Issue #325 Part 13: Remove Mozilla implementation of the bidi engine completely and use ICU.

6 files changed, 182 insertions, 3010 deletions

diff --git a/layout/base/moz.build b/layout/base/moz.build
index 90fbf828c..d3e417f16 100644
--- a/layout/base/moz.build
+++ b/layout/base/moz.build
@@ -131,6 +131,7 @@ UNIFIED_SOURCES += [
     'LayoutLogging.cpp',
     'MaskLayerImageCache.cpp',
     'MobileViewportManager.cpp',
+    'nsBidi.cpp',
     'nsBidiPresUtils.cpp',
     'nsCaret.cpp',
     'nsCounterManager.cpp',
@@ -165,21 +166,6 @@ UNIFIED_SOURCES += [
     'ZoomConstraintsClient.cpp',
 ]
 
-if CONFIG['ENABLE_INTL_API']:
-    EXPORTS += [
-        'nsBidi_ICU.h',
-    ]
-    UNIFIED_SOURCES += [
-        'nsBidi_ICU.cpp',
-    ]
-else:
-    EXPORTS += [
-        'nsBidi_noICU.h',
-    ]
-    UNIFIED_SOURCES += [
-        'nsBidi_noICU.cpp',
-    ]
-
 # nsPresArena.cpp needs to be built separately because it uses plarena.h.
 # nsRefreshDriver.cpp needs to be built separately because of name clashes in the OS X headers
 SOURCES += [
diff --git a/layout/base/nsBidi_ICU.cpp b/layout/base/nsBidi.cpp
index 482668e24..1d6975869 100644
--- a/layout/base/nsBidi_ICU.cpp
+++ b/layout/base/nsBidi.cpp
@@ -4,7 +4,7 @@
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
 
-#include "nsBidi_ICU.h"
+#include "nsBidi.h"
 #include "ICUUtils.h"
 
 nsBidi::nsBidi()
diff --git a/layout/base/nsBidi.h b/layout/base/nsBidi.h
index c7c367092..731bc7116 100644
--- a/layout/base/nsBidi.h
+++ b/layout/base/nsBidi.h
@@ -7,10 +7,184 @@
 #ifndef nsBidi_h__
 #define nsBidi_h__
 
-#if ENABLE_INTL_API
-#include "nsBidi_ICU.h"
-#else
-#include "nsBidi_noICU.h"
-#endif
+#include "unicode/ubidi.h"
+#include "nsIFrame.h" // for nsBidiLevel/nsBidiDirection declarations
 
-#endif // _nsBidi_h_
+// nsBidi implemented as a simple wrapper around the bidi reordering engine
+// from ICU.
+// We could eliminate this and let callers use the ICU functions directly
+// once we no longer care about building without ICU available.
+
+class nsBidi
+{
+public:
+  /** @brief Default constructor.
+   *
+   * The nsBidi object is initially empty. It is assigned
+   * the Bidi properties of a paragraph by <code>SetPara()</code>.
+   */
+  explicit nsBidi();
+
+  /** @brief Destructor. */
+  virtual ~nsBidi();
+
+
+  /**
+   * Perform the Unicode Bidi algorithm.
+   *
+   * @param aText is a pointer to the single-paragraph text that the
+   *      Bidi algorithm will be performed on
+   *      (step (P1) of the algorithm is performed externally).
+   *      <strong>The text must be (at least) <code>aLength</code> long.</strong>
+   *
+   * @param aLength is the length of the text; if <code>aLength==-1</code> then
+   *      the text must be zero-terminated.
+   *
+   * @param aParaLevel specifies the default level for the paragraph;
+   *      it is typically 0 (LTR) or 1 (RTL).
+   *      If the function shall determine the paragraph level from the text,
+   *      then <code>aParaLevel</code> can be set to
+   *      either <code>NSBIDI_DEFAULT_LTR</code>
+   *      or <code>NSBIDI_DEFAULT_RTL</code>;
+   *      if there is no strongly typed character, then
+   *      the desired default is used (0 for LTR or 1 for RTL).
+   *      Any other value between 0 and <code>NSBIDI_MAX_EXPLICIT_LEVEL</code>
+   *      is also valid, with odd levels indicating RTL.
+   */
+  nsresult SetPara(const char16_t *aText, int32_t aLength,
+                   nsBidiLevel aParaLevel);
+
+  /**
+   * Get the directionality of the text.
+   *
+   * @param aDirection receives a <code>NSBIDI_XXX</code> value that indicates
+   *       if the entire text represented by this object is unidirectional,
+   *       and which direction, or if it is mixed-directional.
+   *
+   * @see nsBidiDirection
+   */
+  nsresult GetDirection(nsBidiDirection* aDirection);
+
+  /**
+   * Get the paragraph level of the text.
+   *
+   * @param aParaLevel receives a <code>NSBIDI_XXX</code> value indicating
+   *                   the paragraph level
+   *
+   * @see nsBidiLevel
+   */
+  nsresult GetParaLevel(nsBidiLevel* aParaLevel);
+
+  /**
+   * Get a logical run.
+   * This function returns information about a run and is used
+   * to retrieve runs in logical order.<p>
+   * This is especially useful for line-breaking on a paragraph.
+   *
+   * @param aLogicalStart is the first character of the run.
+   *
+   * @param aLogicalLimit will receive the limit of the run.
+   *      The l-value that you point to here may be the
+   *      same expression (variable) as the one for
+   *      <code>aLogicalStart</code>.
+   *      This pointer can be <code>nullptr</code> if this
+   *      value is not necessary.
+   *
+   * @param aLevel will receive the level of the run.
+   *      This pointer can be <code>nullptr</code> if this
+   *      value is not necessary.
+   */
+  nsresult GetLogicalRun(int32_t aLogicalStart, int32_t* aLogicalLimit,
+                         nsBidiLevel* aLevel);
+
+  /**
+   * Get the number of runs.
+   * This function may invoke the actual reordering on the
+   * <code>nsBidi</code> object, after <code>SetPara</code>
+   * may have resolved only the levels of the text. Therefore,
+   * <code>CountRuns</code> may have to allocate memory,
+   * and may fail doing so.
+   *
+   * @param aRunCount will receive the number of runs.
+   */
+  nsresult CountRuns(int32_t* aRunCount);
+
+  /**
+   * Get one run's logical start, length, and directionality,
+   * which can be 0 for LTR or 1 for RTL.
+   * 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.<p>
+   * <code>CountRuns</code> should be called
+   * before the runs are retrieved.
+   *
+   * @param aRunIndex is the number of the run in visual order, in the
+   *      range <code>[0..CountRuns-1]</code>.
+   *
+   * @param aLogicalStart is the first logical character index in the text.
+   *      The pointer may be <code>nullptr</code> if this index is not needed.
+   *
+   * @param aLength is the number of characters (at least one) in the run.
+   *      The pointer may be <code>nullptr</code> if this is not needed.
+   *
+   * @param aDirection will receive the directionality of the run,
+   *       <code>NSBIDI_LTR==0</code> or <code>NSBIDI_RTL==1</code>,
+   *       never <code>NSBIDI_MIXED</code>.
+   *
+   * @see CountRuns<p>
+   *
+   * Example:
+   * @code
+   *  int32_t i, count, logicalStart, visualIndex=0, length;
+   *  nsBidiDirection dir;
+   *  pBidi->CountRuns(&count);
+   *  for(i=0; i<count; ++i) {
+   *    pBidi->GetVisualRun(i, &logicalStart, &length, &dir);
+   *    if(NSBIDI_LTR==dir) {
+   *      do { // LTR
+   *        show_char(text[logicalStart++], visualIndex++);
+   *      } while(--length>0);
+   *    } else {
+   *      logicalStart+=length;  // logicalLimit
+   *      do { // RTL
+   *        show_char(text[--logicalStart], visualIndex++);
+   *      } while(--length>0);
+   *    }
+   *  }
+   * @endcode
+   *
+   * Note that in right-to-left runs, code like this places
+   * modifier letters before base characters and second surrogates
+   * before first ones.
+   */
+  nsresult GetVisualRun(int32_t aRunIndex, int32_t* aLogicalStart,
+                        int32_t* aLength, nsBidiDirection* aDirection);
+
+  /**
+   * This is a convenience function that does not use a nsBidi 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 <code>GetVisualMap</code> on a
+   * <code>nsBidi</code> object.
+   *
+   * @param aLevels is an array with <code>aLength</code> levels that have been
+   *      determined by the application.
+   *
+   * @param aLength is the number of levels in the array, or, semantically,
+   *      the number of objects to be reordered.
+   *      It must be <code>aLength>0</code>.
+   *
+   * @param aIndexMap is a pointer to an array of <code>aLength</code>
+   *      indexes which will reflect the reordering of the characters.
+   *      The array does not need to be initialized.<p>
+   *      The index map will result in
+   *        <code>aIndexMap[aVisualIndex]==aLogicalIndex</code>.
+   */
+  static nsresult ReorderVisual(const nsBidiLevel* aLevels, int32_t aLength,
+                                int32_t* aIndexMap);
+
+protected:
+  UBiDi* mBiDi;
+};
+
+#endif // nsBidi_h__
diff --git a/layout/base/nsBidi_ICU.h b/layout/base/nsBidi_ICU.h
deleted file mode 100644
index 3ead6e2bb..000000000
--- a/layout/base/nsBidi_ICU.h
+++ /dev/null
@@ -1,190 +0,0 @@
-/* -*- Mode: C; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
- *
- * This Source Code Form is subject to the terms of the Mozilla Public
- * License, v. 2.0. If a copy of the MPL was not distributed with this
- * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
-
-#ifndef nsBidi_ICU_h__
-#define nsBidi_ICU_h__
-
-#include "unicode/ubidi.h"
-#include "nsIFrame.h" // for nsBidiLevel/nsBidiDirection declarations
-
-// nsBidi implemented as a simple wrapper around the bidi reordering engine
-// from ICU.
-// We could eliminate this and let callers use the ICU functions directly
-// once we no longer care about building without ICU available.
-
-class nsBidi
-{
-public:
-  /** @brief Default constructor.
-   *
-   * The nsBidi object is initially empty. It is assigned
-   * the Bidi properties of a paragraph by <code>SetPara()</code>.
-   */
-  explicit nsBidi();
-
-  /** @brief Destructor. */
-  virtual ~nsBidi();
-
-
-  /**
-   * Perform the Unicode Bidi algorithm.
-   *
-   * @param aText is a pointer to the single-paragraph text that the
-   *      Bidi algorithm will be performed on
-   *      (step (P1) of the algorithm is performed externally).
-   *      <strong>The text must be (at least) <code>aLength</code> long.</strong>
-   *
-   * @param aLength is the length of the text; if <code>aLength==-1</code> then
-   *      the text must be zero-terminated.
-   *
-   * @param aParaLevel specifies the default level for the paragraph;
-   *      it is typically 0 (LTR) or 1 (RTL).
-   *      If the function shall determine the paragraph level from the text,
-   *      then <code>aParaLevel</code> can be set to
-   *      either <code>NSBIDI_DEFAULT_LTR</code>
-   *      or <code>NSBIDI_DEFAULT_RTL</code>;
-   *      if there is no strongly typed character, then
-   *      the desired default is used (0 for LTR or 1 for RTL).
-   *      Any other value between 0 and <code>NSBIDI_MAX_EXPLICIT_LEVEL</code>
-   *      is also valid, with odd levels indicating RTL.
-   */
-  nsresult SetPara(const char16_t *aText, int32_t aLength,
-                   nsBidiLevel aParaLevel);
-
-  /**
-   * Get the directionality of the text.
-   *
-   * @param aDirection receives a <code>NSBIDI_XXX</code> value that indicates
-   *       if the entire text represented by this object is unidirectional,
-   *       and which direction, or if it is mixed-directional.
-   *
-   * @see nsBidiDirection
-   */
-  nsresult GetDirection(nsBidiDirection* aDirection);
-
-  /**
-   * Get the paragraph level of the text.
-   *
-   * @param aParaLevel receives a <code>NSBIDI_XXX</code> value indicating
-   *                   the paragraph level
-   *
-   * @see nsBidiLevel
-   */
-  nsresult GetParaLevel(nsBidiLevel* aParaLevel);
-
-  /**
-   * Get a logical run.
-   * This function returns information about a run and is used
-   * to retrieve runs in logical order.<p>
-   * This is especially useful for line-breaking on a paragraph.
-   *
-   * @param aLogicalStart is the first character of the run.
-   *
-   * @param aLogicalLimit will receive the limit of the run.
-   *      The l-value that you point to here may be the
-   *      same expression (variable) as the one for
-   *      <code>aLogicalStart</code>.
-   *      This pointer can be <code>nullptr</code> if this
-   *      value is not necessary.
-   *
-   * @param aLevel will receive the level of the run.
-   *      This pointer can be <code>nullptr</code> if this
-   *      value is not necessary.
-   */
-  nsresult GetLogicalRun(int32_t aLogicalStart, int32_t* aLogicalLimit,
-                         nsBidiLevel* aLevel);
-
-  /**
-   * Get the number of runs.
-   * This function may invoke the actual reordering on the
-   * <code>nsBidi</code> object, after <code>SetPara</code>
-   * may have resolved only the levels of the text. Therefore,
-   * <code>CountRuns</code> may have to allocate memory,
-   * and may fail doing so.
-   *
-   * @param aRunCount will receive the number of runs.
-   */
-  nsresult CountRuns(int32_t* aRunCount);
-
-  /**
-   * Get one run's logical start, length, and directionality,
-   * which can be 0 for LTR or 1 for RTL.
-   * 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.<p>
-   * <code>CountRuns</code> should be called
-   * before the runs are retrieved.
-   *
-   * @param aRunIndex is the number of the run in visual order, in the
-   *      range <code>[0..CountRuns-1]</code>.
-   *
-   * @param aLogicalStart is the first logical character index in the text.
-   *      The pointer may be <code>nullptr</code> if this index is not needed.
-   *
-   * @param aLength is the number of characters (at least one) in the run.
-   *      The pointer may be <code>nullptr</code> if this is not needed.
-   *
-   * @param aDirection will receive the directionality of the run,
-   *       <code>NSBIDI_LTR==0</code> or <code>NSBIDI_RTL==1</code>,
-   *       never <code>NSBIDI_MIXED</code>.
-   *
-   * @see CountRuns<p>
-   *
-   * Example:
-   * @code
-   *  int32_t i, count, logicalStart, visualIndex=0, length;
-   *  nsBidiDirection dir;
-   *  pBidi->CountRuns(&count);
-   *  for(i=0; i<count; ++i) {
-   *    pBidi->GetVisualRun(i, &logicalStart, &length, &dir);
-   *    if(NSBIDI_LTR==dir) {
-   *      do { // LTR
-   *        show_char(text[logicalStart++], visualIndex++);
-   *      } while(--length>0);
-   *    } else {
-   *      logicalStart+=length;  // logicalLimit
-   *      do { // RTL
-   *        show_char(text[--logicalStart], visualIndex++);
-   *      } while(--length>0);
-   *    }
-   *  }
-   * @endcode
-   *
-   * Note that in right-to-left runs, code like this places
-   * modifier letters before base characters and second surrogates
-   * before first ones.
-   */
-  nsresult GetVisualRun(int32_t aRunIndex, int32_t* aLogicalStart,
-                        int32_t* aLength, nsBidiDirection* aDirection);
-
-  /**
-   * This is a convenience function that does not use a nsBidi 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 <code>GetVisualMap</code> on a
-   * <code>nsBidi</code> object.
-   *
-   * @param aLevels is an array with <code>aLength</code> levels that have been
-   *      determined by the application.
-   *
-   * @param aLength is the number of levels in the array, or, semantically,
-   *      the number of objects to be reordered.
-   *      It must be <code>aLength>0</code>.
-   *
-   * @param aIndexMap is a pointer to an array of <code>aLength</code>
-   *      indexes which will reflect the reordering of the characters.
-   *      The array does not need to be initialized.<p>
-   *      The index map will result in
-   *        <code>aIndexMap[aVisualIndex]==aLogicalIndex</code>.
-   */
-  static nsresult ReorderVisual(const nsBidiLevel* aLevels, int32_t aLength,
-                                int32_t* aIndexMap);
-
-protected:
-  UBiDi* mBiDi;
-};
-
-#endif // _nsBidi_ICU_h_
diff --git a/layout/base/nsBidi_noICU.cpp b/layout/base/nsBidi_noICU.cpp
deleted file mode 100644
index 0b9c58e55..000000000
--- a/layout/base/nsBidi_noICU.cpp
+++ /dev/null
@@ -1,2089 +0,0 @@
-/* -*- Mode: C; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
- *
- * This Source Code Form is subject to the terms of the Mozilla Public
- * License, v. 2.0. If a copy of the MPL was not distributed with this
- * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
-
-#include "nsBidi.h"
-#include "nsUnicodeProperties.h"
-#include "nsCRTGlue.h"
-
-using namespace mozilla::unicode;
-
-static_assert(mozilla::kBidiLevelNone > NSBIDI_MAX_EXPLICIT_LEVEL + 1,
-              "The pseudo embedding level should be out-of-range");
-
-// These are #defined in <sys/regset.h> under Solaris 10 x86
-#undef CS
-#undef ES
-
-/*  Comparing the description of the Bidi algorithm with this implementation
-    is easier with the same names for the Bidi types in the code as there.
-*/
-enum {
-    L =   eCharType_LeftToRight,
-    R =   eCharType_RightToLeft,
-    EN =  eCharType_EuropeanNumber,
-    ES =  eCharType_EuropeanNumberSeparator,
-    ET =  eCharType_EuropeanNumberTerminator,
-    AN =  eCharType_ArabicNumber,
-    CS =  eCharType_CommonNumberSeparator,
-    B =   eCharType_BlockSeparator,
-    S =   eCharType_SegmentSeparator,
-    WS =  eCharType_WhiteSpaceNeutral,
-    O_N = eCharType_OtherNeutral,
-    LRE = eCharType_LeftToRightEmbedding,
-    LRO = eCharType_LeftToRightOverride,
-    AL =  eCharType_RightToLeftArabic,
-    RLE = eCharType_RightToLeftEmbedding,
-    RLO = eCharType_RightToLeftOverride,
-    PDF = eCharType_PopDirectionalFormat,
-    NSM = eCharType_DirNonSpacingMark,
-    BN =  eCharType_BoundaryNeutral,
-    LRI = eCharType_LeftToRightIsolate,
-    RLI = eCharType_RightToLeftIsolate,
-    FSI = eCharType_FirstStrongIsolate,
-    PDI = eCharType_PopDirectionalIsolate,
-    ENL,    /* EN after W7 */           /* 23 */
-    ENR,    /* EN not subject to W7 */  /* 24 */
-    dirPropCount
-};
-
-#define IS_STRONG_TYPE(dirProp) ((dirProp) <= R || (dirProp) == AL)
-
-/* to avoid some conditional statements, use tiny constant arrays */
-static Flags flagLR[2]={ DIRPROP_FLAG(L), DIRPROP_FLAG(R) };
-static Flags flagE[2]={ DIRPROP_FLAG(LRE), DIRPROP_FLAG(RLE) };
-static Flags flagO[2]={ DIRPROP_FLAG(LRO), DIRPROP_FLAG(RLO) };
-
-#define DIRPROP_FLAG_LR(level) flagLR[(level)&1]
-#define DIRPROP_FLAG_E(level) flagE[(level)&1]
-#define DIRPROP_FLAG_O(level) flagO[(level)&1]
-
-#define NO_OVERRIDE(level)  ((level)&~NSBIDI_LEVEL_OVERRIDE)
-
-static inline uint8_t
-DirFromStrong(uint8_t aDirProp)
-{
-  MOZ_ASSERT(IS_STRONG_TYPE(aDirProp));
-  return aDirProp == L ? L : R;
-}
-
-/*
- * General implementation notes:
- *
- * Throughout the implementation, there are comments like (W2) that refer to
- * rules of the Bidi algorithm in its version 5, in this example to the second
- * rule of the resolution of weak types.
- *
- * For handling surrogate pairs, where two UChar's form one "abstract" (or UTF-32)
- * character according to UTF-16, the second UChar gets the directional property of
- * the entire character assigned, while the first one gets a BN, a boundary
- * neutral, type, which is ignored by most of the algorithm according to
- * rule (X9) and the implementation suggestions of the Bidi algorithm.
- *
- * Later, AdjustWSLevels() will set the level for each BN to that of the
- * following character (UChar), which results in surrogate pairs getting the
- * same level on each of their surrogates.
- *
- * In a UTF-8 implementation, the same thing could be done: the last byte of
- * a multi-byte sequence would get the "real" property, while all previous
- * bytes of that sequence would get BN.
- *
- * It is not possible to assign all those parts of a character the same real
- * property because this would fail in the resolution of weak types with rules
- * that look at immediately surrounding types.
- *
- * As a related topic, this implementation does not remove Boundary Neutral
- * types from the input, but ignores them whenever this is relevant.
- * For example, the loop for the resolution of the weak types reads
- * types until it finds a non-BN.
- * Also, explicit embedding codes are neither changed into BN nor removed.
- * They are only treated the same way real BNs are.
- * As stated before, AdjustWSLevels() takes care of them at the end.
- * For the purpose of conformance, the levels of all these codes
- * do not matter.
- *
- * Note that this implementation never modifies the dirProps
- * after the initial setup, except for FSI which is changed to either
- * LRI or RLI in GetDirProps(), and paired brackets which may be changed
- * to L or R according to N0.
- *
- *
- * In this implementation, the resolution of weak types (Wn),
- * neutrals (Nn), and the assignment of the resolved level (In)
- * are all done in one single loop, in ResolveImplicitLevels().
- * Changes of dirProp values are done on the fly, without writing
- * them back to the dirProps array.
- *
- *
- * This implementation contains code that allows to bypass steps of the
- * algorithm that are not needed on the specific paragraph
- * in order to speed up the most common cases considerably,
- * like text that is entirely LTR, or RTL text without numbers.
- *
- * Most of this is done by setting a bit for each directional property
- * in a flags variable and later checking for whether there are
- * any LTR characters or any RTL characters, or both, whether
- * there are any explicit embedding codes, etc.
- *
- * If the (Xn) steps are performed, then the flags are re-evaluated,
- * because they will then not contain the embedding codes any more
- * and will be adjusted for override codes, so that subsequently
- * more bypassing may be possible than what the initial flags suggested.
- *
- * If the text is not mixed-directional, then the
- * algorithm steps for the weak type resolution are not performed,
- * and all levels are set to the paragraph level.
- *
- * If there are no explicit embedding codes, then the (Xn) steps
- * are not performed.
- *
- * If embedding levels are supplied as a parameter, then all
- * explicit embedding codes are ignored, and the (Xn) steps
- * are not performed.
- *
- * White Space types could get the level of the run they belong to,
- * and are checked with a test of (flags&MASK_EMBEDDING) to
- * consider if the paragraph direction should be considered in
- * the flags variable.
- *
- * If there are no White Space types in the paragraph, then
- * (L1) is not necessary in AdjustWSLevels().
- */
-nsBidi::nsBidi()
-{
-  Init();
-}
-
-nsBidi::~nsBidi()
-{
-  Free();
-}
-
-void nsBidi::Init()
-{
-  /* reset the object, all pointers nullptr, all flags false, all sizes 0 */
-  mLength = 0;
-  mParaLevel = 0;
-  mFlags = 0;
-  mDirection = NSBIDI_LTR;
-  mTrailingWSStart = 0;
-
-  mDirPropsSize = 0;
-  mLevelsSize = 0;
-  mRunsSize = 0;
-  mIsolatesSize = 0;
-
-  mRunCount = -1;
-  mIsolateCount = -1;
-
-  mDirProps=nullptr;
-  mLevels=nullptr;
-  mRuns=nullptr;
-  mIsolates=nullptr;
-
-  mDirPropsMemory=nullptr;
-  mLevelsMemory=nullptr;
-  mRunsMemory=nullptr;
-  mIsolatesMemory=nullptr;
-}
-
-/*
- * We are allowed to allocate memory if aMemory==nullptr
- * for each array that we need.
- * We also try to grow and shrink memory as needed if we
- * allocate it.
- *
- * Assume aSizeNeeded>0.
- * If *aMemory!=nullptr, then assume *aSize>0.
- *
- * ### this realloc() may unnecessarily copy the old data,
- * which we know we don't need any more;
- * is this the best way to do this??
- */
-/*static*/
-bool
-nsBidi::GetMemory(void **aMemory, size_t *aSize, size_t aSizeNeeded)
-{
-  /* check for existing memory */
-  if(*aMemory==nullptr) {
-    /* we need to allocate memory */
-    *aMemory=malloc(aSizeNeeded);
-    if (*aMemory!=nullptr) {
-      *aSize=aSizeNeeded;
-      return true;
-    } else {
-      *aSize=0;
-      return false;
-    }
-  } else {
-    /* there is some memory, is it enough or too much? */
-    if(aSizeNeeded!=*aSize) {
-      /* we may try to grow or shrink */
-      void *memory=realloc(*aMemory, aSizeNeeded);
-
-      if(memory!=nullptr) {
-        *aMemory=memory;
-        *aSize=aSizeNeeded;
-        return true;
-      } else {
-        /* we failed to grow */
-        return false;
-      }
-    } else {
-      /* we have at least enough memory and must not allocate */
-      return true;
-    }
-  }
-}
-
-void nsBidi::Free()
-{
-  free(mDirPropsMemory);
-  mDirPropsMemory = nullptr;
-  free(mLevelsMemory);
-  mLevelsMemory = nullptr;
-  free(mRunsMemory);
-  mRunsMemory = nullptr;
-  free(mIsolatesMemory);
-  mIsolatesMemory = nullptr;
-}
-
-/* SetPara ------------------------------------------------------------ */
-
-nsresult nsBidi::SetPara(const char16_t *aText, int32_t aLength,
-                         nsBidiLevel aParaLevel)
-{
-  nsBidiDirection direction;
-
-  /* check the argument values */
-  if(aText==nullptr ||
-     ((NSBIDI_MAX_EXPLICIT_LEVEL<aParaLevel) && !IS_DEFAULT_LEVEL(aParaLevel)) ||
-     aLength<-1
-    ) {
-    return NS_ERROR_INVALID_ARG;
-  }
-
-  if(aLength==-1) {
-    aLength = NS_strlen(aText);
-  }
-
-  /* initialize member data */
-  mLength = aLength;
-  mParaLevel=aParaLevel;
-  mDirection=aParaLevel & 1 ? NSBIDI_RTL : NSBIDI_LTR;
-  mTrailingWSStart=aLength;  /* the levels[] will reflect the WS run */
-
-  mDirProps=nullptr;
-  mLevels=nullptr;
-  mRuns=nullptr;
-
-  if(aLength==0) {
-    /*
-     * For an empty paragraph, create an nsBidi object with the aParaLevel and
-     * the flags and the direction set but without allocating zero-length arrays.
-     * There is nothing more to do.
-     */
-    if(IS_DEFAULT_LEVEL(aParaLevel)) {
-      mParaLevel&=1;
-    }
-    mFlags=DIRPROP_FLAG_LR(aParaLevel);
-    mRunCount=0;
-    return NS_OK;
-  }
-
-  mRunCount=-1;
-
-  /*
-   * Get the directional properties,
-   * the flags bit-set, and
-   * determine the partagraph level if necessary.
-   */
-  if(GETDIRPROPSMEMORY(aLength)) {
-    mDirProps=mDirPropsMemory;
-    GetDirProps(aText);
-  } else {
-    return NS_ERROR_OUT_OF_MEMORY;
-  }
-
-  /* determine explicit levels according to the (Xn) rules */
-  if(GETLEVELSMEMORY(aLength)) {
-    mLevels=mLevelsMemory;
-    ResolveExplicitLevels(&direction, aText);
-  } else {
-    return NS_ERROR_OUT_OF_MEMORY;
-  }
-
-  /* allocate isolate memory */
-  if (mIsolateCount <= SIMPLE_ISOLATES_SIZE) {
-    mIsolates = mSimpleIsolates;
-  } else {
-    if (mIsolateCount * sizeof(Isolate) <= mIsolatesSize) {
-      mIsolates = mIsolatesMemory;
-    } else {
-      if (GETISOLATESMEMORY(mIsolateCount)) {
-        mIsolates = mIsolatesMemory;
-      } else {
-        return NS_ERROR_OUT_OF_MEMORY;
-      }
-    }
-  }
-  mIsolateCount = -1;  /* current isolates stack entry == none */
-
-  /*
-   * The steps after (X9) in the Bidi algorithm are performed only if
-   * the paragraph text has mixed directionality!
-   */
-  mDirection = direction;
-  switch(direction) {
-    case NSBIDI_LTR:
-      /* make sure paraLevel is even */
-      mParaLevel=(mParaLevel+1)&~1;
-
-      /* all levels are implicitly at paraLevel (important for GetLevels()) */
-      mTrailingWSStart=0;
-      break;
-    case NSBIDI_RTL:
-      /* make sure paraLevel is odd */
-      mParaLevel|=1;
-
-      /* all levels are implicitly at paraLevel (important for GetLevels()) */
-      mTrailingWSStart=0;
-      break;
-    default:
-      /*
-       * If there are no external levels specified and there
-       * are no significant explicit level codes in the text,
-       * then we can treat the entire paragraph as one run.
-       * Otherwise, we need to perform the following rules on runs of
-       * the text with the same embedding levels. (X10)
-       * "Significant" explicit level codes are ones that actually
-       * affect non-BN characters.
-       * Examples for "insignificant" ones are empty embeddings
-       * LRE-PDF, LRE-RLE-PDF-PDF, etc.
-       */
-      if(!(mFlags&DIRPROP_FLAG_MULTI_RUNS)) {
-        ResolveImplicitLevels(0, aLength,
-                    GET_LR_FROM_LEVEL(mParaLevel),
-                    GET_LR_FROM_LEVEL(mParaLevel));
-      } else {
-        /* sor, eor: start and end types of same-level-run */
-        nsBidiLevel *levels=mLevels;
-        int32_t start, limit=0;
-        nsBidiLevel level, nextLevel;
-        DirProp sor, eor;
-
-        /* determine the first sor and set eor to it because of the loop body (sor=eor there) */
-        level=mParaLevel;
-        nextLevel=levels[0];
-        if(level<nextLevel) {
-          eor=GET_LR_FROM_LEVEL(nextLevel);
-        } else {
-          eor=GET_LR_FROM_LEVEL(level);
-        }
-
-        do {
-          /* determine start and limit of the run (end points just behind the run) */
-
-          /* the values for this run's start are the same as for the previous run's end */
-          sor=eor;
-          start=limit;
-          level=nextLevel;
-
-          /* search for the limit of this run */
-          while(++limit<aLength &&
-                (levels[limit]==level ||
-                 (DIRPROP_FLAG(mDirProps[limit])&MASK_BN_EXPLICIT))) {}
-
-          /* get the correct level of the next run */
-          if(limit<aLength) {
-            nextLevel=levels[limit];
-          } else {
-            nextLevel=mParaLevel;
-          }
-
-          /* determine eor from max(level, nextLevel); sor is last run's eor */
-          if((level&~NSBIDI_LEVEL_OVERRIDE)<(nextLevel&~NSBIDI_LEVEL_OVERRIDE)) {
-            eor=GET_LR_FROM_LEVEL(nextLevel);
-          } else {
-            eor=GET_LR_FROM_LEVEL(level);
-          }
-
-          /* if the run consists of overridden directional types, then there
-          are no implicit types to be resolved */
-          if(!(level&NSBIDI_LEVEL_OVERRIDE)) {
-            ResolveImplicitLevels(start, limit, sor, eor);
-          } else {
-            do {
-              levels[start++] &= ~NSBIDI_LEVEL_OVERRIDE;
-            } while (start < limit);
-          }
-        } while(limit<aLength);
-      }
-
-      /* reset the embedding levels for some non-graphic characters (L1), (X9) */
-      AdjustWSLevels();
-      break;
-  }
-
-  return NS_OK;
-}
-
-/* perform (P2)..(P3) ------------------------------------------------------- */
-
-/*
- * Get the directional properties for the text,
- * calculate the flags bit-set, and
- * determine the partagraph level if necessary.
- */
-void nsBidi::GetDirProps(const char16_t *aText)
-{
-  DirProp *dirProps=mDirPropsMemory;    /* mDirProps is const */
-
-  int32_t i=0, length=mLength;
-  Flags flags=0;      /* collect all directionalities in the text */
-  char16_t uchar;
-  DirProp dirProp;
-
-  bool isDefaultLevel = IS_DEFAULT_LEVEL(mParaLevel);
-
-  enum State {
-    NOT_SEEKING_STRONG,       /* 0: not after FSI */
-    SEEKING_STRONG_FOR_PARA,  /* 1: looking for first strong char in para */
-    SEEKING_STRONG_FOR_FSI,   /* 2: looking for first strong after FSI */
-    LOOKING_FOR_PDI           /* 3: found strong after FSI, looking for PDI */
-  };
-  State state;
-
-  /* The following stacks are used to manage isolate sequences. Those
-     sequences may be nested, but obviously never more deeply than the
-     maximum explicit embedding level.
-     lastStack is the index of the last used entry in the stack. A value of -1
-     means that there is no open isolate sequence. */
-  /* The following stack contains the position of the initiator of
-     each open isolate sequence */
-  int32_t isolateStartStack[NSBIDI_MAX_EXPLICIT_LEVEL + 1];
-  /* The following stack contains the last known state before
-     encountering the initiator of an isolate sequence */
-  State previousStateStack[NSBIDI_MAX_EXPLICIT_LEVEL + 1];
-  int32_t stackLast = -1;
-
-  if(isDefaultLevel) {
-    /*
-     * see comment in nsBidi.h:
-     * the DEFAULT_XXX values are designed so that
-     * their bit 0 alone yields the intended default
-     */
-    mParaLevel &= 1;
-    state = SEEKING_STRONG_FOR_PARA;
-  } else {
-    state = NOT_SEEKING_STRONG;
-  }
-
-  /* determine the paragraph level (P2..P3) */
-  for(/* i = 0 above */; i < length;) {
-    uchar=aText[i];
-    if(!IS_FIRST_SURROGATE(uchar) || i+1==length || !IS_SECOND_SURROGATE(aText[i+1])) {
-      /* not a surrogate pair */
-      flags|=DIRPROP_FLAG(dirProps[i]=dirProp=GetBidiCat((uint32_t)uchar));
-    } else {
-      /* a surrogate pair */
-      dirProps[i++]=BN;   /* first surrogate in the pair gets the BN type */
-      flags|=DIRPROP_FLAG(dirProps[i]=dirProp=GetBidiCat(GET_UTF_32(uchar, aText[i])))|DIRPROP_FLAG(BN);
-    }
-    ++i;
-
-    switch (dirProp) {
-    case L:
-      if (state == SEEKING_STRONG_FOR_PARA) {
-        mParaLevel = 0;
-        state = NOT_SEEKING_STRONG;
-      } else if  (state == SEEKING_STRONG_FOR_FSI) {
-        if (stackLast <= NSBIDI_MAX_EXPLICIT_LEVEL) {
-          dirProps[isolateStartStack[stackLast]] = LRI;
-          flags |= DIRPROP_FLAG(LRI);
-        }
-        state = LOOKING_FOR_PDI;
-      }
-      break;
-
-    case R: case AL:
-      if (state == SEEKING_STRONG_FOR_PARA) {
-        mParaLevel = 1;
-        state = NOT_SEEKING_STRONG;
-      } else if  (state == SEEKING_STRONG_FOR_FSI) {
-        if (stackLast <= NSBIDI_MAX_EXPLICIT_LEVEL) {
-          dirProps[isolateStartStack[stackLast]] = RLI;
-          flags |= DIRPROP_FLAG(RLI);
-        }
-        state = LOOKING_FOR_PDI;
-      }
-      break;
-
-    case FSI: case LRI: case RLI:
-      stackLast++;
-      if (stackLast <= NSBIDI_MAX_EXPLICIT_LEVEL) {
-        isolateStartStack[stackLast] = i - 1;
-        previousStateStack[stackLast] = state;
-      }
-      if (dirProp == FSI) {
-        state = SEEKING_STRONG_FOR_FSI;
-      } else {
-        state = LOOKING_FOR_PDI;
-      }
-      break;
-
-    case PDI:
-      if (state == SEEKING_STRONG_FOR_FSI) {
-        if (stackLast <= NSBIDI_MAX_EXPLICIT_LEVEL) {
-          dirProps[isolateStartStack[stackLast]] = LRI;
-          flags |= DIRPROP_FLAG(LRI);
-        }
-      }
-      if (stackLast >= 0) {
-        if (stackLast <= NSBIDI_MAX_EXPLICIT_LEVEL) {
-          state = previousStateStack[stackLast];
-        }
-        stackLast--;
-      }
-      break;
-
-    case B:
-      // This shouldn't happen, since we don't support multiple paragraphs.
-      NS_NOTREACHED("Unexpected paragraph separator");
-      break;
-
-    default:
-      break;
-    }
-  }
-
-  /* Ignore still open isolate sequences with overflow */
-  if (stackLast > NSBIDI_MAX_EXPLICIT_LEVEL) {
-    stackLast = NSBIDI_MAX_EXPLICIT_LEVEL;
-    if (dirProps[previousStateStack[NSBIDI_MAX_EXPLICIT_LEVEL]] != FSI) {
-      state = LOOKING_FOR_PDI;
-    }
-  }
-
-  /* Resolve direction of still unresolved open FSI sequences */
-  while (stackLast >= 0) {
-    if (state == SEEKING_STRONG_FOR_FSI) {
-      dirProps[isolateStartStack[stackLast]] = LRI;
-      flags |= DIRPROP_FLAG(LRI);
-    }
-    state = previousStateStack[stackLast];
-    stackLast--;
-  }
-
-  flags|=DIRPROP_FLAG_LR(mParaLevel);
-
-  mFlags = flags;
-}
-
-/* Functions for handling paired brackets ----------------------------------- */
-
-/* In the mIsoRuns array, the first entry is used for text outside of any
-   isolate sequence.  Higher entries are used for each more deeply nested
-   isolate sequence.
-   mIsoRunLast is the index of the last used entry.
-   The mOpenings array is used to note the data of opening brackets not yet
-   matched by a closing bracket, or matched but still susceptible to change
-   level.
-   Each isoRun entry contains the index of the first and
-   one-after-last openings entries for pending opening brackets it
-   contains.  The next mOpenings entry to use is the one-after-last of the
-   most deeply nested isoRun entry.
-   mIsoRuns entries also contain their current embedding level and the bidi
-   class of the last-encountered strong character, since these will be needed
-   to resolve the level of paired brackets.  */
-
-nsBidi::BracketData::BracketData(const nsBidi *aBidi)
-{
-  mIsoRunLast = 0;
-  mIsoRuns[0].start = 0;
-  mIsoRuns[0].limit = 0;
-  mIsoRuns[0].level = aBidi->mParaLevel;
-  mIsoRuns[0].lastStrong = mIsoRuns[0].lastBase = mIsoRuns[0].contextDir =
-    GET_LR_FROM_LEVEL(aBidi->mParaLevel);
-  mIsoRuns[0].contextPos = 0;
-  mOpenings = mSimpleOpenings;
-  mOpeningsCount = SIMPLE_OPENINGS_COUNT;
-  mOpeningsMemory = nullptr;
-}
-
-nsBidi::BracketData::~BracketData()
-{
-  free(mOpeningsMemory);
-}
-
-/* LRE, LRO, RLE, RLO, PDF */
-void
-nsBidi::BracketData::ProcessBoundary(int32_t aLastDirControlCharPos,
-                                     nsBidiLevel aContextLevel,
-                                     nsBidiLevel aEmbeddingLevel,
-                                     const DirProp* aDirProps)
-{
-  IsoRun& lastIsoRun = mIsoRuns[mIsoRunLast];
-  if (DIRPROP_FLAG(aDirProps[aLastDirControlCharPos]) & MASK_ISO) { /* after an isolate */
-    return;
-  }
-  if (NO_OVERRIDE(aEmbeddingLevel) > NO_OVERRIDE(aContextLevel)) {  /* not PDF */
-    aContextLevel = aEmbeddingLevel;
-  }
-  lastIsoRun.limit = lastIsoRun.start;
-  lastIsoRun.level = aEmbeddingLevel;
-  lastIsoRun.lastStrong = lastIsoRun.lastBase = lastIsoRun.contextDir =
-    GET_LR_FROM_LEVEL(aContextLevel);
-  lastIsoRun.contextPos = aLastDirControlCharPos;
-}
-
-/* LRI or RLI */
-void
-nsBidi::BracketData::ProcessLRI_RLI(nsBidiLevel aLevel)
-{
-  MOZ_ASSERT(mIsoRunLast <= NSBIDI_MAX_EXPLICIT_LEVEL);
-  IsoRun& lastIsoRun = mIsoRuns[mIsoRunLast];
-  lastIsoRun.lastBase = O_N;
-  IsoRun& currIsoRun = mIsoRuns[++mIsoRunLast];
-  currIsoRun.start = currIsoRun.limit = lastIsoRun.limit;
-  currIsoRun.level = aLevel;
-  currIsoRun.lastStrong = currIsoRun.lastBase = currIsoRun.contextDir =
-    GET_LR_FROM_LEVEL(aLevel);
-  currIsoRun.contextPos = 0;
-}
-
-/* PDI */
-void
-nsBidi::BracketData::ProcessPDI()
-{
-  MOZ_ASSERT(mIsoRunLast > 0);
-  mIsoRuns[--mIsoRunLast].lastBase = O_N;
-}
-
-/* newly found opening bracket: create an openings entry */
-bool                            /* return true if success */
-nsBidi::BracketData::AddOpening(char16_t aMatch, int32_t aPosition)
-{
-  IsoRun& lastIsoRun = mIsoRuns[mIsoRunLast];
-  if (lastIsoRun.limit >= mOpeningsCount) {  /* no available new entry */
-    if (!GETOPENINGSMEMORY(lastIsoRun.limit * 2)) {
-      return false;
-    }
-    if (mOpenings == mSimpleOpenings) {
-      memcpy(mOpeningsMemory, mSimpleOpenings,
-             SIMPLE_OPENINGS_COUNT * sizeof(Opening));
-    }
-    mOpenings = mOpeningsMemory;     /* may have changed */
-    mOpeningsCount = mOpeningsSize / sizeof(Opening);
-  }
-  Opening& o = mOpenings[lastIsoRun.limit];
-  o.position = aPosition;
-  o.match = aMatch;
-  o.contextDir = lastIsoRun.contextDir;
-  o.contextPos = lastIsoRun.contextPos;
-  o.flags = 0;
-  lastIsoRun.limit++;
-  return true;
-}
-
-/* change N0c1 to N0c2 when a preceding bracket is assigned the embedding level */
-void
-nsBidi::BracketData::FixN0c(int32_t aOpeningIndex, int32_t aNewPropPosition,
-                            DirProp aNewProp, DirProp* aDirProps)
-{
-  /* This function calls itself recursively */
-  IsoRun& lastIsoRun = mIsoRuns[mIsoRunLast];
-  for (int32_t k = aOpeningIndex + 1; k < lastIsoRun.limit; k++) {
-    Opening& o = mOpenings[k];
-    if (o.match >= 0) {     /* not an N0c match */
-      continue;
-    }
-    if (aNewPropPosition < o.contextPos) {
-      break;
-    }
-    int32_t openingPosition = o.position;
-    if (aNewPropPosition >= openingPosition) {
-      continue;
-    }
-    if (aNewProp == o.contextDir) {
-      break;
-    }
-    aDirProps[openingPosition] = aNewProp;
-    int32_t closingPosition = -(o.match);
-    aDirProps[closingPosition] = aNewProp;
-    o.match = 0;                    /* prevent further changes */
-    FixN0c(k, openingPosition, aNewProp, aDirProps);
-    FixN0c(k, closingPosition, aNewProp, aDirProps);
-  }
-}
-
-/* process closing bracket */
-DirProp              /* return L or R if N0b or N0c, ON if N0d */
-nsBidi::BracketData::ProcessClosing(int32_t aOpenIdx, int32_t aPosition,
-                                    DirProp* aDirProps)
-{
-  IsoRun& lastIsoRun = mIsoRuns[mIsoRunLast];
-  Opening& o = mOpenings[aOpenIdx];
-  DirProp newProp;
-  DirProp direction = GET_LR_FROM_LEVEL(lastIsoRun.level);
-  bool stable = true; // assume stable until proved otherwise
-
-  /* The stable flag is set when brackets are paired and their
-     level is resolved and cannot be changed by what will be
-     found later in the source string.
-     An unstable match can occur only when applying N0c, where
-     the resolved level depends on the preceding context, and
-     this context may be affected by text occurring later.
-     Example: RTL paragraph containing:  abc[(latin) HEBREW]
-     When the closing parenthesis is encountered, it appears
-     that N0c1 must be applied since 'abc' sets an opposite
-     direction context and both parentheses receive level 2.
-     However, when the closing square bracket is processed,
-     N0b applies because of 'HEBREW' being included within the
-     brackets, thus the square brackets are treated like R and
-     receive level 1. However, this changes the preceding
-     context of the opening parenthesis, and it now appears
-     that N0c2 must be applied to the parentheses rather than
-     N0c1. */
-
-  if ((direction == 0 && o.flags & FOUND_L) ||
-      (direction == 1 && o.flags & FOUND_R)) { /* N0b */
-    newProp = direction;
-  } else if (o.flags & (FOUND_L|FOUND_R)) {    /* N0c */
-    /* it is stable if there is no containing pair or in
-       conditions too complicated and not worth checking */
-    stable = (aOpenIdx == lastIsoRun.start);
-    if (direction != o.contextDir) {
-      newProp = o.contextDir;           /* N0c1 */
-    } else {
-      newProp = direction;                     /* N0c2 */
-    }
-  } else {
-    /* forget this and any brackets nested within this pair */
-    lastIsoRun.limit = aOpenIdx;
-    return O_N;                                 /* N0d */
-  }
-  aDirProps[o.position] = newProp;
-  aDirProps[aPosition] = newProp;
-  /* Update nested N0c pairs that may be affected */
-  FixN0c(aOpenIdx, o.position, newProp, aDirProps);
-  if (stable) {
-    /* forget any brackets nested within this pair */
-    lastIsoRun.limit = aOpenIdx;
-  } else {
-    int32_t k;
-    o.match = -aPosition;
-    /* neutralize any unmatched opening between the current pair */
-    for (k = aOpenIdx + 1; k < lastIsoRun.limit; k++) {
-      Opening& oo = mOpenings[k];
-      if (oo.position > aPosition) {
-        break;
-      }
-      if (oo.match > 0) {
-        oo.match = 0;
-      }
-    }
-  }
-  return newProp;
-}
-
-static inline bool
-IsMatchingCloseBracket(char16_t aCh1, char16_t aCh2)
-{
-  // U+232A RIGHT-POINTING ANGLE BRACKET and U+3009 RIGHT ANGLE BRACKET
-  // are canonical equivalents, so we special-case them here.
-  return (aCh1 == aCh2) ||
-         (aCh1 == 0x232A && aCh2 == 0x3009) ||
-         (aCh2 == 0x232A && aCh1 == 0x3009);
-}
-
-/* Handle strong characters, digits and candidates for closing brackets. */
-/* Returns true if success. (The only failure mode is an OOM when trying
-   to allocate memory for the Openings array.) */
-bool
-nsBidi::BracketData::ProcessChar(int32_t aPosition, char16_t aCh,
-                                 DirProp* aDirProps, nsBidiLevel* aLevels)
-{
-  IsoRun& lastIsoRun = mIsoRuns[mIsoRunLast];
-  DirProp newProp;
-  DirProp dirProp = aDirProps[aPosition];
-  nsBidiLevel level = aLevels[aPosition];
-  if (dirProp == O_N) {
-    /* First see if it is a matching closing bracket. Hopefully, this is
-       more efficient than checking if it is a closing bracket at all */
-    for (int32_t idx = lastIsoRun.limit - 1; idx >= lastIsoRun.start; idx--) {
-      if (!IsMatchingCloseBracket(aCh, mOpenings[idx].match)) {
-        continue;
-      }
-      /* We have a match */
-      newProp = ProcessClosing(idx, aPosition, aDirProps);
-      if (newProp == O_N) {           /* N0d */
-        aCh = 0;        /* prevent handling as an opening */
-        break;
-      }
-      lastIsoRun.lastBase = O_N;
-      lastIsoRun.contextDir = newProp;
-      lastIsoRun.contextPos = aPosition;
-      if (level & NSBIDI_LEVEL_OVERRIDE) {    /* X4, X5 */
-        newProp = GET_LR_FROM_LEVEL(level);
-        lastIsoRun.lastStrong = newProp;
-        uint16_t flag = DIRPROP_FLAG(newProp);
-        for (int32_t i = lastIsoRun.start; i < idx; i++) {
-          mOpenings[i].flags |= flag;
-        }
-        /* matching brackets are not overridden by LRO/RLO */
-        aLevels[aPosition] &= ~NSBIDI_LEVEL_OVERRIDE;
-      }
-      /* matching brackets are not overridden by LRO/RLO */
-      aLevels[mOpenings[idx].position] &= ~NSBIDI_LEVEL_OVERRIDE;
-      return true;
-    }
-    /* We get here only if the ON character is not a matching closing
-       bracket or it is a case of N0d */
-    /* Now see if it is an opening bracket */
-    char16_t match = GetPairedBracket(aCh);
-    if (match != aCh &&                 /* has a matching char */
-        GetPairedBracketType(aCh) == PAIRED_BRACKET_TYPE_OPEN) { /* opening bracket */
-      if (!AddOpening(match, aPosition)) {
-        return false;
-      }
-    }
-  }
-  if (level & NSBIDI_LEVEL_OVERRIDE) {    /* X4, X5 */
-    newProp = GET_LR_FROM_LEVEL(level);
-    if (dirProp != S && dirProp != WS && dirProp != O_N) {
-      aDirProps[aPosition] = newProp;
-    }
-    lastIsoRun.lastBase = newProp;
-    lastIsoRun.lastStrong = newProp;
-    lastIsoRun.contextDir = newProp;
-    lastIsoRun.contextPos = aPosition;
-  } else if (IS_STRONG_TYPE(dirProp)) {
-    newProp = DirFromStrong(dirProp);
-    lastIsoRun.lastBase = dirProp;
-    lastIsoRun.lastStrong = dirProp;
-    lastIsoRun.contextDir = newProp;
-    lastIsoRun.contextPos = aPosition;
-  } else if (dirProp == EN) {
-    lastIsoRun.lastBase = EN;
-    if (lastIsoRun.lastStrong == L) {
-      newProp = L;                  /* W7 */
-      aDirProps[aPosition] = ENL;
-      lastIsoRun.contextDir = L;
-      lastIsoRun.contextPos = aPosition;
-    } else {
-      newProp = R;                  /* N0 */
-      if (lastIsoRun.lastStrong == AL) {
-        aDirProps[aPosition] = AN;  /* W2 */
-      } else {
-        aDirProps[aPosition] = ENR;
-      }
-      lastIsoRun.contextDir = R;
-      lastIsoRun.contextPos = aPosition;
-    }
-  } else if (dirProp == AN) {
-    newProp = R;                      /* N0 */
-    lastIsoRun.lastBase = AN;
-    lastIsoRun.contextDir = R;
-    lastIsoRun.contextPos = aPosition;
-  } else if (dirProp == NSM) {
-    /* if the last real char was ON, change NSM to ON so that it
-       will stay ON even if the last real char is a bracket which
-       may be changed to L or R */
-    newProp = lastIsoRun.lastBase;
-    if (newProp == O_N) {
-      aDirProps[aPosition] = newProp;
-    }
-  } else {
-    newProp = dirProp;
-    lastIsoRun.lastBase = dirProp;
-  }
-  if (IS_STRONG_TYPE(newProp)) {
-    uint16_t flag = DIRPROP_FLAG(DirFromStrong(newProp));
-    for (int32_t i = lastIsoRun.start; i < lastIsoRun.limit; i++) {
-      if (aPosition > mOpenings[i].position) {
-        mOpenings[i].flags |= flag;
-      }
-    }
-  }
-  return true;
-}
-
-/* perform (X1)..(X9) ------------------------------------------------------- */
-
-/*
- * Resolve the explicit levels as specified by explicit embedding codes.
- * Recalculate the flags to have them reflect the real properties
- * after taking the explicit embeddings into account.
- *
- * The Bidi algorithm is designed to result in the same behavior whether embedding
- * levels are externally specified (from "styled text", supposedly the preferred
- * method) or set by explicit embedding codes (LRx, RLx, PDF, FSI, PDI) in the plain text.
- * That is why (X9) instructs to remove all not-isolate explicit codes (and BN).
- * However, in a real implementation, this removal of these codes and their index
- * positions in the plain text is undesirable since it would result in
- * reallocated, reindexed text.
- * Instead, this implementation leaves the codes in there and just ignores them
- * in the subsequent processing.
- * In order to get the same reordering behavior, positions with a BN or a not-isolate
- * explicit embedding code just get the same level assigned as the last "real"
- * character.
- *
- * Some implementations, not this one, then overwrite some of these
- * directionality properties at "real" same-level-run boundaries by
- * L or R codes so that the resolution of weak types can be performed on the
- * entire paragraph at once instead of having to parse it once more and
- * perform that resolution on same-level-runs.
- * This limits the scope of the implicit rules in effectively
- * the same way as the run limits.
- *
- * Instead, this implementation does not modify these codes.
- * On one hand, the paragraph has to be scanned for same-level-runs, but
- * on the other hand, this saves another loop to reset these codes,
- * or saves making and modifying a copy of dirProps[].
- *
- *
- * Note that (Pn) and (Xn) changed significantly from version 4 of the Bidi algorithm.
- *
- *
- * Handling the stack of explicit levels (Xn):
- *
- * With the Bidi stack of explicit levels, as pushed with each
- * LRE, RLE, LRO, and RLO, LRI, RLI, and FSI and popped with each PDF and PDI,
- * the explicit level must never exceed NSBIDI_MAX_EXPLICIT_LEVEL.
- *
- * In order to have a correct push-pop semantics even in the case of overflows,
- * overflow counters and a valid isolate counter are used as described in UAX#9
- * section 3.3.2 "Explicit Levels and Direction".
- *
- * This implementation assumes that NSBIDI_MAX_EXPLICIT_LEVEL is odd.
- */
-
-void nsBidi::ResolveExplicitLevels(nsBidiDirection *aDirection, const char16_t *aText)
-{
-  DirProp *dirProps=mDirProps;
-  nsBidiLevel *levels=mLevels;
-
-  int32_t i=0, length=mLength;
-  Flags flags=mFlags;       /* collect all directionalities in the text */
-  DirProp dirProp;
-  nsBidiLevel level=mParaLevel;
-  nsBidiDirection direction;
-
-  mIsolateCount = 0;
-
-  /* determine if the text is mixed-directional or single-directional */
-  direction=DirectionFromFlags(flags);
-
-  /* we may not need to resolve any explicit levels */
-  if(direction!=NSBIDI_MIXED) {
-    /* not mixed directionality: levels don't matter - trailingWSStart will be 0 */
-  } else if(!(flags&(MASK_EXPLICIT|MASK_ISO))) {
-    BracketData bracketData(this);
-    /* no embeddings, set all levels to the paragraph level */
-    for(i=0; i<length; ++i) {
-      levels[i]=level;
-      if (dirProps[i] == BN) {
-        continue;
-      }
-      if (!bracketData.ProcessChar(i, aText[i], mDirProps, mLevels)) {
-        NS_WARNING("BracketData::ProcessChar failed, out of memory?");
-        // Ran out of memory for deeply-nested openings; give up and
-        // return LTR. This could presumably result in incorrect display,
-        // but in practice it won't happen except in some artificially-
-        // constructed torture test -- which is just as likely to die
-        // altogether with an OOM failure.
-        *aDirection = NSBIDI_LTR;
-        return;
-      }
-    }
-  } else {
-    /* continue to perform (Xn) */
-
-    /* (X1) level is set for all codes, embeddingLevel keeps track of the push/pop operations */
-    /* both variables may carry the NSBIDI_LEVEL_OVERRIDE flag to indicate the override status */
-    nsBidiLevel embeddingLevel = level, newLevel;
-    nsBidiLevel previousLevel = level;     /* previous level for regular (not CC) characters */
-    int32_t lastDirControlCharPos = 0;     /* index of last effective LRx,RLx, PDx */
-
-    uint16_t stack[NSBIDI_MAX_EXPLICIT_LEVEL + 2];   /* we never push anything >=NSBIDI_MAX_EXPLICIT_LEVEL
-                                                        but we need one more entry as base */
-    int32_t stackLast = 0;
-    int32_t overflowIsolateCount = 0;
-    int32_t overflowEmbeddingCount = 0;
-    int32_t validIsolateCount = 0;
-
-    BracketData bracketData(this);
-
-    stack[0] = level;
-
-    /* recalculate the flags */
-    flags=0;
-
-    /* since we assume that this is a single paragraph, we ignore (X8) */
-    for(i=0; i<length; ++i) {
-      dirProp=dirProps[i];
-      switch(dirProp) {
-        case LRE:
-        case RLE:
-        case LRO:
-        case RLO:
-          /* (X2, X3, X4, X5) */
-          flags |= DIRPROP_FLAG(BN);
-          levels[i] = previousLevel;
-          if (dirProp == LRE || dirProp == LRO) {
-            newLevel = (embeddingLevel + 2) & ~(NSBIDI_LEVEL_OVERRIDE | 1);    /* least greater even level */
-          } else {
-            newLevel = ((embeddingLevel & ~NSBIDI_LEVEL_OVERRIDE) + 1) | 1;    /* least greater odd level */
-          }
-          if(newLevel <= NSBIDI_MAX_EXPLICIT_LEVEL && overflowIsolateCount == 0 && overflowEmbeddingCount == 0) {
-            lastDirControlCharPos = i;
-            embeddingLevel = newLevel;
-            if (dirProp == LRO || dirProp == RLO) {
-              embeddingLevel |= NSBIDI_LEVEL_OVERRIDE;
-            }
-            stackLast++;
-            stack[stackLast] = embeddingLevel;
-            /* we don't need to set NSBIDI_LEVEL_OVERRIDE off for LRE and RLE
-               since this has already been done for newLevel which is
-               the source for embeddingLevel.
-             */
-          } else {
-            if (overflowIsolateCount == 0) {
-              overflowEmbeddingCount++;
-            }
-          }
-          break;
-
-        case PDF:
-          /* (X7) */
-          flags |= DIRPROP_FLAG(BN);
-          levels[i] = previousLevel;
-          /* handle all the overflow cases first */
-          if (overflowIsolateCount) {
-            break;
-          }
-          if (overflowEmbeddingCount) {
-            overflowEmbeddingCount--;
-            break;
-          }
-          if (stackLast > 0 && stack[stackLast] < ISOLATE) {   /* not an isolate entry */
-            lastDirControlCharPos = i;
-            stackLast--;
-            embeddingLevel = stack[stackLast];
-          }
-          break;
-
-        case LRI:
-        case RLI:
-          flags |= DIRPROP_FLAG(O_N) | DIRPROP_FLAG_LR(embeddingLevel);
-          levels[i] = NO_OVERRIDE(embeddingLevel);
-          if (NO_OVERRIDE(embeddingLevel) != NO_OVERRIDE(previousLevel)) {
-            bracketData.ProcessBoundary(lastDirControlCharPos, previousLevel,
-                                        embeddingLevel, mDirProps);
-            flags |= DIRPROP_FLAG_MULTI_RUNS;
-          }
-          previousLevel = embeddingLevel;
-          /* (X5a, X5b) */
-          if (dirProp == LRI) {
-            newLevel = (embeddingLevel + 2) & ~(NSBIDI_LEVEL_OVERRIDE | 1); /* least greater even level */
-          } else {
-            newLevel = ((embeddingLevel & ~NSBIDI_LEVEL_OVERRIDE) + 1) | 1;  /* least greater odd level */
-          }
-          if (newLevel <= NSBIDI_MAX_EXPLICIT_LEVEL && overflowIsolateCount == 0 && overflowEmbeddingCount == 0) {
-            flags |= DIRPROP_FLAG(dirProp);
-            lastDirControlCharPos = i;
-            previousLevel = embeddingLevel;
-            validIsolateCount++;
-            if (validIsolateCount > mIsolateCount) {
-              mIsolateCount = validIsolateCount;
-            }
-            embeddingLevel = newLevel;
-            stackLast++;
-            stack[stackLast] = embeddingLevel + ISOLATE;
-            bracketData.ProcessLRI_RLI(embeddingLevel);
-          } else {
-            /* make it so that it is handled by AdjustWSLevels() */
-            dirProps[i] = WS;
-            overflowIsolateCount++;
-          }
-          break;
-
-        case PDI:
-          if (NO_OVERRIDE(embeddingLevel) != NO_OVERRIDE(previousLevel)) {
-            bracketData.ProcessBoundary(lastDirControlCharPos, previousLevel,
-                                        embeddingLevel, mDirProps);
-            flags |= DIRPROP_FLAG_MULTI_RUNS;
-          }
-          /* (X6a) */
-          if (overflowIsolateCount) {
-            overflowIsolateCount--;
-            /* make it so that it is handled by AdjustWSLevels() */
-            dirProps[i] = WS;
-          } else if (validIsolateCount) {
-            flags |= DIRPROP_FLAG(PDI);
-            lastDirControlCharPos = i;
-            overflowEmbeddingCount = 0;
-            while (stack[stackLast] < ISOLATE) {
-              /* pop embedding entries        */
-              /* until the last isolate entry */
-              stackLast--;
-
-              // Since validIsolateCount is true, there must be an isolate entry
-              // on the stack, so the stack is guaranteed to not be empty.
-              // Still, to eliminate a warning from coverity, we use an assertion.
-              MOZ_ASSERT(stackLast > 0);
-            }
-            stackLast--;  /* pop also the last isolate entry */
-            MOZ_ASSERT(stackLast >= 0);  // For coverity
-            validIsolateCount--;
-            bracketData.ProcessPDI();
-          } else {
-            /* make it so that it is handled by AdjustWSLevels() */
-            dirProps[i] = WS;
-          }
-          embeddingLevel = stack[stackLast] & ~ISOLATE;
-          flags |= DIRPROP_FLAG(O_N) | DIRPROP_FLAG_LR(embeddingLevel);
-          previousLevel = embeddingLevel;
-          levels[i] = NO_OVERRIDE(embeddingLevel);
-          break;
-
-        case B:
-          /*
-           * We do not expect to see a paragraph separator (B),
-           */
-          NS_NOTREACHED("Unexpected paragraph separator");
-          break;
-
-        case BN:
-          /* BN, LRE, RLE, and PDF are supposed to be removed (X9) */
-          /* they will get their levels set correctly in AdjustWSLevels() */
-          levels[i] = previousLevel;
-          flags |= DIRPROP_FLAG(BN);
-          break;
-
-        default:
-          /* all other types get the "real" level */
-          if (NO_OVERRIDE(embeddingLevel) != NO_OVERRIDE(previousLevel)) {
-            bracketData.ProcessBoundary(lastDirControlCharPos, previousLevel,
-                                        embeddingLevel, mDirProps);
-            flags |= DIRPROP_FLAG_MULTI_RUNS;
-            if (embeddingLevel & NSBIDI_LEVEL_OVERRIDE) {
-              flags |= DIRPROP_FLAG_O(embeddingLevel);
-            } else {
-              flags |= DIRPROP_FLAG_E(embeddingLevel);
-            }
-          }
-          previousLevel = embeddingLevel;
-          levels[i] = embeddingLevel;
-          if (!bracketData.ProcessChar(i, aText[i], mDirProps, mLevels)) {
-            NS_WARNING("BracketData::ProcessChar failed, out of memory?");
-            *aDirection = NSBIDI_LTR;
-            return;
-          }
-          flags |= DIRPROP_FLAG(dirProps[i]);
-          break;
-      }
-    }
-
-    if(flags&MASK_EMBEDDING) {
-      flags|=DIRPROP_FLAG_LR(mParaLevel);
-    }
-
-    /* subsequently, ignore the explicit codes and BN (X9) */
-
-    /* again, determine if the text is mixed-directional or single-directional */
-    mFlags=flags;
-    direction=DirectionFromFlags(flags);
-  }
-
-  *aDirection = direction;
-}
-
-/* determine if the text is mixed-directional or single-directional */
-nsBidiDirection nsBidi::DirectionFromFlags(Flags aFlags)
-{
-  /* if the text contains AN and neutrals, then some neutrals may become RTL */
-  if(!(aFlags&MASK_RTL || (aFlags&DIRPROP_FLAG(AN) && aFlags&MASK_POSSIBLE_N))) {
-    return NSBIDI_LTR;
-  } else if(!(aFlags&MASK_LTR)) {
-    return NSBIDI_RTL;
-  } else {
-    return NSBIDI_MIXED;
-  }
-}
-
-/******************************************************************
- The Properties state machine table
-*******************************************************************
-
- All table cells are 8 bits:
-      bits 0..4:  next state
-      bits 5..7:  action to perform (if > 0)
-
- Cells may be of format "n" where n represents the next state
- (except for the rightmost column).
- Cells may also be of format "s(x,y)" where x represents an action
- to perform and y represents the next state.
-
-*******************************************************************
- Definitions and type for properties state table
-*******************************************************************
-*/
-#define IMPTABPROPS_COLUMNS 16
-#define IMPTABPROPS_RES (IMPTABPROPS_COLUMNS - 1)
-#define GET_STATEPROPS(cell) ((cell)&0x1f)
-#define GET_ACTIONPROPS(cell) ((cell)>>5)
-#undef s
-#define s(action, newState) ((uint8_t)(newState+(action<<5)))
-
-static const uint8_t groupProp[] =          /* dirProp regrouped */
-{
-/*  L   R   EN  ES  ET  AN  CS  B   S   WS  ON  LRE LRO AL  RLE RLO PDF NSM BN  FSI LRI RLI PDI ENL ENR */
-    0,  1,  2,  7,  8,  3,  9,  6,  5,  4,  4,  10, 10, 12, 10, 10, 10, 11, 10, 4,  4,  4,  4,  13, 14
-};
-
-/******************************************************************
-
-      PROPERTIES  STATE  TABLE
-
- In table impTabProps,
-      - the ON column regroups ON and WS, FSI, RLI, LRI and PDI
-      - the BN column regroups BN, LRE, RLE, LRO, RLO, PDF
-      - the Res column is the reduced property assigned to a run
-
- Action 1: process current run1, init new run1
-        2: init new run2
-        3: process run1, process run2, init new run1
-        4: process run1, set run1=run2, init new run2
-
- Notes:
-  1) This table is used in ResolveImplicitLevels().
-  2) This table triggers actions when there is a change in the Bidi
-     property of incoming characters (action 1).
-  3) Most such property sequences are processed immediately (in
-     fact, passed to ProcessPropertySeq().
-  4) However, numbers are assembled as one sequence. This means
-     that undefined situations (like CS following digits, until
-     it is known if the next char will be a digit) are held until
-     following chars define them.
-     Example: digits followed by CS, then comes another CS or ON;
-              the digits will be processed, then the CS assigned
-              as the start of an ON sequence (action 3).
-  5) There are cases where more than one sequence must be
-     processed, for instance digits followed by CS followed by L:
-     the digits must be processed as one sequence, and the CS
-     must be processed as an ON sequence, all this before starting
-     assembling chars for the opening L sequence.
-
-
-*/
-static const uint8_t impTabProps[][IMPTABPROPS_COLUMNS] =
-{
-/*                        L ,     R ,    EN ,    AN ,    ON ,     S ,     B ,    ES ,    ET ,    CS ,    BN ,   NSM ,    AL ,   ENL ,   ENR , Res */
-/* 0 Init        */ {     1 ,     2 ,     4 ,     5 ,     7 ,    15 ,    17 ,     7 ,     9 ,     7 ,     0 ,     7 ,     3 ,    18 ,    21 , DirProp_ON },
-/* 1 L           */ {     1 , s(1,2), s(1,4), s(1,5), s(1,7),s(1,15),s(1,17), s(1,7), s(1,9), s(1,7),     1 ,     1 , s(1,3),s(1,18),s(1,21),  DirProp_L },
-/* 2 R           */ { s(1,1),     2 , s(1,4), s(1,5), s(1,7),s(1,15),s(1,17), s(1,7), s(1,9), s(1,7),     2 ,     2 , s(1,3),s(1,18),s(1,21),  DirProp_R },
-/* 3 AL          */ { s(1,1), s(1,2), s(1,6), s(1,6), s(1,8),s(1,16),s(1,17), s(1,8), s(1,8), s(1,8),     3 ,     3 ,     3 ,s(1,18),s(1,21),  DirProp_R },
-/* 4 EN          */ { s(1,1), s(1,2),     4 , s(1,5), s(1,7),s(1,15),s(1,17),s(2,10),    11 ,s(2,10),     4 ,     4 , s(1,3),    18 ,    21 , DirProp_EN },
-/* 5 AN          */ { s(1,1), s(1,2), s(1,4),     5 , s(1,7),s(1,15),s(1,17), s(1,7), s(1,9),s(2,12),     5 ,     5 , s(1,3),s(1,18),s(1,21), DirProp_AN },
-/* 6 AL:EN/AN    */ { s(1,1), s(1,2),     6 ,     6 , s(1,8),s(1,16),s(1,17), s(1,8), s(1,8),s(2,13),     6 ,     6 , s(1,3),    18 ,    21 , DirProp_AN },
-/* 7 ON          */ { s(1,1), s(1,2), s(1,4), s(1,5),     7 ,s(1,15),s(1,17),     7 ,s(2,14),     7 ,     7 ,     7 , s(1,3),s(1,18),s(1,21), DirProp_ON },
-/* 8 AL:ON       */ { s(1,1), s(1,2), s(1,6), s(1,6),     8 ,s(1,16),s(1,17),     8 ,     8 ,     8 ,     8 ,     8 , s(1,3),s(1,18),s(1,21), DirProp_ON },
-/* 9 ET          */ { s(1,1), s(1,2),     4 , s(1,5),     7 ,s(1,15),s(1,17),     7 ,     9 ,     7 ,     9 ,     9 , s(1,3),    18 ,    21 , DirProp_ON },
-/*10 EN+ES/CS    */ { s(3,1), s(3,2),     4 , s(3,5), s(4,7),s(3,15),s(3,17), s(4,7),s(4,14), s(4,7),    10 , s(4,7), s(3,3),    18 ,    21 , DirProp_EN },
-/*11 EN+ET       */ { s(1,1), s(1,2),     4 , s(1,5), s(1,7),s(1,15),s(1,17), s(1,7),    11 , s(1,7),    11 ,    11 , s(1,3),    18 ,    21 , DirProp_EN },
-/*12 AN+CS       */ { s(3,1), s(3,2), s(3,4),     5 , s(4,7),s(3,15),s(3,17), s(4,7),s(4,14), s(4,7),    12 , s(4,7), s(3,3),s(3,18),s(3,21), DirProp_AN },
-/*13 AL:EN/AN+CS */ { s(3,1), s(3,2),     6 ,     6 , s(4,8),s(3,16),s(3,17), s(4,8), s(4,8), s(4,8),    13 , s(4,8), s(3,3),    18 ,    21 , DirProp_AN },
-/*14 ON+ET       */ { s(1,1), s(1,2), s(4,4), s(1,5),     7 ,s(1,15),s(1,17),     7 ,    14 ,     7 ,    14 ,    14 , s(1,3),s(4,18),s(4,21), DirProp_ON },
-/*15 S           */ { s(1,1), s(1,2), s(1,4), s(1,5), s(1,7),    15 ,s(1,17), s(1,7), s(1,9), s(1,7),    15 , s(1,7), s(1,3),s(1,18),s(1,21),  DirProp_S },
-/*16 AL:S        */ { s(1,1), s(1,2), s(1,6), s(1,6), s(1,8),    16 ,s(1,17), s(1,8), s(1,8), s(1,8),    16 , s(1,8), s(1,3),s(1,18),s(1,21),  DirProp_S },
-/*17 B           */ { s(1,1), s(1,2), s(1,4), s(1,5), s(1,7),s(1,15),    17 , s(1,7), s(1,9), s(1,7),    17 , s(1,7), s(1,3),s(1,18),s(1,21),  DirProp_B },
-/*18 ENL         */ { s(1,1), s(1,2),    18 , s(1,5), s(1,7),s(1,15),s(1,17),s(2,19),    20 ,s(2,19),    18 ,    18 , s(1,3),    18 ,    21 ,  DirProp_L },
-/*19 ENL+ES/CS   */ { s(3,1), s(3,2),    18 , s(3,5), s(4,7),s(3,15),s(3,17), s(4,7),s(4,14), s(4,7),    19 , s(4,7), s(3,3),    18 ,    21 ,  DirProp_L },
-/*20 ENL+ET      */ { s(1,1), s(1,2),    18 , s(1,5), s(1,7),s(1,15),s(1,17), s(1,7),    20 , s(1,7),    20 ,    20 , s(1,3),    18 ,    21 ,  DirProp_L },
-/*21 ENR         */ { s(1,1), s(1,2),    21 , s(1,5), s(1,7),s(1,15),s(1,17),s(2,22),    23 ,s(2,22),    21 ,    21 , s(1,3),    18 ,    21 , DirProp_AN },
-/*22 ENR+ES/CS   */ { s(3,1), s(3,2),    21 , s(3,5), s(4,7),s(3,15),s(3,17), s(4,7),s(4,14), s(4,7),    22 , s(4,7), s(3,3),    18 ,    21 , DirProp_AN },
-/*23 ENR+ET      */ { s(1,1), s(1,2),    21 , s(1,5), s(1,7),s(1,15),s(1,17), s(1,7),    23 , s(1,7),    23 ,    23 , s(1,3),    18 ,    21 , DirProp_AN }
-};
-
-/*  we must undef macro s because the levels table have a different
- *  structure (4 bits for action and 4 bits for next state.
- */
-#undef s
-
-/******************************************************************
- The levels state machine tables
-*******************************************************************
-
- All table cells are 8 bits:
-      bits 0..3:  next state
-      bits 4..7:  action to perform (if > 0)
-
- Cells may be of format "n" where n represents the next state
- (except for the rightmost column).
- Cells may also be of format "s(x,y)" where x represents an action
- to perform and y represents the next state.
-
- This format limits each table to 16 states each and to 15 actions.
-
-*******************************************************************
- Definitions and type for levels state tables
-*******************************************************************
-*/
-#define IMPTABLEVELS_RES (IMPTABLEVELS_COLUMNS - 1)
-#define GET_STATE(cell) ((cell)&0x0f)
-#define GET_ACTION(cell) ((cell)>>4)
-#define s(action, newState) ((uint8_t)(newState+(action<<4)))
-
-/******************************************************************
-
-      LEVELS  STATE  TABLES
-
- In all levels state tables,
-      - state 0 is the initial state
-      - the Res column is the increment to add to the text level
-        for this property sequence.
-
- The impAct arrays for each table of a pair map the local action
- numbers of the table to the total list of actions. For instance,
- action 2 in a given table corresponds to the action number which
- appears in entry [2] of the impAct array for that table.
- The first entry of all impAct arrays must be 0.
-
- Action 1: init conditional sequence
-        2: prepend conditional sequence to current sequence
-        3: set ON sequence to new level - 1
-        4: init EN/AN/ON sequence
-        5: fix EN/AN/ON sequence followed by R
-        6: set previous level sequence to level 2
-
- Notes:
-  1) These tables are used in ProcessPropertySeq(). The input
-     is property sequences as determined by ResolveImplicitLevels.
-  2) Most such property sequences are processed immediately
-     (levels are assigned).
-  3) However, some sequences cannot be assigned a final level till
-     one or more following sequences are received. For instance,
-     ON following an R sequence within an even-level paragraph.
-     If the following sequence is R, the ON sequence will be
-     assigned basic run level+1, and so will the R sequence.
-  4) S is generally handled like ON, since its level will be fixed
-     to paragraph level in AdjustWSLevels().
-
-*/
-
-static const ImpTab impTabL =   /* Even paragraph level */
-/*  In this table, conditional sequences receive the higher possible level
-    until proven otherwise.
-*/
-{
-/*                         L ,     R ,    EN ,    AN ,    ON ,     S ,     B , Res */
-/* 0 : init       */ {     0 ,     1 ,     0 ,     2 ,     0 ,     0 ,     0 ,  0 },
-/* 1 : R          */ {     0 ,     1 ,     3 ,     3 , s(1,4), s(1,4),     0 ,  1 },
-/* 2 : AN         */ {     0 ,     1 ,     0 ,     2 , s(1,5), s(1,5),     0 ,  2 },
-/* 3 : R+EN/AN    */ {     0 ,     1 ,     3 ,     3 , s(1,4), s(1,4),     0 ,  2 },
-/* 4 : R+ON       */ { s(2,0),     1 ,     3 ,     3 ,     4 ,     4 , s(2,0),  1 },
-/* 5 : AN+ON      */ { s(2,0),     1 , s(2,0),     2 ,     5 ,     5 , s(2,0),  1 }
-};
-static const ImpTab impTabR =   /* Odd  paragraph level */
-/*  In this table, conditional sequences receive the lower possible level
-    until proven otherwise.
-*/
-{
-/*                         L ,     R ,    EN ,    AN ,    ON ,     S ,     B , Res */
-/* 0 : init       */ {     1 ,     0 ,     2 ,     2 ,     0 ,     0 ,     0 ,  0 },
-/* 1 : L          */ {     1 ,     0 ,     1 ,     3 , s(1,4), s(1,4),     0 ,  1 },
-/* 2 : EN/AN      */ {     1 ,     0 ,     2 ,     2 ,     0 ,     0 ,     0 ,  1 },
-/* 3 : L+AN       */ {     1 ,     0 ,     1 ,     3 ,     5 ,     5 ,     0 ,  1 },
-/* 4 : L+ON       */ { s(2,1),     0 , s(2,1),     3 ,     4 ,     4 ,     0 ,  0 },
-/* 5 : L+AN+ON    */ {     1 ,     0 ,     1 ,     3 ,     5 ,     5 ,     0 ,  0 }
-};
-
-#undef s
-
-static ImpAct impAct0 = {0,1,2,3,4,5,6};
-static PImpTab impTab[2] = {impTabL, impTabR};
-
-/*------------------------------------------------------------------------*/
-
-/* perform rules (Wn), (Nn), and (In) on a run of the text ------------------ */
-
-/*
- * This implementation of the (Wn) rules applies all rules in one pass.
- * In order to do so, it needs a look-ahead of typically 1 character
- * (except for W5: sequences of ET) and keeps track of changes
- * in a rule Wp that affect a later Wq (p<q).
- *
- * The (Nn) and (In) rules are also performed in that same single loop,
- * but effectively one iteration behind for white space.
- *
- * Since all implicit rules are performed in one step, it is not necessary
- * to actually store the intermediate directional properties in dirProps[].
- */
-
-void nsBidi::ProcessPropertySeq(LevState *pLevState, uint8_t _prop, int32_t start, int32_t limit)
-{
-  uint8_t cell, oldStateSeq, actionSeq;
-  PImpTab pImpTab = pLevState->pImpTab;
-  PImpAct pImpAct = pLevState->pImpAct;
-  nsBidiLevel* levels = mLevels;
-  nsBidiLevel level, addLevel;
-  int32_t start0, k;
-
-  start0 = start;                         /* save original start position */
-  oldStateSeq = (uint8_t)pLevState->state;
-  cell = pImpTab[oldStateSeq][_prop];
-  pLevState->state = GET_STATE(cell);       /* isolate the new state */
-  actionSeq = pImpAct[GET_ACTION(cell)]; /* isolate the action */
-  addLevel = pImpTab[pLevState->state][IMPTABLEVELS_RES];
-
-  if(actionSeq) {
-    switch(actionSeq) {
-    case 1:                         /* init ON seq */
-      pLevState->startON = start0;
-      break;
-
-    case 2:                         /* prepend ON seq to current seq */
-      MOZ_ASSERT(pLevState->startON >= 0, "no valid ON sequence start!");
-      start = pLevState->startON;
-      break;
-
-    default:                        /* we should never get here */
-      MOZ_ASSERT(false);
-      break;
-    }
-  }
-  if(addLevel || (start < start0)) {
-    level = pLevState->runLevel + addLevel;
-    if (start >= pLevState->runStart) {
-      for (k = start; k < limit; k++) {
-        levels[k] = level;
-      }
-    } else {
-      DirProp *dirProps = mDirProps, dirProp;
-      int32_t isolateCount = 0;
-      for (k = start; k < limit; k++) {
-        dirProp = dirProps[k];
-        if (dirProp == PDI) {
-          isolateCount--;
-        }
-        if (isolateCount == 0) {
-          levels[k]=level;
-        }
-        if (dirProp == LRI || dirProp == RLI) {
-          isolateCount++;
-        }
-      }
-    }
-  }
-}
-
-void nsBidi::ResolveImplicitLevels(int32_t aStart, int32_t aLimit,
-                   DirProp aSOR, DirProp aEOR)
-{
-  const DirProp *dirProps = mDirProps;
-  DirProp dirProp;
-  LevState levState;
-  int32_t i, start1, start2;
-  uint16_t oldStateImp, stateImp, actionImp;
-  uint8_t gprop, resProp, cell;
-
-  /* initialize for property and levels state tables */
-  levState.runStart = aStart;
-  levState.runLevel = mLevels[aStart];
-  levState.pImpTab = impTab[levState.runLevel & 1];
-  levState.pImpAct = impAct0;
-  levState.startON = -1; /* initialize to invalid start position */
-
-  /* The isolates[] entries contain enough information to
-     resume the bidi algorithm in the same state as it was
-     when it was interrupted by an isolate sequence. */
-  if (dirProps[aStart] == PDI && mIsolateCount >= 0) {
-    start1 = mIsolates[mIsolateCount].start1;
-    stateImp = mIsolates[mIsolateCount].stateImp;
-    levState.state = mIsolates[mIsolateCount].state;
-    mIsolateCount--;
-  } else {
-    levState.startON = -1;
-    start1 = aStart;
-    if (dirProps[aStart] == NSM) {
-      stateImp = 1 + aSOR;
-    } else {
-      stateImp = 0;
-    }
-    levState.state = 0;
-    ProcessPropertySeq(&levState, aSOR, aStart, aStart);
-  }
-  start2 = aStart;
-
-  for (i = aStart; i <= aLimit; i++) {
-    if (i >= aLimit) {
-      int32_t k;
-      for (k = aLimit - 1;
-           k > aStart && (DIRPROP_FLAG(dirProps[k]) & MASK_BN_EXPLICIT); k--) {
-        // empty loop body
-      }
-      dirProp = mDirProps[k];
-      if (dirProp == LRI || dirProp == RLI) {
-        break;  /* no forced closing for sequence ending with LRI/RLI */
-      }
-      gprop = aEOR;
-    } else {
-      DirProp prop;
-      prop = dirProps[i];
-      gprop = groupProp[prop];
-    }
-    oldStateImp = stateImp;
-    cell = impTabProps[oldStateImp][gprop];
-    stateImp = GET_STATEPROPS(cell);      /* isolate the new state */
-    actionImp = GET_ACTIONPROPS(cell);    /* isolate the action */
-    if ((i == aLimit) && (actionImp == 0)) {
-      /* there is an unprocessed sequence if its property == eor   */
-      actionImp = 1;                      /* process the last sequence */
-    }
-    if (actionImp) {
-      resProp = impTabProps[oldStateImp][IMPTABPROPS_RES];
-      switch (actionImp) {
-      case 1:             /* process current seq1, init new seq1 */
-        ProcessPropertySeq(&levState, resProp, start1, i);
-        start1 = i;
-        break;
-      case 2:             /* init new seq2 */
-        start2 = i;
-        break;
-      case 3:             /* process seq1, process seq2, init new seq1 */
-        ProcessPropertySeq(&levState, resProp, start1, start2);
-        ProcessPropertySeq(&levState, DirProp_ON, start2, i);
-        start1 = i;
-        break;
-      case 4:             /* process seq1, set seq1=seq2, init new seq2 */
-        ProcessPropertySeq(&levState, resProp, start1, start2);
-        start1 = start2;
-        start2 = i;
-        break;
-      default:            /* we should never get here */
-        MOZ_ASSERT(false);
-        break;
-      }
-    }
-  }
-
-  for (i = aLimit - 1;
-       i > aStart && (DIRPROP_FLAG(dirProps[i]) & MASK_BN_EXPLICIT); i--) {
-    // empty loop body
-  }
-  dirProp = dirProps[i];
-  if ((dirProp == LRI || dirProp == RLI) && aLimit < mLength) {
-    mIsolateCount++;
-    mIsolates[mIsolateCount].stateImp = stateImp;
-    mIsolates[mIsolateCount].state = levState.state;
-    mIsolates[mIsolateCount].start1 = start1;
-  } else {
-    ProcessPropertySeq(&levState, aEOR, aLimit, aLimit);
-  }
-}
-
-
-/* perform (L1) and (X9) ---------------------------------------------------- */
-
-/*
- * Reset the embedding levels for some non-graphic characters (L1).
- * This function also sets appropriate levels for BN, and
- * explicit embedding types that are supposed to have been removed
- * from the paragraph in (X9).
- */
-void nsBidi::AdjustWSLevels()
-{
-  const DirProp *dirProps=mDirProps;
-  nsBidiLevel *levels=mLevels;
-  int32_t i;
-
-  if(mFlags&MASK_WS) {
-    nsBidiLevel paraLevel=mParaLevel;
-    Flags flag;
-
-    i=mTrailingWSStart;
-    while(i>0) {
-      /* reset a sequence of WS/BN before eop and B/S to the paragraph paraLevel */
-      while (i > 0 && DIRPROP_FLAG(dirProps[--i]) & MASK_WS) {
-        levels[i]=paraLevel;
-      }
-
-      /* reset BN to the next character's paraLevel until B/S, which restarts above loop */
-      /* here, i+1 is guaranteed to be <length */
-      while(i>0) {
-        flag = DIRPROP_FLAG(dirProps[--i]);
-        if(flag&MASK_BN_EXPLICIT) {
-          levels[i]=levels[i+1];
-        } else if(flag&MASK_B_S) {
-          levels[i]=paraLevel;
-          break;
-        }
-      }
-    }
-  }
-}
-
-nsresult nsBidi::GetDirection(nsBidiDirection* aDirection)
-{
-  *aDirection = mDirection;
-  return NS_OK;
-}
-
-nsresult nsBidi::GetParaLevel(nsBidiLevel* aParaLevel)
-{
-  *aParaLevel = mParaLevel;
-  return NS_OK;
-}
-
-nsresult nsBidi::GetLogicalRun(int32_t aLogicalStart, int32_t *aLogicalLimit, nsBidiLevel *aLevel)
-{
-  int32_t length = mLength;
-
-  if(aLogicalStart<0 || length<=aLogicalStart) {
-    return NS_ERROR_INVALID_ARG;
-  }
-
-  int32_t runCount, visualStart, logicalLimit, logicalFirst, i;
-  Run iRun;
-
-  /* CountRuns will check VALID_PARA_OR_LINE */
-  nsresult rv = CountRuns(&runCount);
-  if (NS_FAILED(rv)) {
-    return rv;
-  }
-
-  visualStart = logicalLimit = 0;
-  iRun = mRuns[0];
-
-  for (i = 0; i < runCount; i++) {
-    iRun = mRuns[i];
-    logicalFirst = GET_INDEX(iRun.logicalStart);
-    logicalLimit = logicalFirst + iRun.visualLimit - visualStart;
-    if ((aLogicalStart >= logicalFirst) && (aLogicalStart < logicalLimit)) {
-       break;
-    }
-    visualStart = iRun.visualLimit;
-  }
-  if (aLogicalLimit) {
-    *aLogicalLimit = logicalLimit;
-  }
-  if (aLevel) {
-    if (mDirection != NSBIDI_MIXED || aLogicalStart >= mTrailingWSStart) {
-      *aLevel = mParaLevel;
-    } else {
-      *aLevel = mLevels[aLogicalStart];
-    }
-  }
-  return NS_OK;
-}
-
-/* runs API functions ------------------------------------------------------- */
-
-nsresult nsBidi::CountRuns(int32_t* aRunCount)
-{
-  if(mRunCount<0 && !GetRuns()) {
-    return NS_ERROR_OUT_OF_MEMORY;
-  } else {
-    if (aRunCount)
-      *aRunCount = mRunCount;
-    return NS_OK;
-  }
-}
-
-nsresult nsBidi::GetVisualRun(int32_t aRunIndex, int32_t *aLogicalStart, int32_t *aLength, nsBidiDirection *aDirection)
-{
-  if( aRunIndex<0 ||
-      (mRunCount==-1 && !GetRuns()) ||
-      aRunIndex>=mRunCount
-    ) {
-    *aDirection = NSBIDI_LTR;
-    return NS_OK;
-  } else {
-    int32_t start=mRuns[aRunIndex].logicalStart;
-    if(aLogicalStart!=nullptr) {
-      *aLogicalStart=GET_INDEX(start);
-    }
-    if(aLength!=nullptr) {
-      if(aRunIndex>0) {
-        *aLength=mRuns[aRunIndex].visualLimit-
-             mRuns[aRunIndex-1].visualLimit;
-      } else {
-        *aLength=mRuns[0].visualLimit;
-      }
-    }
-    *aDirection = (nsBidiDirection)GET_ODD_BIT(start);
-    return NS_OK;
-  }
-}
-
-/* compute the runs array --------------------------------------------------- */
-
-/*
- * Compute the runs array from the levels array.
- * After GetRuns() returns true, runCount is guaranteed to be >0
- * and the runs are reordered.
- * Odd-level runs have visualStart on their visual right edge and
- * they progress visually to the left.
- */
-bool nsBidi::GetRuns()
-{
-  /*
-   * This method returns immediately if the runs are already set. This
-   * includes the case of length==0 (handled in setPara)..
-   */
-  if (mRunCount >= 0) {
-    return true;
-  }
-
-  if(mDirection!=NSBIDI_MIXED) {
-    /* simple, single-run case - this covers length==0 */
-    GetSingleRun(mParaLevel);
-  } else /* NSBIDI_MIXED, length>0 */ {
-    /* mixed directionality */
-    int32_t length=mLength, limit=mTrailingWSStart;
-
-    /*
-     * If there are WS characters at the end of the line
-     * and the run preceding them has a level different from
-     * paraLevel, then they will form their own run at paraLevel (L1).
-     * Count them separately.
-     * We need some special treatment for this in order to not
-     * modify the levels array which a line nsBidi object shares
-     * with its paragraph parent and its other line siblings.
-     * In other words, for the trailing WS, it may be
-     * levels[]!=paraLevel but we have to treat it like it were so.
-     */
-    nsBidiLevel *levels=mLevels;
-    int32_t i, runCount;
-    nsBidiLevel level=NSBIDI_DEFAULT_LTR;   /* initialize with no valid level */
-
-    /* count the runs, there is at least one non-WS run, and limit>0 */
-    runCount=0;
-    for(i=0; i<limit; ++i) {
-      /* increment runCount at the start of each run */
-      if(levels[i]!=level) {
-        ++runCount;
-        level=levels[i];
-      }
-    }
-
-    /*
-     * We don't need to see if the last run can be merged with a trailing
-     * WS run because SetTrailingWSStart() would have done that.
-     */
-    if(runCount==1 && limit==length) {
-      /* There is only one non-WS run and no trailing WS-run. */
-      GetSingleRun(levels[0]);
-    } else /* runCount>1 || limit<length */ {
-      /* allocate and set the runs */
-      Run *runs;
-      int32_t runIndex, start;
-      nsBidiLevel minLevel=NSBIDI_MAX_EXPLICIT_LEVEL+1, maxLevel=0;
-
-      /* now, count a (non-mergable) WS run */
-      if(limit<length) {
-        ++runCount;
-      }
-
-      /* runCount>1 */
-      if(GETRUNSMEMORY(runCount)) {
-        runs=mRunsMemory;
-      } else {
-        return false;
-      }
-
-      /* set the runs */
-      /* this could be optimized, e.g.: 464->444, 484->444, 575->555, 595->555 */
-      /* however, that would take longer and make other functions more complicated */
-      runIndex=0;
-
-      /* search for the run ends */
-      i = 0;
-      do {
-        /* prepare this run */
-        start = i;
-        level = levels[i];
-        if(level<minLevel) {
-          minLevel=level;
-        }
-        if(level>maxLevel) {
-          maxLevel=level;
-        }
-
-        /* look for the run limit */
-        while (++i < limit && levels[i] == level) {
-        }
-
-        /* i is another run limit */
-        runs[runIndex].logicalStart = start;
-        runs[runIndex].visualLimit = i - start;
-        ++runIndex;
-      } while (i < limit);
-
-      if(limit<length) {
-        /* there is a separate WS run */
-        runs[runIndex].logicalStart=limit;
-        runs[runIndex].visualLimit=length-limit;
-        if(mParaLevel<minLevel) {
-          minLevel=mParaLevel;
-        }
-      }
-
-      /* set the object fields */
-      mRuns=runs;
-      mRunCount=runCount;
-
-      ReorderLine(minLevel, maxLevel);
-
-      /* now add the direction flags and adjust the visualLimit's to be just that */
-      /* this loop will also handling the trailing WS run */
-      limit = 0;
-      for (i = 0; i < runCount; ++i) {
-        ADD_ODD_BIT_FROM_LEVEL(runs[i].logicalStart, levels[runs[i].logicalStart]);
-        limit += runs[i].visualLimit;
-        runs[i].visualLimit = limit;
-      }
-
-      /* Set the "odd" bit for the trailing WS run. */
-      /* For a RTL paragraph, it will be the *first* run in visual order. */
-      if (runIndex < runCount) {
-        int32_t trailingRun = (mParaLevel & 1) ? 0 : runIndex;
-        ADD_ODD_BIT_FROM_LEVEL(runs[trailingRun].logicalStart, mParaLevel);
-      }
-    }
-  }
-
-  return true;
-}
-
-/* in trivial cases there is only one trivial run; called by GetRuns() */
-void nsBidi::GetSingleRun(nsBidiLevel aLevel)
-{
-  /* simple, single-run case */
-  mRuns=mSimpleRuns;
-  mRunCount=1;
-
-  /* fill and reorder the single run */
-  mRuns[0].logicalStart=MAKE_INDEX_ODD_PAIR(0, aLevel);
-  mRuns[0].visualLimit=mLength;
-}
-
-/* reorder the runs array (L2) ---------------------------------------------- */
-
-/*
- * Reorder the same-level runs in the runs array.
- * Here, runCount>1 and maxLevel>=minLevel>=paraLevel.
- * All the visualStart fields=logical start before reordering.
- * The "odd" bits are not set yet.
- *
- * Reordering with this data structure lends itself to some handy shortcuts:
- *
- * Since each run is moved but not modified, and since at the initial maxLevel
- * each sequence of same-level runs consists of only one run each, we
- * don't need to do anything there and can predecrement maxLevel.
- * In many simple cases, the reordering is thus done entirely in the
- * index mapping.
- * Also, reordering occurs only down to the lowest odd level that occurs,
- * which is minLevel|1. However, if the lowest level itself is odd, then
- * in the last reordering the sequence of the runs at this level or higher
- * will be all runs, and we don't need the elaborate loop to search for them.
- * This is covered by ++minLevel instead of minLevel|=1 followed
- * by an extra reorder-all after the reorder-some loop.
- * About a trailing WS run:
- * Such a run would need special treatment because its level is not
- * reflected in levels[] if this is not a paragraph object.
- * Instead, all characters from trailingWSStart on are implicitly at
- * paraLevel.
- * However, for all maxLevel>paraLevel, this run will never be reordered
- * and does not need to be taken into account. maxLevel==paraLevel is only reordered
- * if minLevel==paraLevel is odd, which is done in the extra segment.
- * This means that for the main reordering loop we don't need to consider
- * this run and can --runCount. If it is later part of the all-runs
- * reordering, then runCount is adjusted accordingly.
- */
-void nsBidi::ReorderLine(nsBidiLevel aMinLevel, nsBidiLevel aMaxLevel)
-{
-  Run *runs, tempRun;
-  nsBidiLevel *levels;
-  int32_t firstRun, endRun, limitRun, runCount;
-
-  /* nothing to do? */
-  if(aMaxLevel<=(aMinLevel|1)) {
-    return;
-  }
-
-  /*
-   * Reorder only down to the lowest odd level
-   * and reorder at an odd aMinLevel in a separate, simpler loop.
-   * See comments above for why aMinLevel is always incremented.
-   */
-  ++aMinLevel;
-
-  runs=mRuns;
-  levels=mLevels;
-  runCount=mRunCount;
-
-  /* do not include the WS run at paraLevel<=old aMinLevel except in the simple loop */
-  if(mTrailingWSStart<mLength) {
-    --runCount;
-  }
-
-  while(--aMaxLevel>=aMinLevel) {
-    firstRun=0;
-
-    /* loop for all sequences of runs */
-    for(;;) {
-      /* look for a sequence of runs that are all at >=aMaxLevel */
-      /* look for the first run of such a sequence */
-      while(firstRun<runCount && levels[runs[firstRun].logicalStart]<aMaxLevel) {
-        ++firstRun;
-      }
-      if(firstRun>=runCount) {
-        break;  /* no more such runs */
-      }
-
-      /* look for the limit run of such a sequence (the run behind it) */
-      for(limitRun=firstRun; ++limitRun<runCount && levels[runs[limitRun].logicalStart]>=aMaxLevel;) {}
-
-      /* Swap the entire sequence of runs from firstRun to limitRun-1. */
-      endRun=limitRun-1;
-      while(firstRun<endRun) {
-        tempRun = runs[firstRun];
-        runs[firstRun] = runs[endRun];
-        runs[endRun] = tempRun;
-        ++firstRun;
-        --endRun;
-      }
-
-      if(limitRun==runCount) {
-        break;  /* no more such runs */
-      } else {
-        firstRun=limitRun+1;
-      }
-    }
-  }
-
-  /* now do aMaxLevel==old aMinLevel (==odd!), see above */
-  if(!(aMinLevel&1)) {
-    firstRun=0;
-
-    /* include the trailing WS run in this complete reordering */
-    if(mTrailingWSStart==mLength) {
-      --runCount;
-    }
-
-    /* Swap the entire sequence of all runs. (endRun==runCount) */
-    while(firstRun<runCount) {
-      tempRun = runs[firstRun];
-      runs[firstRun] = runs[runCount];
-      runs[runCount] = tempRun;
-      ++firstRun;
-      --runCount;
-    }
-  }
-}
-
-nsresult nsBidi::ReorderVisual(const nsBidiLevel *aLevels, int32_t aLength, int32_t *aIndexMap)
-{
-  int32_t start, end, limit, temp;
-  nsBidiLevel minLevel, maxLevel;
-
-  if(aIndexMap==nullptr ||
-     !PrepareReorder(aLevels, aLength, aIndexMap, &minLevel, &maxLevel)) {
-    return NS_OK;
-  }
-
-  /* nothing to do? */
-  if(minLevel==maxLevel && (minLevel&1)==0) {
-    return NS_OK;
-  }
-
-  /* reorder only down to the lowest odd level */
-  minLevel|=1;
-
-  /* loop maxLevel..minLevel */
-  do {
-    start=0;
-
-    /* loop for all sequences of levels to reorder at the current maxLevel */
-    for(;;) {
-      /* look for a sequence of levels that are all at >=maxLevel */
-      /* look for the first index of such a sequence */
-      while(start<aLength && aLevels[start]<maxLevel) {
-        ++start;
-      }
-      if(start>=aLength) {
-        break;  /* no more such runs */
-      }
-
-      /* look for the limit of such a sequence (the index behind it) */
-      for(limit=start; ++limit<aLength && aLevels[limit]>=maxLevel;) {}
-
-      /*
-       * Swap the entire interval of indexes from start to limit-1.
-       * We don't need to swap the levels for the purpose of this
-       * algorithm: the sequence of levels that we look at does not
-       * move anyway.
-       */
-      end=limit-1;
-      while(start<end) {
-        temp=aIndexMap[start];
-        aIndexMap[start]=aIndexMap[end];
-        aIndexMap[end]=temp;
-
-        ++start;
-        --end;
-      }
-
-      if(limit==aLength) {
-        break;  /* no more such sequences */
-      } else {
-        start=limit+1;
-      }
-    }
-  } while(--maxLevel>=minLevel);
-
-  return NS_OK;
-}
-
-bool nsBidi::PrepareReorder(const nsBidiLevel *aLevels, int32_t aLength,
-                int32_t *aIndexMap,
-                nsBidiLevel *aMinLevel, nsBidiLevel *aMaxLevel)
-{
-  int32_t start;
-  nsBidiLevel level, minLevel, maxLevel;
-
-  if(aLevels==nullptr || aLength<=0) {
-    return false;
-  }
-
-  /* determine minLevel and maxLevel */
-  minLevel=NSBIDI_MAX_EXPLICIT_LEVEL+1;
-  maxLevel=0;
-  for(start=aLength; start>0;) {
-    level=aLevels[--start];
-    if(level>NSBIDI_MAX_EXPLICIT_LEVEL+1) {
-      return false;
-    }
-    if(level<minLevel) {
-      minLevel=level;
-    }
-    if(level>maxLevel) {
-      maxLevel=level;
-    }
-  }
-  *aMinLevel=minLevel;
-  *aMaxLevel=maxLevel;
-
-  /* initialize the index map */
-  for(start=aLength; start>0;) {
-    --start;
-    aIndexMap[start]=start;
-  }
-
-  return true;
-}
diff --git a/layout/base/nsBidi_noICU.h b/layout/base/nsBidi_noICU.h
deleted file mode 100644
index a3f5aef1c..000000000
--- a/layout/base/nsBidi_noICU.h
+++ /dev/null
@@ -1,709 +0,0 @@
-/* -*- Mode: C; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
- *
- * This Source Code Form is subject to the terms of the Mozilla Public
- * License, v. 2.0. If a copy of the MPL was not distributed with this
- * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
-
-#ifndef nsBidi_noICU_h__
-#define nsBidi_noICU_h__
-
-#include "nsBidiUtils.h"
-#include "nsIFrame.h" // for frame property declaration
-
-// Bidi reordering engine from ICU
-/*
- * javadoc-style comments are intended to be transformed into HTML
- * using DOC++ - see
- * http://www.zib.de/Visual/software/doc++/index.html .
- *
- * The HTML documentation is created with
- *  doc++ -H nsBidi.h
- */
-
-/**
- * @mainpage BIDI algorithm for Mozilla (from ICU)
- *
- * <h2>BIDI algorithm for Mozilla</h2>
- *
- * This is an implementation of the Unicode Bidirectional algorithm.
- * The algorithm is defined in the
- * <a href="http://www.unicode.org/unicode/reports/tr9/">Unicode Technical Report 9</a>,
- * version 5, also described in The Unicode Standard, Version 3.0 .<p>
- *
- * <h3>General remarks about the API:</h3>
- *
- * The <quote>limit</quote> of a sequence of characters is the position just after their
- * last character, i.e., one more than that position.<p>
- *
- * Some of the API functions provide access to <quote>runs</quote>.
- * Such a <quote>run</quote> is defined as a sequence of characters
- * that are at the same embedding level
- * after performing the BIDI algorithm.<p>
- *
- * @author Markus W. Scherer. Ported to Mozilla by Simon Montagu
- * @version 1.0
- */
-
-/**
- * Special value which can be returned by the mapping functions when a logical
- * index has no corresponding visual index or vice-versa.
- * @see GetVisualIndex
- * @see GetVisualMap
- * @see GetLogicalIndex
- * @see GetLogicalMap
- */
-#define NSBIDI_MAP_NOWHERE (-1)
-
-/* miscellaneous definitions ------------------------------------------------ */
-
-/* helper macros for each allocated array member */
-#define GETDIRPROPSMEMORY(length) nsBidi::GetMemory((void **)&mDirPropsMemory, \
-                                                    &mDirPropsSize, \
-                                                    (length))
-
-#define GETLEVELSMEMORY(length) nsBidi::GetMemory((void **)&mLevelsMemory, \
-                                                  &mLevelsSize, \
-                                                  (length))
-
-#define GETRUNSMEMORY(length) nsBidi::GetMemory((void **)&mRunsMemory, \
-                                                &mRunsSize, \
-                                                (length)*sizeof(Run))
-
-#define GETISOLATESMEMORY(length) nsBidi::GetMemory((void **)&mIsolatesMemory, \
-                                                    &mIsolatesSize, \
-                                                    (length)*sizeof(Isolate))
-
-#define GETOPENINGSMEMORY(length) nsBidi::GetMemory((void **)&mOpeningsMemory, \
-                                                    &mOpeningsSize, \
-                                                    (length)*sizeof(Opening))
-
-/*
- * Sometimes, bit values are more appropriate
- * to deal with directionality properties.
- * Abbreviations in these macro names refer to names
- * used in the Bidi algorithm.
- */
-typedef uint8_t DirProp;
-
-#define DIRPROP_FLAG(dir) (1UL<<(dir))
-
-/* special flag for multiple runs from explicit embedding codes */
-#define DIRPROP_FLAG_MULTI_RUNS (1UL<<31)
-
-/* are there any characters that are LTR or RTL? */
-#define MASK_LTR (DIRPROP_FLAG(L)|DIRPROP_FLAG(EN)|DIRPROP_FLAG(ENL)| \
-                  DIRPROP_FLAG(ENR)|DIRPROP_FLAG(AN)|DIRPROP_FLAG(LRE)| \
-                  DIRPROP_FLAG(LRO)|DIRPROP_FLAG(LRI))
-#define MASK_RTL (DIRPROP_FLAG(R)|DIRPROP_FLAG(AL)|DIRPROP_FLAG(RLE)| \
-                  DIRPROP_FLAG(RLO)|DIRPROP_FLAG(RLI))
-#define MASK_R_AL (DIRPROP_FLAG(R)|DIRPROP_FLAG(AL))
-
-/* explicit embedding codes */
-#define MASK_EXPLICIT (DIRPROP_FLAG(LRE)|DIRPROP_FLAG(LRO)|DIRPROP_FLAG(RLE)|DIRPROP_FLAG(RLO)|DIRPROP_FLAG(PDF))
-
-/* explicit isolate codes */
-#define MASK_ISO (DIRPROP_FLAG(LRI)|DIRPROP_FLAG(RLI)|DIRPROP_FLAG(FSI)|DIRPROP_FLAG(PDI))
-
-#define MASK_BN_EXPLICIT (DIRPROP_FLAG(BN)|MASK_EXPLICIT)
-
-/* paragraph and segment separators */
-#define MASK_B_S (DIRPROP_FLAG(B)|DIRPROP_FLAG(S))
-
-/* all types that are counted as White Space or Neutral in some steps */
-#define MASK_WS (MASK_B_S|DIRPROP_FLAG(WS)|MASK_BN_EXPLICIT|MASK_ISO)
-
-/* types that are neutrals or could becomes neutrals in (Wn) */
-#define MASK_POSSIBLE_N (DIRPROP_FLAG(O_N)|DIRPROP_FLAG(CS)|DIRPROP_FLAG(ES)|DIRPROP_FLAG(ET)|MASK_WS)
-
-/*
- * These types may be changed to "e",
- * the embedding type (L or R) of the run,
- * in the Bidi algorithm (N2)
- */
-#define MASK_EMBEDDING (DIRPROP_FLAG(NSM)|MASK_POSSIBLE_N)
-
-/* the dirProp's L and R are defined to 0 and 1 values in nsCharType */
-#define GET_LR_FROM_LEVEL(level) ((DirProp)((level)&1))
-
-#define IS_DEFAULT_LEVEL(level) (((level)&0xfe)==0xfe)
-
-/*
- * The following bit is used for the directional isolate status.
- * Stack entries corresponding to isolate sequences are greater than ISOLATE.
- */
-#define ISOLATE 0x0100
-
-/* number of isolate entries allocated initially without malloc */
-#define SIMPLE_ISOLATES_SIZE 5
-
-/* number of isolate run entries for paired brackets allocated initially without malloc */
-#define SIMPLE_OPENINGS_COUNT 8
-
-/* handle surrogate pairs --------------------------------------------------- */
-
-#define IS_FIRST_SURROGATE(uchar) (((uchar)&0xfc00)==0xd800)
-#define IS_SECOND_SURROGATE(uchar) (((uchar)&0xfc00)==0xdc00)
-
-/* get the UTF-32 value directly from the surrogate pseudo-characters */
-#define SURROGATE_OFFSET ((0xd800<<10UL)+0xdc00-0x10000)
-#define GET_UTF_32(first, second) (((first)<<10UL)+(second)-SURROGATE_OFFSET)
-
-#if !ENABLE_INTL_API // these are provided by ICU if present in the build
-
-#define UTF_ERROR_VALUE 0xffff
-/* definitions with forward iteration --------------------------------------- */
-
-/*
- * all the macros that go forward assume that
- * the initial offset is 0<=i<length;
- * they update the offset
- */
-
-/* fast versions, no error-checking */
-
-#define UTF16_APPEND_CHAR_UNSAFE(s, i, c){ \
-                                         if((uint32_t)(c)<=0xffff) { \
-                                         (s)[(i)++]=(char16_t)(c); \
-                                         } else { \
-                                         (s)[(i)++]=(char16_t)((c)>>10)+0xd7c0; \
-                                         (s)[(i)++]=(char16_t)(c)&0x3ff|0xdc00; \
-                                         } \
-}
-
-/* safe versions with error-checking and optional regularity-checking */
-
-#define UTF16_APPEND_CHAR_SAFE(s, i, length, c) { \
-                                                if((PRUInt32)(c)<=0xffff) { \
-                                                (s)[(i)++]=(char16_t)(c); \
-                                                } else if((PRUInt32)(c)<=0x10ffff) { \
-                                                if((i)+1<(length)) { \
-                                                (s)[(i)++]=(char16_t)((c)>>10)+0xd7c0; \
-                                                (s)[(i)++]=(char16_t)(c)&0x3ff|0xdc00; \
-                                                } else /* not enough space */ { \
-                                                (s)[(i)++]=UTF_ERROR_VALUE; \
-                                                } \
-                                                } else /* c>0x10ffff, write error value */ { \
-                                                (s)[(i)++]=UTF_ERROR_VALUE; \
-                                                } \
-}
-
-/* definitions with backward iteration -------------------------------------- */
-
-/*
- * all the macros that go backward assume that
- * the valid buffer range starts at offset 0
- * and that the initial offset is 0<i<=length;
- * they update the offset
- */
-
-/* fast versions, no error-checking */
-
-/*
- * Get a single code point from an offset that points behind the last
- * of the code units that belong to that code point.
- * Assume 0<=i<length.
- */
-#define UTF16_PREV_CHAR_UNSAFE(s, i, c) { \
-                                        (c)=(s)[--(i)]; \
-                                        if(IS_SECOND_SURROGATE(c)) { \
-                                        (c)=GET_UTF_32((s)[--(i)], (c)); \
-                                        } \
-}
-
-#define UTF16_BACK_1_UNSAFE(s, i) { \
-                                  if(IS_SECOND_SURROGATE((s)[--(i)])) { \
-                                  --(i); \
-                                  } \
-}
-
-#define UTF16_BACK_N_UNSAFE(s, i, n) { \
-                                     int32_t __N=(n); \
-                                     while(__N>0) { \
-                                     UTF16_BACK_1_UNSAFE(s, i); \
-                                     --__N; \
-                                     } \
-}
-
-/* safe versions with error-checking and optional regularity-checking */
-
-#define UTF16_PREV_CHAR_SAFE(s, start, i, c, strict) { \
-                                                     (c)=(s)[--(i)]; \
-                                                     if(IS_SECOND_SURROGATE(c)) { \
-                                                     char16_t __c2; \
-                                                     if((i)>(start) && IS_FIRST_SURROGATE(__c2=(s)[(i)-1])) { \
-                                                     --(i); \
-                                                     (c)=GET_UTF_32(__c2, (c)); \
-      /* strict: ((c)&0xfffe)==0xfffe is caught by UTF_IS_ERROR() */ \
-                                                     } else if(strict) {\
-      /* unmatched second surrogate */ \
-                                                     (c)=UTF_ERROR_VALUE; \
-                                                     } \
-                                                     } else if(strict && IS_FIRST_SURROGATE(c)) { \
-      /* unmatched first surrogate */ \
-                                                     (c)=UTF_ERROR_VALUE; \
-  /* else strict: (c)==0xfffe is caught by UTF_IS_ERROR() */ \
-                                                     } \
-}
-
-#define UTF16_BACK_1_SAFE(s, start, i) { \
-                                       if(IS_SECOND_SURROGATE((s)[--(i)]) && (i)>(start) && IS_FIRST_SURROGATE((s)[(i)-1])) { \
-                                       --(i); \
-                                       } \
-}
-
-#define UTF16_BACK_N_SAFE(s, start, i, n) { \
-                                          int32_t __N=(n); \
-                                          while(__N>0 && (i)>(start)) { \
-                                          UTF16_BACK_1_SAFE(s, start, i); \
-                                          --__N; \
-                                          } \
-}
-
-#define UTF_PREV_CHAR_UNSAFE(s, i, c)                UTF16_PREV_CHAR_UNSAFE(s, i, c)
-#define UTF_PREV_CHAR_SAFE(s, start, i, c, strict)   UTF16_PREV_CHAR_SAFE(s, start, i, c, strict)
-#define UTF_BACK_1_UNSAFE(s, i)                      UTF16_BACK_1_UNSAFE(s, i)
-#define UTF_BACK_1_SAFE(s, start, i)                 UTF16_BACK_1_SAFE(s, start, i)
-#define UTF_BACK_N_UNSAFE(s, i, n)                   UTF16_BACK_N_UNSAFE(s, i, n)
-#define UTF_BACK_N_SAFE(s, start, i, n)              UTF16_BACK_N_SAFE(s, start, i, n)
-#define UTF_APPEND_CHAR_UNSAFE(s, i, c)              UTF16_APPEND_CHAR_UNSAFE(s, i, c)
-#define UTF_APPEND_CHAR_SAFE(s, i, length, c)        UTF16_APPEND_CHAR_SAFE(s, i, length, c)
-
-#define UTF_PREV_CHAR(s, start, i, c)                UTF_PREV_CHAR_SAFE(s, start, i, c, false)
-#define UTF_BACK_1(s, start, i)                      UTF_BACK_1_SAFE(s, start, i)
-#define UTF_BACK_N(s, start, i, n)                   UTF_BACK_N_SAFE(s, start, i, n)
-#define UTF_APPEND_CHAR(s, i, length, c)             UTF_APPEND_CHAR_SAFE(s, i, length, c)
-
-#endif // !ENABLE_INTL_API
-
-struct Isolate {
-  int32_t start1;
-  int16_t stateImp;
-  int16_t state;
-};
-
-// For bracket matching
-
-#define FOUND_L DIRPROP_FLAG(L)
-#define FOUND_R DIRPROP_FLAG(R)
-
-struct Opening {
-  int32_t position;                   /* position of opening bracket */
-  int32_t match;                      /* matching char or -position of closing bracket */
-  int32_t contextPos;                 /* position of last strong char found before opening */
-  uint16_t flags;                     /* bits for L or R/AL found within the pair */
-  DirProp contextDir;                 /* L or R according to last strong char before opening */
-  uint8_t filler;                     /* to complete a nice multiple of 4 chars */
-};
-
-struct IsoRun {
-  int32_t  contextPos;                /* position of char determining context */
-  uint16_t start;                     /* index of first opening entry for this run */
-  uint16_t limit;                     /* index after last opening entry for this run */
-  nsBidiLevel level;                  /* level of this run */
-  DirProp lastStrong;                 /* bidi class of last strong char found in this run */
-  DirProp lastBase;                   /* bidi class of last base char found in this run */
-  DirProp contextDir;                 /* L or R to use as context for following openings */
-};
-
-class nsBidi;
-
-/* Run structure for reordering --------------------------------------------- */
-
-typedef struct Run {
-  int32_t logicalStart;  /* first character of the run; b31 indicates even/odd level */
-  int32_t visualLimit;   /* last visual position of the run +1 */
-} Run;
-
-/* in a Run, logicalStart will get this bit set if the run level is odd */
-#define INDEX_ODD_BIT (1UL<<31)
-
-#define MAKE_INDEX_ODD_PAIR(index, level) (index|((uint32_t)level<<31))
-#define ADD_ODD_BIT_FROM_LEVEL(x, level)  ((x)|=((uint32_t)level<<31))
-#define REMOVE_ODD_BIT(x)          ((x)&=~INDEX_ODD_BIT)
-
-#define GET_INDEX(x)   ((x)&~INDEX_ODD_BIT)
-#define GET_ODD_BIT(x) ((uint32_t)(x)>>31)
-#define IS_ODD_RUN(x)  (((x)&INDEX_ODD_BIT)!=0)
-#define IS_EVEN_RUN(x) (((x)&INDEX_ODD_BIT)==0)
-
-typedef uint32_t Flags;
-
-enum { DirProp_L=0, DirProp_R=1, DirProp_EN=2, DirProp_AN=3, DirProp_ON=4, DirProp_S=5, DirProp_B=6 }; /* reduced dirProp */
-
-#define IMPTABLEVELS_COLUMNS (DirProp_B + 2)
-typedef const uint8_t ImpTab[][IMPTABLEVELS_COLUMNS];
-typedef const uint8_t (*PImpTab)[IMPTABLEVELS_COLUMNS];
-
-typedef const uint8_t ImpAct[];
-typedef const uint8_t *PImpAct;
-
-struct LevState {
-    PImpTab pImpTab;                    /* level table pointer          */
-    PImpAct pImpAct;                    /* action map array             */
-    int32_t startON;                    /* start of ON sequence         */
-    int32_t state;                      /* current state                */
-    int32_t runStart;                   /* start position of the run    */
-    nsBidiLevel runLevel;               /* run level before implicit solving */
-};
-
-/**
- * This class holds information about a paragraph of text
- * with Bidi-algorithm-related details, or about one line of
- * such a paragraph.<p>
- * Reordering can be done on a line, or on a paragraph which is
- * then interpreted as one single line.<p>
- *
- * On construction, the class is initially empty. It is assigned
- * the Bidi properties of a paragraph by <code>SetPara</code>
- * or the Bidi properties of a line of a paragraph by
- * <code>SetLine</code>.<p>
- * A Bidi class can be reused for as long as it is not deallocated
- * by calling its destructor.<p>
- * <code>SetPara</code> will allocate additional memory for
- * internal structures as necessary.
- */
-class nsBidi
-{
-public:
-  /** @brief Default constructor.
-   *
-   * The nsBidi object is initially empty. It is assigned
-   * the Bidi properties of a paragraph by <code>SetPara()</code>
-   * or the Bidi properties of a line of a paragraph by
-   * <code>GetLine()</code>.<p>
-   * This object can be reused for as long as it is not destroyed.<p>
-   * <code>SetPara()</code> will allocate additional memory for
-   * internal structures as necessary.
-   *
-   */
-  nsBidi();
-
-  /** @brief Destructor. */
-  virtual ~nsBidi();
-
-
-  /**
-   * Perform the Unicode Bidi algorithm. It is defined in the
-   * <a href="http://www.unicode.org/unicode/reports/tr9/">Unicode Technical Report 9</a>,
-   * version 5,
-   * also described in The Unicode Standard, Version 3.0 .<p>
-   *
-   * This function takes a single plain text paragraph with or without
-   * externally specified embedding levels from <quote>styled</quote> text
-   * and computes the left-right-directionality of each character.<p>
-   *
-   * If the entire paragraph consists of text of only one direction, then
-   * the function 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.<br>
-   * 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.<p>
-   *
-   * The text must be externally split into separate paragraphs (rule P1).
-   * Paragraph separators (B) should appear at most at the very end.
-   *
-   * @param aText is a pointer to the single-paragraph text that the
-   *      Bidi algorithm will be performed on
-   *      (step (P1) of the algorithm is performed externally).
-   *      <strong>The text must be (at least) <code>aLength</code> long.</strong>
-   *
-   * @param aLength is the length of the text; if <code>aLength==-1</code> then
-   *      the text must be zero-terminated.
-   *
-   * @param aParaLevel specifies the default level for the paragraph;
-   *      it is typically 0 (LTR) or 1 (RTL).
-   *      If the function shall determine the paragraph level from the text,
-   *      then <code>aParaLevel</code> can be set to
-   *      either <code>NSBIDI_DEFAULT_LTR</code>
-   *      or <code>NSBIDI_DEFAULT_RTL</code>;
-   *      if there is no strongly typed character, then
-   *      the desired default is used (0 for LTR or 1 for RTL).
-   *      Any other value between 0 and <code>NSBIDI_MAX_EXPLICIT_LEVEL</code> is also valid,
-   *      with odd levels indicating RTL.
-   */
-  nsresult SetPara(const char16_t *aText, int32_t aLength, nsBidiLevel aParaLevel);
-
-  /**
-   * Get the directionality of the text.
-   *
-   * @param aDirection receives a <code>NSBIDI_XXX</code> value that indicates if the entire text
-   *       represented by this object is unidirectional,
-   *       and which direction, or if it is mixed-directional.
-   *
-   * @see nsBidiDirection
-   */
-  nsresult GetDirection(nsBidiDirection* aDirection);
-
-  /**
-   * Get the paragraph level of the text.
-   *
-   * @param aParaLevel receives a <code>NSBIDI_XXX</code> value indicating the paragraph level
-   *
-   * @see nsBidiLevel
-   */
-  nsresult GetParaLevel(nsBidiLevel* aParaLevel);
-
-  /**
-   * Get a logical run.
-   * This function returns information about a run and is used
-   * to retrieve runs in logical order.<p>
-   * This is especially useful for line-breaking on a paragraph.
-   *
-   * @param aLogicalStart is the first character of the run.
-   *
-   * @param aLogicalLimit will receive the limit of the run.
-   *      The l-value that you point to here may be the
-   *      same expression (variable) as the one for
-   *      <code>aLogicalStart</code>.
-   *      This pointer can be <code>nullptr</code> if this
-   *      value is not necessary.
-   *
-   * @param aLevel will receive the level of the run.
-   *      This pointer can be <code>nullptr</code> if this
-   *      value is not necessary.
-   */
-  nsresult GetLogicalRun(int32_t aLogicalStart, int32_t* aLogicalLimit, nsBidiLevel* aLevel);
-
-  /**
-   * Get the number of runs.
-   * This function may invoke the actual reordering on the
-   * <code>nsBidi</code> object, after <code>SetPara</code>
-   * may have resolved only the levels of the text. Therefore,
-   * <code>CountRuns</code> may have to allocate memory,
-   * and may fail doing so.
-   *
-   * @param aRunCount will receive the number of runs.
-   */
-  nsresult CountRuns(int32_t* aRunCount);
-
-  /**
-   * Get one run's logical start, length, and directionality,
-   * which can be 0 for LTR or 1 for RTL.
-   * 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.<p>
-   * <code>CountRuns</code> should be called
-   * before the runs are retrieved.
-   *
-   * @param aRunIndex is the number of the run in visual order, in the
-   *      range <code>[0..CountRuns-1]</code>.
-   *
-   * @param aLogicalStart is the first logical character index in the text.
-   *      The pointer may be <code>nullptr</code> if this index is not needed.
-   *
-   * @param aLength is the number of characters (at least one) in the run.
-   *      The pointer may be <code>nullptr</code> if this is not needed.
-   *
-   * @param aDirection will receive the directionality of the run,
-   *       <code>NSBIDI_LTR==0</code> or <code>NSBIDI_RTL==1</code>,
-   *       never <code>NSBIDI_MIXED</code>.
-   *
-   * @see CountRuns<p>
-   *
-   * Example:
-   * @code
-   *  int32_t i, count, logicalStart, visualIndex=0, length;
-   *  nsBidiDirection dir;
-   *  pBidi->CountRuns(&count);
-   *  for(i=0; i<count; ++i) {
-   *    pBidi->GetVisualRun(i, &logicalStart, &length, &dir);
-   *    if(NSBIDI_LTR==dir) {
-   *      do { // LTR
-   *        show_char(text[logicalStart++], visualIndex++);
-   *      } while(--length>0);
-   *    } else {
-   *      logicalStart+=length;  // logicalLimit
-   *      do { // RTL
-   *        show_char(text[--logicalStart], visualIndex++);
-   *      } while(--length>0);
-   *    }
-   *  }
-   * @endcode
-   *
-   * Note that in right-to-left runs, code like this places
-   * modifier letters before base characters and second surrogates
-   * before first ones.
-   */
-  nsresult GetVisualRun(int32_t aRunIndex, int32_t* aLogicalStart, int32_t* aLength, nsBidiDirection* aDirection);
-
-  /**
-   * This is a convenience function that does not use a nsBidi 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 <code>GetVisualMap</code> on a
-   * <code>nsBidi</code> object.
-   *
-   * @param aLevels is an array with <code>aLength</code> levels that have been determined by
-   *      the application.
-   *
-   * @param aLength is the number of levels in the array, or, semantically,
-   *      the number of objects to be reordered.
-   *      It must be <code>aLength>0</code>.
-   *
-   * @param aIndexMap is a pointer to an array of <code>aLength</code>
-   *      indexes which will reflect the reordering of the characters.
-   *      The array does not need to be initialized.<p>
-   *      The index map will result in <code>aIndexMap[aVisualIndex]==aLogicalIndex</code>.
-   */
-  static nsresult ReorderVisual(const nsBidiLevel *aLevels, int32_t aLength, int32_t *aIndexMap);
-
-  /**
-   * Reverse a Right-To-Left run of Unicode text.
-   *
-   * This function preserves the integrity of characters with multiple
-   * code units and (optionally) modifier letters.
-   * 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; see the description of the <code>aDestSize</code>
-   * and <code>aOptions</code> parameters and of the option bit flags.
-   *
-   * Since no Bidi controls are inserted here, this function will never
-   * write more than <code>aSrcLength</code> characters to <code>aDest</code>.
-   *
-   * @param aSrc A pointer to the RTL run text.
-   *
-   * @param aSrcLength The length of the RTL run.
-   *                 If the <code>NSBIDI_REMOVE_BIDI_CONTROLS</code> option
-   *                 is set, then the destination length may be less than
-   *                 <code>aSrcLength</code>.
-   *                 If this option is not set, then the destination length
-   *                 will be exactly <code>aSrcLength</code>.
-   *
-   * @param aDest A pointer to where the reordered text is to be copied.
-   *             <code>aSrc[aSrcLength]</code> and <code>aDest[aSrcLength]</code>
-   *             must not overlap.
-   *
-   * @param aOptions A bit set of options for the reordering that control
-   *                how the reordered text is written.
-   *
-   * @param aDestSize will receive the number of characters that were written to <code>aDest</code>.
-   */
-  nsresult WriteReverse(const char16_t *aSrc, int32_t aSrcLength, char16_t *aDest, uint16_t aOptions, int32_t *aDestSize);
-
-protected:
-  friend class nsBidiPresUtils;
-
-  class BracketData {
-  public:
-    explicit BracketData(const nsBidi* aBidi);
-    ~BracketData();
-
-    void ProcessBoundary(int32_t aLastDirControlCharPos,
-                         nsBidiLevel aContextLevel,
-                         nsBidiLevel aEmbeddingLevel,
-                         const DirProp* aDirProps);
-    void ProcessLRI_RLI(nsBidiLevel aLevel);
-    void ProcessPDI();
-    bool AddOpening(char16_t aMatch, int32_t aPosition);
-    void FixN0c(int32_t aOpeningIndex, int32_t aNewPropPosition,
-                DirProp aNewProp, DirProp* aDirProps);
-    DirProp ProcessClosing(int32_t aOpenIdx, int32_t aPosition,
-                           DirProp* aDirProps);
-    bool ProcessChar(int32_t aPosition, char16_t aCh, DirProp* aDirProps,
-                     nsBidiLevel* aLevels);
-
-  private:
-    // array of opening entries which should be enough in most cases;
-    // no malloc() needed
-    Opening  mSimpleOpenings[SIMPLE_OPENINGS_COUNT];
-    Opening* mOpenings;      // pointer to current array of entries,
-                             // either mSimpleOpenings or malloced array
-
-    Opening* mOpeningsMemory;
-    size_t   mOpeningsSize;
-
-    // array of nested isolated sequence entries; can never exceed
-    // UBIDI_MAX_EXPLICIT_LEVEL
-    //   + 1 for index 0
-    //   + 1 for before the first isolated sequence
-    IsoRun  mIsoRuns[NSBIDI_MAX_EXPLICIT_LEVEL+2];
-    int32_t mIsoRunLast;     // index of last used entry in mIsoRuns
-
-    int32_t mOpeningsCount;  // number of allocated entries in mOpenings
-  };
-
-  /** length of the current text */
-  int32_t mLength;
-
-  /** memory sizes in bytes */
-  size_t mDirPropsSize, mLevelsSize, mRunsSize;
-  size_t mIsolatesSize;
-
-  /** allocated memory */
-  DirProp* mDirPropsMemory;
-  nsBidiLevel* mLevelsMemory;
-  Run* mRunsMemory;
-  Isolate* mIsolatesMemory;
-
-  DirProp* mDirProps;
-  nsBidiLevel* mLevels;
-
-  /** the paragraph level */
-  nsBidiLevel mParaLevel;
-
-  /** flags is a bit set for which directional properties are in the text */
-  Flags mFlags;
-
-  /** the overall paragraph or line directionality - see nsBidiDirection */
-  nsBidiDirection mDirection;
-
-  /** characters after trailingWSStart are WS and are */
-  /* implicitly at the paraLevel (rule (L1)) - levels may not reflect that */
-  int32_t mTrailingWSStart;
-
-  /** fields for line reordering */
-  int32_t mRunCount;     /* ==-1: runs not set up yet */
-  Run* mRuns;
-
-  /** for non-mixed text, we only need a tiny array of runs (no malloc()) */
-  Run mSimpleRuns[1];
-
-  /* maxium of current nesting depth of isolate sequences */
-  /* Within ResolveExplicitLevels() and checkExpicitLevels(), this is the maximal
-     nesting encountered.
-     Within ResolveImplicitLevels(), this is the index of the current isolates
-     stack entry. */
-  int32_t mIsolateCount;
-  Isolate* mIsolates;
-
-  /** for simple text, have a small stack (no malloc()) */
-  Isolate mSimpleIsolates[SIMPLE_ISOLATES_SIZE];
-
-private:
-
-  void Init();
-
-  static bool GetMemory(void **aMemory, size_t* aSize, size_t aSizeNeeded);
-
-  void Free();
-
-  void GetDirProps(const char16_t *aText);
-
-  void ResolveExplicitLevels(nsBidiDirection *aDirection, const char16_t *aText);
-
-  nsBidiDirection DirectionFromFlags(Flags aFlags);
-
-  void ProcessPropertySeq(LevState *pLevState, uint8_t _prop, int32_t start, int32_t limit);
-
-  void ResolveImplicitLevels(int32_t aStart, int32_t aLimit, DirProp aSOR, DirProp aEOR);
-
-  void AdjustWSLevels();
-
-  void SetTrailingWSStart();
-
-  bool GetRuns();
-
-  void GetSingleRun(nsBidiLevel aLevel);
-
-  void ReorderLine(nsBidiLevel aMinLevel, nsBidiLevel aMaxLevel);
-
-  static bool PrepareReorder(const nsBidiLevel *aLevels, int32_t aLength, int32_t *aIndexMap, nsBidiLevel *aMinLevel, nsBidiLevel *aMaxLevel);
-};
-
-#endif // _nsBidi_noICU_h_