sdk/sources/android-25/android/text/AndroidBidi.java - android_tools - Git at Google

 /*
  * Copyright (C) 2010 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.text;

 import android.text.Layout.Directions;

 /**
  * Access the ICU bidi implementation.
  * @hide
  */
 /* package */ class AndroidBidi {

     public static int bidi(int dir, char[] chs, byte[] chInfo, int n, boolean haveInfo) {
         if (chs == null || chInfo == null) {
             throw new NullPointerException();
         }

         if (n < 0 || chs.length < n || chInfo.length < n) {
             throw new IndexOutOfBoundsException();
         }

         switch(dir) {
             case Layout.DIR_REQUEST_LTR: dir = 0; break;
             case Layout.DIR_REQUEST_RTL: dir = 1; break;
             case Layout.DIR_REQUEST_DEFAULT_LTR: dir = -2; break;
             case Layout.DIR_REQUEST_DEFAULT_RTL: dir = -1; break;
             default: dir = 0; break;
         }

         int result = runBidi(dir, chs, chInfo, n, haveInfo);
         result = (result & 0x1) == 0 ? Layout.DIR_LEFT_TO_RIGHT : Layout.DIR_RIGHT_TO_LEFT;
         return result;
     }

     /**
      * Returns run direction information for a line within a paragraph.
      *
      * @param dir base line direction, either Layout.DIR_LEFT_TO_RIGHT or
      *     Layout.DIR_RIGHT_TO_LEFT
      * @param levels levels as returned from {@link #bidi}
      * @param lstart start of the line in the levels array
      * @param chars the character array (used to determine whitespace)
      * @param cstart the start of the line in the chars array
      * @param len the length of the line
      * @return the directions
      */
     public static Directions directions(int dir, byte[] levels, int lstart,
             char[] chars, int cstart, int len) {
         if (len == 0) {
             return Layout.DIRS_ALL_LEFT_TO_RIGHT;
         }

         int baseLevel = dir == Layout.DIR_LEFT_TO_RIGHT ? 0 : 1;
         int curLevel = levels[lstart];
         int minLevel = curLevel;
         int runCount = 1;
         for (int i = lstart + 1, e = lstart + len; i < e; ++i) {
             int level = levels[i];
             if (level != curLevel) {
                 curLevel = level;
                 ++runCount;
             }
         }

         // add final run for trailing counter-directional whitespace
         int visLen = len;
         if ((curLevel & 1) != (baseLevel & 1)) {
             // look for visible end
             while (--visLen >= 0) {
                 char ch = chars[cstart + visLen];

                 if (ch == '\n') {
                     --visLen;
                     break;
                 }

                 if (ch != ' ' && ch != '\t') {
                     break;
                 }
             }
             ++visLen;
             if (visLen != len) {
                 ++runCount;
             }
         }

         if (runCount == 1 && minLevel == baseLevel) {
             // we're done, only one run on this line
             if ((minLevel & 1) != 0) {
                 return Layout.DIRS_ALL_RIGHT_TO_LEFT;
             }
             return Layout.DIRS_ALL_LEFT_TO_RIGHT;
         }

         int[] ld = new int[runCount * 2];
         int maxLevel = minLevel;
         int levelBits = minLevel << Layout.RUN_LEVEL_SHIFT;
         {
             // Start of first pair is always 0, we write
             // length then start at each new run, and the
             // last run length after we're done.
             int n = 1;
             int prev = lstart;
             curLevel = minLevel;
             for (int i = lstart, e = lstart + visLen; i < e; ++i) {
                 int level = levels[i];
                 if (level != curLevel) {
                     curLevel = level;
                     if (level > maxLevel) {
                         maxLevel = level;
                     } else if (level < minLevel) {
                         minLevel = level;
                     }
                     // XXX ignore run length limit of 2^RUN_LEVEL_SHIFT
                     ld[n++] = (i - prev) | levelBits;
                     ld[n++] = i - lstart;
                     levelBits = curLevel << Layout.RUN_LEVEL_SHIFT;
                     prev = i;
                 }
             }
             ld[n] = (lstart + visLen - prev) | levelBits;
             if (visLen < len) {
                 ld[++n] = visLen;
                 ld[++n] = (len - visLen) | (baseLevel << Layout.RUN_LEVEL_SHIFT);
             }
         }

         // See if we need to swap any runs.
         // If the min level run direction doesn't match the base
         // direction, we always need to swap (at this point
         // we have more than one run).
         // Otherwise, we don't need to swap the lowest level.
         // Since there are no logically adjacent runs at the same
         // level, if the max level is the same as the (new) min
         // level, we have a series of alternating levels that
         // is already in order, so there's no more to do.
         //
         boolean swap;
         if ((minLevel & 1) == baseLevel) {
             minLevel += 1;
             swap = maxLevel > minLevel;
         } else {
             swap = runCount > 1;
         }
         if (swap) {
             for (int level = maxLevel - 1; level >= minLevel; --level) {
                 for (int i = 0; i < ld.length; i += 2) {
                     if (levels[ld[i]] >= level) {
                         int e = i + 2;
                         while (e < ld.length && levels[ld[e]] >= level) {
                             e += 2;
                         }
                         for (int low = i, hi = e - 2; low < hi; low += 2, hi -= 2) {
                             int x = ld[low]; ld[low] = ld[hi]; ld[hi] = x;
                             x = ld[low+1]; ld[low+1] = ld[hi+1]; ld[hi+1] = x;
                         }
                         i = e + 2;
                     }
                 }
             }
         }
         return new Directions(ld);
     }

     private native static int runBidi(int dir, char[] chs, byte[] chInfo, int n, boolean haveInfo);
 }
	/*
	* Copyright (C) 2010 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.text;

	import android.text.Layout.Directions;

	/**
	* Access the ICU bidi implementation.
	* @hide
	*/
	/* package */ class AndroidBidi {

	public static int bidi(int dir, char[] chs, byte[] chInfo, int n, boolean haveInfo) {
	if (chs == null \|\| chInfo == null) {
	throw new NullPointerException();
	}

	if (n < 0 \|\| chs.length < n \|\| chInfo.length < n) {
	throw new IndexOutOfBoundsException();
	}

	switch(dir) {
	case Layout.DIR_REQUEST_LTR: dir = 0; break;
	case Layout.DIR_REQUEST_RTL: dir = 1; break;
	case Layout.DIR_REQUEST_DEFAULT_LTR: dir = -2; break;
	case Layout.DIR_REQUEST_DEFAULT_RTL: dir = -1; break;
	default: dir = 0; break;
	}

	int result = runBidi(dir, chs, chInfo, n, haveInfo);
	result = (result & 0x1) == 0 ? Layout.DIR_LEFT_TO_RIGHT : Layout.DIR_RIGHT_TO_LEFT;
	return result;
	}

	/**
	* Returns run direction information for a line within a paragraph.
	*
	* @param dir base line direction, either Layout.DIR_LEFT_TO_RIGHT or
	* Layout.DIR_RIGHT_TO_LEFT
	* @param levels levels as returned from {@link #bidi}
	* @param lstart start of the line in the levels array
	* @param chars the character array (used to determine whitespace)
	* @param cstart the start of the line in the chars array
	* @param len the length of the line
	* @return the directions
	*/
	public static Directions directions(int dir, byte[] levels, int lstart,
	char[] chars, int cstart, int len) {
	if (len == 0) {
	return Layout.DIRS_ALL_LEFT_TO_RIGHT;
	}

	int baseLevel = dir == Layout.DIR_LEFT_TO_RIGHT ? 0 : 1;
	int curLevel = levels[lstart];
	int minLevel = curLevel;
	int runCount = 1;
	for (int i = lstart + 1, e = lstart + len; i < e; ++i) {
	int level = levels[i];
	if (level != curLevel) {
	curLevel = level;
	++runCount;
	}
	}

	// add final run for trailing counter-directional whitespace
	int visLen = len;
	if ((curLevel & 1) != (baseLevel & 1)) {
	// look for visible end
	while (--visLen >= 0) {
	char ch = chars[cstart + visLen];

	if (ch == '\n') {
	--visLen;
	break;
	}

	if (ch != ' ' && ch != '\t') {
	break;
	}
	}
	++visLen;
	if (visLen != len) {
	++runCount;
	}
	}

	if (runCount == 1 && minLevel == baseLevel) {
	// we're done, only one run on this line
	if ((minLevel & 1) != 0) {
	return Layout.DIRS_ALL_RIGHT_TO_LEFT;
	}
	return Layout.DIRS_ALL_LEFT_TO_RIGHT;
	}

	int[] ld = new int[runCount * 2];
	int maxLevel = minLevel;
	int levelBits = minLevel << Layout.RUN_LEVEL_SHIFT;
	{
	// Start of first pair is always 0, we write
	// length then start at each new run, and the
	// last run length after we're done.
	int n = 1;
	int prev = lstart;
	curLevel = minLevel;
	for (int i = lstart, e = lstart + visLen; i < e; ++i) {
	int level = levels[i];
	if (level != curLevel) {
	curLevel = level;
	if (level > maxLevel) {
	maxLevel = level;
	} else if (level < minLevel) {
	minLevel = level;
	}
	// XXX ignore run length limit of 2^RUN_LEVEL_SHIFT
	ld[n++] = (i - prev) \| levelBits;
	ld[n++] = i - lstart;
	levelBits = curLevel << Layout.RUN_LEVEL_SHIFT;
	prev = i;
	}
	}
	ld[n] = (lstart + visLen - prev) \| levelBits;
	if (visLen < len) {
	ld[++n] = visLen;
	ld[++n] = (len - visLen) \| (baseLevel << Layout.RUN_LEVEL_SHIFT);
	}
	}

	// See if we need to swap any runs.
	// If the min level run direction doesn't match the base
	// direction, we always need to swap (at this point
	// we have more than one run).
	// Otherwise, we don't need to swap the lowest level.
	// Since there are no logically adjacent runs at the same
	// level, if the max level is the same as the (new) min
	// level, we have a series of alternating levels that
	// is already in order, so there's no more to do.
	//
	boolean swap;
	if ((minLevel & 1) == baseLevel) {
	minLevel += 1;
	swap = maxLevel > minLevel;
	} else {
	swap = runCount > 1;
	}
	if (swap) {
	for (int level = maxLevel - 1; level >= minLevel; --level) {
	for (int i = 0; i < ld.length; i += 2) {
	if (levels[ld[i]] >= level) {
	int e = i + 2;
	while (e < ld.length && levels[ld[e]] >= level) {
	e += 2;
	}
	for (int low = i, hi = e - 2; low < hi; low += 2, hi -= 2) {
	int x = ld[low]; ld[low] = ld[hi]; ld[hi] = x;
	x = ld[low+1]; ld[low+1] = ld[hi+1]; ld[hi+1] = x;
	}
	i = e + 2;
	}
	}
	}
	}
	return new Directions(ld);
	}

	private native static int runBidi(int dir, char[] chs, byte[] chInfo, int n, boolean haveInfo);
	}