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package javax.xml.bind;

Processes white space normalization.
Since:1.0
/** * Processes white space normalization. * * @since 1.0 */
abstract class WhiteSpaceProcessor { // benchmarking (see test/src/ReplaceTest.java in the CVS Attic) // showed that this code is slower than the current code. // // public static String replace(String text) { // final int len = text.length(); // StringBuffer result = new StringBuffer(len); // // for (int i = 0; i < len; i++) { // char ch = text.charAt(i); // if (isWhiteSpace(ch)) // result.append(' '); // else // result.append(ch); // } // // return result.toString(); // } public static String replace(String text) { return replace( (CharSequence)text ).toString(); }
Since:2.0
/** * @since 2.0 */
public static CharSequence replace(CharSequence text) { int i=text.length()-1; // look for the first whitespace char. while( i>=0 && !isWhiteSpaceExceptSpace(text.charAt(i)) ) i--; if( i<0 ) // no such whitespace. replace(text)==text. return text; // we now know that we need to modify the text. // allocate a char array to do it. StringBuilder buf = new StringBuilder(text); buf.setCharAt(i--,' '); for( ; i>=0; i-- ) if( isWhiteSpaceExceptSpace(buf.charAt(i))) buf.setCharAt(i,' '); return new String(buf); }
Equivalent of String.trim().
Since:2.0
/** * Equivalent of {@link String#trim()}. * @since 2.0 */
public static CharSequence trim(CharSequence text) { int len = text.length(); int start = 0; while( start<len && isWhiteSpace(text.charAt(start)) ) start++; int end = len-1; while( end>start && isWhiteSpace(text.charAt(end)) ) end--; if(start==0 && end==len-1) return text; // no change else return text.subSequence(start,end+1); } public static String collapse(String text) { return collapse( (CharSequence)text ).toString(); }
This is usually the biggest processing bottleneck.
Since:2.0
/** * This is usually the biggest processing bottleneck. * * @since 2.0 */
public static CharSequence collapse(CharSequence text) { int len = text.length(); // most of the texts are already in the collapsed form. // so look for the first whitespace in the hope that we will // never see it. int s=0; while(s<len) { if(isWhiteSpace(text.charAt(s))) break; s++; } if(s==len) // the input happens to be already collapsed. return text; // we now know that the input contains spaces. // let's sit down and do the collapsing normally. StringBuilder result = new StringBuilder(len /*allocate enough size to avoid re-allocation*/ ); if(s!=0) { for( int i=0; i<s; i++ ) result.append(text.charAt(i)); result.append(' '); } boolean inStripMode = true; for (int i = s+1; i < len; i++) { char ch = text.charAt(i); boolean b = isWhiteSpace(ch); if (inStripMode && b) continue; // skip this character inStripMode = b; if (inStripMode) result.append(' '); else result.append(ch); } // remove trailing whitespaces len = result.length(); if (len > 0 && result.charAt(len - 1) == ' ') result.setLength(len - 1); // whitespaces are already collapsed, // so all we have to do is to remove the last one character // if it's a whitespace. return result; }
Returns true if the specified string is all whitespace.
/** * Returns true if the specified string is all whitespace. */
public static final boolean isWhiteSpace(CharSequence s) { for( int i=s.length()-1; i>=0; i-- ) if(!isWhiteSpace(s.charAt(i))) return false; return true; }
returns true if the specified char is a white space character.
/** returns true if the specified char is a white space character. */
public static final boolean isWhiteSpace(char ch) { // most of the characters are non-control characters. // so check that first to quickly return false for most of the cases. if( ch>0x20 ) return false; // other than we have to do four comparisons. return ch == 0x9 || ch == 0xA || ch == 0xD || ch == 0x20; }
Returns true if the specified char is a white space character but not 0x20.
/** * Returns true if the specified char is a white space character * but not 0x20. */
protected static final boolean isWhiteSpaceExceptSpace(char ch) { // most of the characters are non-control characters. // so check that first to quickly return false for most of the cases. if( ch>=0x20 ) return false; // other than we have to do four comparisons. return ch == 0x9 || ch == 0xA || ch == 0xD; } }