to getVisualIndex().

When the visual output is altered by using options of writeReordered() such as INSERT_LRM_FOR_NUMERIC, KEEP_BASE_COMBINING, OUTPUT_REVERSE, REMOVE_BIDI_CONTROLS, the logical position returned may not be correct. It is advised to use, when possible, reordering options such as OPTION_INSERT_MARKS and OPTION_REMOVE_CONTROLS.

Parameters
visualIndex int: is the visual position of a character.

Returns
int The index of this character in the text.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if visualIndex is not in the range 0<=visualIndex<getResultLength()

getLogicalMap

Added in API level 29
public int[] getLogicalMap ()

Get a logical-to-visual index map (array) for the characters in the Bidi (paragraph or line) object.

Some values in the map may be MAP_NOWHERE if the corresponding text characters are Bidi controls removed from the visual output by the option OPTION_REMOVE_CONTROLS.

When the visual output is altered by using options of writeReordered() such as INSERT_LRM_FOR_NUMERIC, KEEP_BASE_COMBINING, OUTPUT_REVERSE, REMOVE_BIDI_CONTROLS, the visual positions returned may not be correct. It is advised to use, when possible, reordering options such as OPTION_INSERT_MARKS and OPTION_REMOVE_CONTROLS.

Note that in right-to-left runs, this mapping places second surrogates before first ones (which is generally a bad idea) and combining characters before base characters. Use of writeReordered(int), optionally with the KEEP_BASE_COMBINING option can be considered instead of using the mapping, in order to avoid these issues.

Returns
int[] an array of getProcessedLength() indexes which will reflect the reordering of the characters.

The index map will result in indexMap[logicalIndex]==visualIndex, where indexMap represents the returned array.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getLogicalRun

Added in API level 29
public BidiRun getLogicalRun (int logicalPosition)

Get a logical run. This method returns information about a run and is used to retrieve runs in logical order.

This is especially useful for line-breaking on a paragraph.

Parameters
logicalPosition int: is a logical position within the source text.

Returns
BidiRun a BidiRun object filled with start containing the first character of the run, limit containing the limit of the run, and embeddingLevel containing the level of the run.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if logicalPosition is not in the range 0<=logicalPosition<getProcessedLength()

getParaLevel

Added in API level 29
public byte getParaLevel ()

Get the paragraph level of the text.

Returns
byte The paragraph level. If there are multiple paragraphs, their level may vary if the required paraLevel is LEVEL_DEFAULT_LTR or LEVEL_DEFAULT_RTL. In that case, the level of the first paragraph is returned.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getParagraph

Added in API level 29
public BidiRun getParagraph (int charIndex)

Get a paragraph, given a position within the text. This method returns information about a paragraph.
Note: if the paragraph index is known, it is more efficient to retrieve the paragraph information using getParagraphByIndex().

Parameters
charIndex int: is the index of a character within the text, in the range [0..getProcessedLength()-1].

Returns
BidiRun a BidiRun object with the details of the paragraph:
start will receive the index of the first character of the paragraph in the text.
limit will receive the limit of the paragraph.
embeddingLevel will receive the level of the paragraph.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if charIndex is not within the legal range

getParagraphByIndex

Added in API level 29
public BidiRun getParagraphByIndex (int paraIndex)

Get a paragraph, given the index of this paragraph. This method returns information about a paragraph.

Parameters
paraIndex int: is the number of the paragraph, in the range [0..countParagraphs()-1].

Returns
BidiRun a BidiRun object with the details of the paragraph:
start will receive the index of the first character of the paragraph in the text.
limit will receive the limit of the paragraph.
embeddingLevel will receive the level of the paragraph.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if paraIndex is not in the range [0..countParagraphs()-1]

See also:

getParagraphIndex

Added in API level 29
public int getParagraphIndex (int charIndex)

Get the index of a paragraph, given a position within the text.

Parameters
charIndex int: is the index of a character within the text, in the range [0..getProcessedLength()-1].

Returns
int The index of the paragraph containing the specified position, starting from 0.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if charIndex is not within the legal range

getProcessedLength

Added in API level 29
public int getProcessedLength ()

Get the length of the source text processed by the last call to setPara(). This length may be different from the length of the source text if option OPTION_STREAMING has been set.
Note that whenever the length of the text affects the execution or the result of a method, it is the processed length which must be considered, except for setPara (which receives unprocessed source text) and getLength (which returns the original length of the source text).
In particular, the processed length is the one to consider in the following cases:

  • maximum value of the limit argument of setLine
  • maximum value of the charIndex argument of getParagraph
  • maximum value of the charIndex argument of getLevelAt
  • number of elements in the array returned by getLevels
  • maximum value of the logicalStart argument of getLogicalRun
  • maximum value of the logicalIndex argument of getVisualIndex
  • number of elements returned by getLogicalMap
  • length of text processed by writeReordered

Returns
int The length of the part of the source text processed by the last call to setPara.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getReorderingMode

Added in API level 29
public int getReorderingMode ()

What is the requested reordering mode for a given Bidi object?

Returns
int the current reordering mode of the Bidi object

getReorderingOptions

Added in API level 29
public int getReorderingOptions ()

What are the reordering options applied to a given Bidi object?

Returns
int the current reordering options of the Bidi object

getResultLength

Added in API level 29
public int getResultLength ()

Get the length of the reordered text resulting from the last call to setPara(). This length may be different from the length of the source text if option OPTION_INSERT_MARKS or option OPTION_REMOVE_CONTROLS has been set.
This resulting length is the one to consider in the following cases:

  • maximum value of the visualIndex argument of getLogicalIndex
  • number of elements returned by getVisualMap
Note that this length stays identical to the source text length if Bidi marks are inserted or removed using option bits of writeReordered, or if option REORDER_INVERSE_NUMBERS_AS_L has been set.

Returns
int The length of the reordered text resulting from the last call to setPara.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getRunCount

Added in API level 29
public int getRunCount ()

Return the number of level runs.

Returns
int the number of level runs

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getRunLevel

Added in API level 29
public int getRunLevel (int run)

Return the level of the nth logical run in this line.

Parameters
run int: the index of the run, between 0 and countRuns()-1

Returns
int the level of the run

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if run is not in the range 0<=run<countRuns()

getRunLimit

Added in API level 29
public int getRunLimit (int run)

Return the index of the character past the end of the nth logical run in this line, as an offset from the start of the line. For example, this will return the length of the line for the last run on the line.

Parameters
run int: the index of the run, between 0 and countRuns()

Returns
int the limit of the run

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if run is not in the range 0<=run<countRuns()

getRunStart

Added in API level 29
public int getRunStart (int run)

Return the index of the character at the start of the nth logical run in this line, as an offset from the start of the line.

Parameters
run int: the index of the run, between 0 and countRuns()

Returns
int the start of the run

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if run is not in the range 0<=run<countRuns()

getText

Added in API level 29
public char[] getText ()

Get the text.

Returns
char[] A char array containing the text that the Bidi object was created for.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getTextAsString

Added in API level 29
public String getTextAsString ()

Get the text.

Returns
String A String containing the text that the Bidi object was created for.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getVisualIndex

Added in API level 29
public int getVisualIndex (int logicalIndex)

Get the visual position from a logical text position. If such a mapping is used many times on the same Bidi object, then calling getLogicalMap() is more efficient.

The value returned may be MAP_NOWHERE if there is no visual position because the corresponding text character is a Bidi control removed from output by the option OPTION_REMOVE_CONTROLS.

When the visual output is altered by using options of writeReordered() such as INSERT_LRM_FOR_NUMERIC, KEEP_BASE_COMBINING, OUTPUT_REVERSE, REMOVE_BIDI_CONTROLS, the visual position returned may not be correct. It is advised to use, when possible, reordering options such as OPTION_INSERT_MARKS and OPTION_REMOVE_CONTROLS.

Note that in right-to-left runs, this mapping places second surrogates before first ones (which is generally a bad idea) and combining characters before base characters. Use of writeReordered(int), optionally with the KEEP_BASE_COMBINING option can be considered instead of using the mapping, in order to avoid these issues.

Parameters
logicalIndex int: is the index of a character in the text.

Returns
int The visual position of this character.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if logicalIndex is not in the range 0<=logicalIndex<getProcessedLength()

getVisualMap

Added in API level 29
public int[] getVisualMap ()

Get a visual-to-logical index map (array) for the characters in the Bidi (paragraph or line) object.

Some values in the map may be MAP_NOWHERE if the corresponding text characters are Bidi marks inserted in the visual output by the option OPTION_INSERT_MARKS.

When the visual output is altered by using options of writeReordered() such as INSERT_LRM_FOR_NUMERIC, KEEP_BASE_COMBINING, OUTPUT_REVERSE, REMOVE_BIDI_CONTROLS, the logical positions returned may not be correct. It is advised to use, when possible, reordering options such as OPTION_INSERT_MARKS and OPTION_REMOVE_CONTROLS.

Returns
int[] an array of getResultLength() indexes which will reflect the reordering of the characters.

The index map will result in indexMap[visualIndex]==logicalIndex, where indexMap represents the returned array.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

getVisualRun

Added in API level 29
public BidiRun getVisualRun (int runIndex)

Get a BidiRun object according to its index. BidiRun methods may be used to retrieve the run's logical start, length and level, which can be even for an LTR run or odd for an RTL run. In an RTL run, the character at the logical start is visually on the right of the displayed run. The length is the number of characters in the run.

countRuns() is normally called before the runs are retrieved.

Example:

  Bidi bidi = new Bidi();
  String text = "abc 123 DEFG xyz";
  bidi.setPara(text, Bidi.RTL, null);
  int i, count=bidi.countRuns(), logicalStart, visualIndex=0, length;
  BidiRun run;
  for (i = 0; i < count; ++i) {
      run = bidi.getVisualRun(i);
      logicalStart = run.getStart();
      length = run.getLength();
      if (Bidi.LTR == run.getEmbeddingLevel()) {
          do { // LTR
              show_char(text.charAt(logicalStart++), visualIndex++);
          } while (--length > 0);
      } else {
          logicalStart += length;  // logicalLimit
          do { // RTL
              show_char(text.charAt(--logicalStart), visualIndex++);
          } while (--length > 0);
      }
  }
 

Note that in right-to-left runs, code like this places second surrogates before first ones (which is generally a bad idea) and combining characters before base characters.

Use of writeReordered(int), optionally with the KEEP_BASE_COMBINING option, can be considered in order to avoid these issues.

Parameters
runIndex int: is the number of the run in visual order, in the range [0..countRuns()-1].

Returns
BidiRun a BidiRun object containing the details of the run. The directionality of the run is LTR==0 or RTL==1, never MIXED.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine
IllegalArgumentException if runIndex is not in the range 0<=runIndex<countRuns()

invertMap

Added in API level 29
public static int[] invertMap (int[] srcMap)

Invert an index map. The index mapping of the argument map is inverted and returned as an array of indexes that we will call the inverse map.

Parameters
srcMap int: is an array whose elements define the original mapping from a source array to a destination array. Some elements of the source array may have no mapping in the destination array. In that case, their value will be the special value MAP_NOWHERE. All elements must be >=0 or equal to MAP_NOWHERE. Some elements in the source map may have a value greater than the srcMap.length if the destination array has more elements than the source array. There must be no duplicate indexes (two or more elements with the same value except MAP_NOWHERE).

Returns
int[] an array representing the inverse map. This array has a number of elements equal to 1 + the highest value in srcMap. For elements of the result array which have no matching elements in the source array, the corresponding elements in the inverse map will receive a value equal to MAP_NOWHERE. If element with index i in srcMap has a value k different from MAP_NOWHERE, this means that element i of the source array maps to element k in the destination array. The inverse map will have value i in its k-th element. For all elements of the destination array which do not map to an element in the source array, the corresponding element in the inverse map will have a value equal to MAP_NOWHERE.

See also:

isInverse

Added in API level 29
public boolean isInverse ()

Is this Bidi object set to perform the inverse Bidi algorithm?

Note: calling this method after setting the reordering mode with setReorderingMode will return true if the reordering mode was set to REORDER_INVERSE_NUMBERS_AS_L, false for all other values.

Returns
boolean true if the Bidi object is set to perform the inverse Bidi algorithm by handling numbers as L.

isLeftToRight

Added in API level 29
public boolean isLeftToRight ()

Return true if the line is all left-to-right text and the base direction is left-to-right.

Returns
boolean true if the line is all left-to-right text and the base direction is left-to-right.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara

isMixed

Added in API level 29
public boolean isMixed ()

Return true if the line is not left-to-right or right-to-left. This means it either has mixed runs of left-to-right and right-to-left text, or the base direction differs from the direction of the only run of text.

Returns
boolean true if the line is not left-to-right or right-to-left.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara

isOrderParagraphsLTR

Added in API level 29
public boolean isOrderParagraphsLTR ()

Is this Bidi object set to allocate level 0 to block separators so that successive paragraphs progress from left to right?

Returns
boolean true if the Bidi object is set to allocate level 0 to block separators.

isRightToLeft

Added in API level 29
public boolean isRightToLeft ()

Return true if the line is all right-to-left text, and the base direction is right-to-left

Returns
boolean true if the line is all right-to-left text, and the base direction is right-to-left

Throws
IllegalStateException if this call is not preceded by a successful call to setPara

orderParagraphsLTR

Added in API level 29
public void orderParagraphsLTR (boolean ordarParaLTR)

Specify whether block separators must be allocated level zero, so that successive paragraphs will progress from left to right. This method must be called before setPara(). Paragraph separators (B) may appear in the text. Setting them to level zero means that all paragraph separators (including one possibly appearing in the last text position) are kept in the reordered text after the text that they follow in the source text. When this feature is not enabled, a paragraph separator at the last position of the text before reordering will go to the first position of the reordered text when the paragraph level is odd.

Parameters
ordarParaLTR boolean: specifies whether paragraph separators (B) must receive level 0, so that successive paragraphs progress from left to right.

reorderLogical

Added in API level 29
public static int[] reorderLogical (byte[] levels)

This is a convenience method that does not use a Bidi object. It is intended to be used for when an application has determined the levels of objects (character sequences) and just needs to have them reordered (L2). This is equivalent to using getLogicalMap() on a Bidi object.

Parameters
levels byte: is an array of levels that have been determined by the application.

Returns
int[] an array of levels.length indexes which will reflect the reordering of the characters.

The index map will result in indexMap[logicalIndex]==visualIndex, where indexMap represents the returned array.

reorderVisual

Added in API level 29
public static int[] reorderVisual (byte[] levels)

This is a convenience method that does not use a Bidi object. It is intended to be used for when an application has determined the levels of objects (character sequences) and just needs to have them reordered (L2). This is equivalent to using getVisualMap() on a Bidi object.

Parameters
levels byte: is an array of levels that have been determined by the application.

Returns
int[] an array of levels.length indexes which will reflect the reordering of the characters.

The index map will result in indexMap[visualIndex]==logicalIndex, where indexMap represents the returned array.

reorderVisually

Added in API level 29
public static void reorderVisually (byte[] levels, 
                int levelStart, 
                Object[] objects, 
                int objectStart, 
                int count)

Reorder the objects in the array into visual order based on their levels. This is a utility method to use when you have a collection of objects representing runs of text in logical order, each run containing text at a single level. The elements at index from objectStart up to objectStart + count in the objects array will be reordered into visual order assuming each run of text has the level indicated by the corresponding element in the levels array (at index - objectStart + levelStart).

Parameters
levels byte: an array representing the bidi level of each object

levelStart int: the start position in the levels array

objects Object: the array of objects to be reordered into visual order

objectStart int: the start position in the objects array

count int: the number of objects to reorder

requiresBidi

Added in API level 29
public static boolean requiresBidi (char[] text, 
                int start, 
                int limit)

Return true if the specified text requires bidi analysis. If this returns false, the text will display left-to-right. Clients can then avoid constructing a Bidi object. Text in the Arabic Presentation Forms area of Unicode is presumed to already be shaped and ordered for display, and so will not cause this method to return true.

Parameters
text char: the text containing the characters to test

start int: the start of the range of characters to test

limit int: the limit of the range of characters to test

Returns
boolean true if the range of characters requires bidi analysis

setContext

Added in API level 29
public void setContext (String prologue, 
                String epilogue)

Set the context before a call to setPara().

setPara() computes the left-right directionality for a given piece of text which is supplied as one of its arguments. Sometimes this piece of text (the "main text") should be considered in context, because text appearing before ("prologue") and/or after ("epilogue") the main text may affect the result of this computation.

This function specifies the prologue and/or the epilogue for the next call to setPara(). If successive calls to setPara() all need specification of a context, setContext() must be called before each call to setPara(). In other words, a context is not "remembered" after the following successful call to setPara().

If a call to setPara() specifies DEFAULT_LTR or DEFAULT_RTL as paraLevel and is preceded by a call to setContext() which specifies a prologue, the paragraph level will be computed taking in consideration the text in the prologue.

When setPara() is called without a previous call to setContext, the main text is handled as if preceded and followed by strong directional characters at the current paragraph level. Calling setContext() with specification of a prologue will change this behavior by handling the main text as if preceded by the last strong character appearing in the prologue, if any. Calling setContext() with specification of an epilogue will change the behavior of setPara() by handling the main text as if followed by the first strong character or digit appearing in the epilogue, if any.

Note 1: if setContext is called repeatedly without calling setPara, the earlier calls have no effect, only the last call will be remembered for the next call to setPara.

Note 2: calling setContext(null, null) cancels any previous setting of non-empty prologue or epilogue. The next call to setPara() will process no prologue or epilogue.

Note 3: users must be aware that even after setting the context before a call to setPara() to perform e.g. a logical to visual transformation, the resulting string may not be identical to what it would have been if all the text, including prologue and epilogue, had been processed together.
Example (upper case letters represent RTL characters):
  prologue = "abc DE"
  epilogue = none
  main text = "FGH xyz"
  paraLevel = LTR
  display without prologue = "HGF xyz" ("HGF" is adjacent to "xyz")
  display with prologue = "abc HGFED xyz" ("HGF" is not adjacent to "xyz")

Parameters
prologue String: is the text which precedes the text that will be specified in a coming call to setPara(). If there is no prologue to consider, this parameter can be null.

epilogue String: is the text which follows the text that will be specified in a coming call to setPara(). If there is no epilogue to consider, this parameter can be null.

setCustomClassifier

Added in API level 29
public void setCustomClassifier (BidiClassifier classifier)

Set a custom Bidi classifier used by the UBA implementation for Bidi class determination.

Parameters
classifier BidiClassifier: A new custom classifier. This can be null.

setInverse

Added in API level 29
public void setInverse (boolean isInverse)

Modify the operation of the Bidi algorithm such that it approximates an "inverse Bidi" algorithm. This method must be called before setPara().

The normal operation of the Bidi algorithm as described in the Unicode Technical Report is to take text stored in logical (keyboard, typing) order and to determine the reordering of it for visual rendering. Some legacy systems store text in visual order, and for operations with standard, Unicode-based algorithms, the text needs to be transformed to logical order. This is effectively the inverse algorithm of the described Bidi algorithm. Note that there is no standard algorithm for this "inverse Bidi" and that the current implementation provides only an approximation of "inverse Bidi".

With isInversed set to true, this method changes the behavior of some of the subsequent methods in a way that they can be used for the inverse Bidi algorithm. Specifically, runs of text with numeric characters will be treated in a special way and may need to be surrounded with LRM characters when they are written in reordered sequence.

Output runs should be retrieved using getVisualRun(). Since the actual input for "inverse Bidi" is visually ordered text and getVisualRun() gets the reordered runs, these are actually the runs of the logically ordered output.

Calling this method with argument isInverse set to true is equivalent to calling setReorderingMode with argument reorderingMode set to REORDER_INVERSE_NUMBERS_AS_L.
Calling this method with argument isInverse set to false is equivalent to calling setReorderingMode with argument reorderingMode set to REORDER_DEFAULT.

Parameters
isInverse boolean: specifies "forward" or "inverse" Bidi operation.

setLine

Added in API level 29
public Bidi setLine (int start, 
                int limit)

setLine() returns a Bidi object to contain the reordering information, especially the resolved levels, for all the characters in a line of text. This line of text is specified by referring to a Bidi object representing this information for a piece of text containing one or more paragraphs, and by specifying a range of indexes in this text.

In the new line object, the indexes will range from 0 to limit-start-1.

This is used after calling setPara() for a piece of text, and after line-breaking on that text. It is not necessary if each paragraph is treated as a single line.

After line-breaking, rules (L1) and (L2) for the treatment of trailing WS and for reordering are performed on a Bidi object that represents a line.

Important: the line Bidi object may reference data within the global text Bidi object. You should not alter the content of the global text object until you are finished using the line object.

Parameters
start int: is the line's first index into the text.

limit int: is just behind the line's last index into the text (its last index +1).

Returns
Bidi a Bidi object that will now represent a line of the text.

Throws
IllegalStateException if this call is not preceded by a successful call to setPara
IllegalArgumentException if start and limit are not in the range 0<=start<limit<=getProcessedLength(), or if the specified line crosses a paragraph boundary

setPara

Added in API level 29
public void setPara (AttributedCharacterIterator paragraph)

Perform the Unicode Bidi algorithm on a given paragraph, as defined in the Unicode Standard Annex #9, version 13, also described in The Unicode Standard, Version 4.0 .

This method takes a paragraph of text and computes the left-right-directionality of each character. The text should not contain any Unicode block separators.

The RUN_DIRECTION attribute in the text, if present, determines the base direction (left-to-right or right-to-left). If not present, the base direction is computed using the Unicode Bidirectional Algorithm, defaulting to left-to-right if there are no strong directional characters in the text. This attribute, if present, must be applied to all the text in the paragraph.

The BIDI_EMBEDDING attribute in the text, if present, represents embedding level information. Negative values indicate overrides at the absolute value of the level. Positive values indicate embeddings. (See MAX_EXPLICIT_LEVEL.) Where values are zero or not defined, the base embedding level as determined by the base direction is assumed.

The NUMERIC_SHAPING attribute in the text, if present, converts European digits to other decimal digits before running the bidi algorithm. This attribute, if present, must be applied to all the text in the paragraph. If the entire text is all of the same directionality, then the method may not perform all the steps described by the algorithm, i.e., some levels may not be the same as if all steps were performed. This is not relevant for unidirectional text.
For example, in pure LTR text with numbers the numbers would get a resolved level of 2 higher than the surrounding text according to the algorithm. This implementation may set all resolved levels to the same value in such a case.

Parameters
paragraph AttributedCharacterIterator: a paragraph of text with optional character and paragraph attribute information

setPara

Added in API level 29
public void setPara (char[] chars, 
                byte paraLevel, 
                byte[] embeddingLevels)

Perform the Unicode Bidi algorithm. It is defined in the Unicode Standard Annex #9.

This method takes a piece of plain text containing one or more paragraphs, with or without externally specified embedding levels from styled text and computes the left-right-directionality of each character.

If the entire text is all of the same directionality, then the method may not perform all the steps described by the algorithm, i.e., some levels may not be the same as if all steps were performed. This is not relevant for unidirectional text.
For example, in pure LTR text with numbers the numbers would get a resolved level of 2 higher than the surrounding text according to the algorithm. This implementation may set all resolved levels to the same value in such a case.

The text can be composed of multiple paragraphs. Occurrence of a block separator in the text terminates a paragraph, and whatever comes next starts a new paragraph. The exception to this rule is when a Carriage Return (CR) is followed by a Line Feed (LF). Both CR and LF are block separators, but in that case, the pair of characters is considered as terminating the preceding paragraph, and a new paragraph will be started by a character coming after the LF.

The text is stored internally as an array of characters. Therefore the documentation will refer to indexes of the characters in the text.

Parameters
chars char: contains the text that the Bidi algorithm will be performed on. This text can be retrieved with getText() or getTextAsString.

paraLevel byte: specifies the default level for the text; it is typically 0 (LTR) or 1 (RTL). If the method shall determine the paragraph level from the text, then paraLevel can be set to either LEVEL_DEFAULT_LTR or LEVEL_DEFAULT_RTL; if the text contains multiple paragraphs, the paragraph level shall be determined separately for each paragraph; if a paragraph does not include any strongly typed character, then the desired default is used (0 for LTR or 1 for RTL). Any other value between 0 and MAX_EXPLICIT_LEVEL is also valid, with odd levels indicating RTL.

embeddingLevels byte: (in) may be used to preset the embedding and override levels, ignoring characters like LRE and PDF in the text. A level overrides the directional property of its corresponding (same index) character if the level has the LEVEL_OVERRIDE bit set.

Aside from that bit, it must be paraLevel<=embeddingLevels[]<=MAX_EXPLICIT_LEVEL, except that level 0 is always allowed. Level 0 for a paragraph separator prevents reordering of paragraphs; this only works reliably if LEVEL_OVERRIDE is also set for paragraph separators. Level 0 for other characters is treated as a wildcard and is lifted up to the resolved level of the surrounding paragraph.

Caution: A reference to this array, not a copy of the levels, will be stored in the Bidi object; the embeddingLevels should not be modified to avoid unexpected results on subsequent Bidi operations. However, the setPara() and setLine() methods may modify some or all of the levels.

Note: the embeddingLevels array must have one entry for each character in text.

Throws
IllegalArgumentException if the values in embeddingLevels are not within the allowed range

setPara

Added in API level 29
public void setPara (String text, 
                byte paraLevel, 
                byte[] embeddingLevels)

Perform the Unicode Bidi algorithm. It is defined in the Unicode Standard Annex #9.

This method takes a piece of plain text containing one or more paragraphs, with or without externally specified embedding levels from styled text and computes the left-right-directionality of each character.

If the entire text is all of the same directionality, then the method may not perform all the steps described by the algorithm, i.e., some levels may not be the same as if all steps were performed. This is not relevant for unidirectional text.
For example, in pure LTR text with numbers the numbers would get a resolved level of 2 higher than the surrounding text according to the algorithm. This implementation may set all resolved levels to the same value in such a case.

The text can be composed of multiple paragraphs. Occurrence of a block separator in the text terminates a paragraph, and whatever comes next starts a new paragraph. The exception to this rule is when a Carriage Return (CR) is followed by a Line Feed (LF). Both CR and LF are block separators, but in that case, the pair of characters is considered as terminating the preceding paragraph, and a new paragraph will be started by a character coming after the LF.

Although the text is passed here as a String, it is stored internally as an array of characters. Therefore the documentation will refer to indexes of the characters in the text.

Parameters
text String: contains the text that the Bidi algorithm will be performed on. This text can be retrieved with getText() or getTextAsString.

paraLevel byte: specifies the default level for the text; it is typically 0 (LTR) or 1 (RTL). If the method shall determine the paragraph level from the text, then paraLevel can be set to either LEVEL_DEFAULT_LTR or LEVEL_DEFAULT_RTL; if the text contains multiple paragraphs, the paragraph level shall be determined separately for each paragraph; if a paragraph does not include any strongly typed character, then the desired default is used (0 for LTR or 1 for RTL). Any other value between 0 and MAX_EXPLICIT_LEVEL is also valid, with odd levels indicating RTL.

embeddingLevels byte: (in) may be used to preset the embedding and override levels, ignoring characters like LRE and PDF in the text. A level overrides the directional property of its corresponding (same index) character if the level has the LEVEL_OVERRIDE bit set.

Aside from that bit, it must be paraLevel<=embeddingLevels[]<=MAX_EXPLICIT_LEVEL, except that level 0 is always allowed. Level 0 for a paragraph separator prevents reordering of paragraphs; this only works reliably if LEVEL_OVERRIDE is also set for paragraph separators. Level 0 for other characters is treated as a wildcard and is lifted up to the resolved level of the surrounding paragraph.

Caution: A reference to this array, not a copy of the levels, will be stored in the Bidi object; the embeddingLevels should not be modified to avoid unexpected results on subsequent Bidi operations. However, the setPara() and setLine() methods may modify some or all of the levels.

Note: the embeddingLevels array must have one entry for each character in text.

Throws
IllegalArgumentException if the values in embeddingLevels are not within the allowed range

setReorderingMode

Added in API level 29
public void setReorderingMode (int reorderingMode)

Modify the operation of the Bidi algorithm such that it implements some variant to the basic Bidi algorithm or approximates an "inverse Bidi" algorithm, depending on different values of the "reordering mode". This method must be called before setPara(), and stays in effect until called again with a different argument.

The normal operation of the Bidi algorithm as described in the Unicode Standard Annex #9 is to take text stored in logical (keyboard, typing) order and to determine how to reorder it for visual rendering.

With the reordering mode set to a value other than REORDER_DEFAULT, this method changes the behavior of some of the subsequent methods in a way such that they implement an inverse Bidi algorithm or some other algorithm variants.

Some legacy systems store text in visual order, and for operations with standard, Unicode-based algorithms, the text needs to be transformed into logical order. This is effectively the inverse algorithm of the described Bidi algorithm. Note that there is no standard algorithm for this "inverse Bidi", so a number of variants are implemented here.

In other cases, it may be desirable to emulate some variant of the Logical to Visual algorithm (e.g. one used in MS Windows), or perform a Logical to Logical transformation.

  • When the Reordering Mode is set to REORDER_DEFAULT, the standard Bidi Logical to Visual algorithm is applied.
  • When the reordering mode is set to REORDER_NUMBERS_SPECIAL, the algorithm used to perform Bidi transformations when calling setPara should approximate the algorithm used in Microsoft Windows XP rather than strictly conform to the Unicode Bidi algorithm.
    The differences between the basic algorithm and the algorithm addressed by this option are as follows:
    • Within text at an even embedding level, the sequence "123AB" (where AB represent R or AL letters) is transformed to "123BA" by the Unicode algorithm and to "BA123" by the Windows algorithm.
    • Arabic-Indic numbers (AN) are handled by the Windows algorithm just like regular numbers (EN).
  • When the reordering mode is set to REORDER_GROUP_NUMBERS_WITH_R, numbers located between LTR text and RTL text are associated with the RTL text. For instance, an LTR paragraph with content "abc 123 DEF" (where upper case letters represent RTL characters) will be transformed to "abc FED 123" (and not "abc 123 FED"), "DEF 123 abc" will be transformed to "123 FED abc" and "123 FED abc" will be transformed to "DEF 123 abc". This makes the algorithm reversible and makes it useful when round trip (from visual to logical and back to visual) must be achieved without adding LRM characters. However, this is a variation from the standard Unicode Bidi algorithm.
    The source text should not contain Bidi control characters other than LRM or RLM.
  • When the reordering mode is set to REORDER_RUNS_ONLY, a "Logical to Logical" transformation must be performed:
    • If the default text level of the source text (argument paraLevel in setPara) is even, the source text will be handled as LTR logical text and will be transformed to the RTL logical text which has the same LTR visual display.
    • If the default level of the source text is odd, the source text will be handled as RTL logical text and will be transformed to the LTR logical text which has the same LTR visual display.
    This mode may be needed when logical text which is basically Arabic or Hebrew, with possible included numbers or phrases in English, has to be displayed as if it had an even embedding level (this can happen if the displaying application treats all text as if it was basically LTR).
    This mode may also be needed in the reverse case, when logical text which is basically English, with possible included phrases in Arabic or Hebrew, has to be displayed as if it had an odd embedding level.
    Both cases could be handled by adding LRE or RLE at the head of the text, if the display subsystem supports these formatting controls. If it does not, the problem may be handled by transforming the source text in this mode before displaying it, so that it will be displayed properly.
    The source text should not contain Bidi control characters other than LRM or RLM.
  • When the reordering mode is set to REORDER_INVERSE_NUMBERS_AS_L, an "inverse Bidi" algorithm is applied. Runs of text with numeric characters will be treated like LTR letters and may need to be surrounded with LRM characters when they are written in reordered sequence (the option INSERT_LRM_FOR_NUMERIC can be used with method writeReordered to this end. This mode is equivalent to calling setInverse() with argument isInverse set to true.
  • When the reordering mode is set to REORDER_INVERSE_LIKE_DIRECT, the "direct" Logical to Visual Bidi algorithm is used as an approximation of an "inverse Bidi" algorithm. This mode is similar to mode REORDER_INVERSE_NUMBERS_AS_L but is closer to the regular Bidi algorithm.
    For example, an LTR paragraph with the content "FED 123 456 CBA" (where upper case represents RTL characters) will be transformed to "ABC 456 123 DEF", as opposed to "DEF 123 456 ABC" with mode REORDER_INVERSE_NUMBERS_AS_L.
    When used in conjunction with option OPTION_INSERT_MARKS, this mode generally adds Bidi marks to the output significantly more sparingly than mode REORDER_INVERSE_NUMBERS_AS_L.
    with option INSERT_LRM_FOR_NUMERIC in calls to writeReordered.
  • When the reordering mode is set to REORDER_INVERSE_FOR_NUMBERS_SPECIAL, the Logical to Visual Bidi algorithm used in Windows XP is used as an approximation of an "inverse Bidi" algorithm.
    For example, an LTR paragraph with the content "abc FED123" (where upper case represents RTL characters) will be transformed to "abc 123DEF.

In all the reordering modes specifying an "inverse Bidi" algorithm (i.e. those with a name starting with REORDER_INVERSE), output runs should be retrieved using getVisualRun(), and the output text with writeReordered(). The caller should keep in mind that in "inverse Bidi" modes the input is actually visually ordered text and reordered output returned by getVisualRun() or writeReordered() are actually runs or character string of logically ordered output.
For all the "inverse Bidi" modes, the source text should not contain Bidi control characters other than LRM or RLM.

Note that option OUTPUT_REVERSE of writeReordered has no useful meaning and should not be used in conjunction with any value of the reordering mode specifying "inverse Bidi" or with value REORDER_RUNS_ONLY.

Parameters
reorderingMode int: specifies the required variant of the Bidi algorithm.

setReorderingOptions

Added in API level 29
public void setReorderingOptions (int options)

Specify which of the reordering options should be applied during Bidi transformations.

Parameters
options int: A combination of zero or more of the following reordering options: OPTION_DEFAULT, OPTION_INSERT_MARKS, OPTION_REMOVE_CONTROLS, OPTION_STREAMING.

writeReordered

Added in API level 29
public String writeReordered (int options)

Take a Bidi object containing the reordering information for a piece of text (one or more paragraphs) set by setPara() or for a line of text set by setLine() and return a string containing the reordered text.

The text may have been aliased (only a reference was stored without copying the contents), thus it must not have been modified since the setPara() call. This method preserves the integrity of characters with multiple code units and (optionally) combining characters. Characters in RTL runs can be replaced by mirror-image characters in the returned string. Note that "real" mirroring has to be done in a rendering engine by glyph selection and that for many "mirrored" characters there are no Unicode characters as mirror-image equivalents. There are also options to insert or remove Bidi control characters; see the descriptions of the return value and the options parameter, and of the option bit flags.

Parameters
options int: A bit set of options for the reordering that control how the reordered text is written. The options include mirroring the characters on a code point basis and inserting LRM characters, which is used especially for transforming visually stored text to logically stored text (although this is still an imperfect implementation of an "inverse Bidi" algorithm because it uses the "forward Bidi" algorithm at its core). The available options are: DO_MIRRORING, INSERT_LRM_FOR_NUMERIC, KEEP_BASE_COMBINING, OUTPUT_REVERSE, REMOVE_BIDI_CONTROLS, STREAMING

Returns
String The reordered text. If the INSERT_LRM_FOR_NUMERIC option is set, then the length of the returned string could be as large as getLength()+2*countRuns().
If the REMOVE_BIDI_CONTROLS option is set, then the length of the returned string may be less than getLength().
If none of these options is set, then the length of the returned string will be exactly getProcessedLength().

Throws
IllegalStateException if this call is not preceded by a successful call to setPara or setLine

writeReverse

Added in API level 29
public static String writeReverse (String src, 
                int options)

Reverse a Right-To-Left run of Unicode text. This method preserves the integrity of characters with multiple code units and (optionally) combining characters. Characters can be replaced by mirror-image characters in the destination buffer. Note that "real" mirroring has to be done in a rendering engine by glyph selection and that for many "mirrored" characters there are no Unicode characters as mirror-image equivalents. There are also options to insert or remove Bidi control characters. This method is the implementation for reversing RTL runs as part of writeReordered(). For detailed descriptions of the parameters, see there. Since no Bidi controls are inserted here, the output string length will never exceed src.length().

Parameters
src String: The RTL run text.

options int: A bit set of options for the reordering that control how the reordered text is written. See the options parameter in writeReordered().

Returns
String The reordered text. If the REMOVE_BIDI_CONTROLS option is set, then the length of the returned string may be less than src.length(). If this option is not set, then the length of the returned string will be exactly src.length().

Throws
IllegalArgumentException if src is null.