package com.tibco.as.spacebar.ui;
public class StringUtils {
/***
*
* unescape_perl_string()
*
* Tom Christiansen <tchrist@perl.com> Sun Nov 28 12:55:24 MST 2010
*
* It's completely ridiculous that there's no standard unescape_java_string
* function. Since I have to do the damn thing myself, I might as well make
* it halfway useful by supporting things Java was too stupid to consider in
* strings:
*
* => "?" items are additions to Java string escapes but normal in Java
* regexes
*
* => "!" items are also additions to Java regex escapes
*
* Standard singletons: ?\a ?\e \f \n \r \t
*
* NB: \b is unsupported as backspace so it can pass-through to the regex
* translator untouched; I refuse to make anyone doublebackslash it as
* doublebackslashing is a Java idiocy I desperately wish would die out.
* There are plenty of other ways to write it:
*
* \cH, \12, \012, \x08 \x{8}, \u0008, \U00000008
*
* Octal escapes: \0 \0N \0NN \N \NN \NNN Can range up to !\777 not \377
*
* TODO: add !\o{NNNNN} last Unicode is 4177777 maxint is 37777777777
*
* Control chars: ?\cX Means: ord(X) ^ ord('@')
*
* Old hex escapes: \xXX unbraced must be 2 xdigits
*
* Perl hex escapes: !\x{XXX} braced may be 1-8 xdigits NB: proper Unicode
* never needs more than 6, as highest valid codepoint is 0x10FFFF, not
* maxint 0xFFFFFFFF
*
* Lame Java escape: \[IDIOT JAVA PREPROCESSOR]uXXXX must be exactly 4
* xdigits;
*
* I can't write XXXX in this comment where it belongs because the damned
* Java Preprocessor can't mind its own business. Idiots!
*
* Lame Python escape: !\UXXXXXXXX must be exactly 8 xdigits
*
* TODO: Perl translation escapes: \Q \U \L \E \[IDIOT JAVA PREPROCESSOR]u
* \l These are not so important to cover if you're passing the result to
* Pattern.compile(), since it handles them for you further downstream. Hm,
* what about \[IDIOT JAVA PREPROCESSOR]u?
*/
public final static String unescape(String oldstr) {
/*
* In contrast to fixing Java's broken regex charclasses, this one need
* be no bigger, as unescaping shrinks the string here, where in the
* other one, it grows it.
*/
StringBuffer newstr = new StringBuffer(oldstr.length());
boolean saw_backslash = false;
for (int i = 0; i < oldstr.length(); i++) {
int cp = oldstr.codePointAt(i);
if (oldstr.codePointAt(i) > Character.MAX_VALUE) {
i++;
/**** WE HATES UTF-16! WE HATES IT FOREVERSES!!! ****/
}
if (!saw_backslash) {
if (cp == '\\') {
saw_backslash = true;
} else {
newstr.append(Character.toChars(cp));
}
continue; /* switch */
}
if (cp == '\\') {
saw_backslash = false;
newstr.append('\\');
newstr.append('\\');
continue; /* switch */
}
switch (cp) {
case 'r':
newstr.append('\r');
break; /* switch */
case 'n':
newstr.append('\n');
break; /* switch */
case 'f':
newstr.append('\f');
break; /* switch */
/* PASS a \b THROUGH!! */
case 'b':
newstr.append("\\b");
break; /* switch */
case 't':
newstr.append('\t');
break; /* switch */
case 'a':
newstr.append('\007');
break; /* switch */
case 'e':
newstr.append('\033');
break; /* switch */
/*
* A "control" character is what you get when you xor its codepoint
* with '@'==64. This only makes sense for ASCII, and may not yield
* a "control" character after all.
*
* Strange but true: "\c{" is ";", "\c}" is "=", etc.
*/
case 'c': {
if (++i == oldstr.length()) {
die("trailing \\c");
}
cp = oldstr.codePointAt(i);
/*
* don't need to grok surrogates, as next line blows them up
*/
if (cp > 0x7f) {
die("expected ASCII after \\c");
}
newstr.append(Character.toChars(cp ^ 64));
break; /* switch */
}
case '8':
case '9':
die("illegal octal digit");
/* NOTREACHED */
/*
* may be 0 to 2 octal digits following this one so back up one
* for fallthrough to next case; unread this digit and fall
* through to next case.
*/
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
--i;
/* FALLTHROUGH */
/*
* Can have 0, 1, or 2 octal digits following a 0 this permits
* larger values than octal 377, up to octal 777.
*/
case '0': {
if (i + 1 == oldstr.length()) {
/* found \0 at end of string */
newstr.append(Character.toChars(0));
break; /* switch */
}
i++;
int digits = 0;
int j;
for (j = 0; j <= 2; j++) {
if (i + j == oldstr.length()) {
break; /* for */
}
/* safe because will unread surrogate */
int ch = oldstr.charAt(i + j);
if (ch < '0' || ch > '7') {
break; /* for */
}
digits++;
}
if (digits == 0) {
--i;
newstr.append('\0');
break; /* switch */
}
int value = 0;
try {
value = Integer
.parseInt(oldstr.substring(i, i + digits), 8);
} catch (NumberFormatException nfe) {
die("invalid octal value for \\0 escape");
}
newstr.append(Character.toChars(value));
i += digits - 1;
break; /* switch */
} /* end case '0' */
case 'x': {
if (i + 2 > oldstr.length()) {
die("string too short for \\x escape");
}
i++;
boolean saw_brace = false;
if (oldstr.charAt(i) == '{') {
/* ^^^^^^ ok to ignore surrogates here */
i++;
saw_brace = true;
}
int j;
for (j = 0; j < 8; j++) {
if (!saw_brace && j == 2) {
break; /* for */
}
/*
* ASCII test also catches surrogates
*/
int ch = oldstr.charAt(i + j);
if (ch > 127) {
die("illegal non-ASCII hex digit in \\x escape");
}
if (saw_brace && ch == '}') {
break; /* for */
}
if (!((ch >= '0' && ch <= '9') || (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F'))) {
die(String.format("illegal hex digit #%d '%c' in \\x",
ch, ch));
}
}
if (j == 0) {
die("empty braces in \\x{} escape");
}
int value = 0;
try {
value = Integer.parseInt(oldstr.substring(i, i + j), 16);
} catch (NumberFormatException nfe) {
die("invalid hex value for \\x escape");
}
newstr.append(Character.toChars(value));
if (saw_brace) {
j++;
}
i += j - 1;
break; /* switch */
}
case 'u': {
if (i + 4 > oldstr.length()) {
die("string too short for \\u escape");
}
i++;
int j;
for (j = 0; j < 4; j++) {
/* this also handles the surrogate issue */
if (oldstr.charAt(i + j) > 127) {
die("illegal non-ASCII hex digit in \\u escape");
}
}
int value = 0;
try {
value = Integer.parseInt(oldstr.substring(i, i + j), 16);
} catch (NumberFormatException nfe) {
die("invalid hex value for \\u escape");
}
newstr.append(Character.toChars(value));
i += j - 1;
break; /* switch */
}
case 'U': {
if (i + 8 > oldstr.length()) {
die("string too short for \\U escape");
}
i++;
int j;
for (j = 0; j < 8; j++) {
/* this also handles the surrogate issue */
if (oldstr.charAt(i + j) > 127) {
die("illegal non-ASCII hex digit in \\U escape");
}
}
int value = 0;
try {
value = Integer.parseInt(oldstr.substring(i, i + j), 16);
} catch (NumberFormatException nfe) {
die("invalid hex value for \\U escape");
}
newstr.append(Character.toChars(value));
i += j - 1;
break; /* switch */
}
default:
newstr.append('\\');
newstr.append(Character.toChars(cp));
/*
* say(String.format(
* "DEFAULT unrecognized escape %c passed through", cp));
*/
break; /* switch */
}
saw_backslash = false;
}
/* weird to leave one at the end */
if (saw_backslash) {
newstr.append('\\');
}
return newstr.toString();
}
/**
* Return a string "U+XX.XXX.XXXX" etc, where each XX set is the xdigits of
* the logical Unicode code point. No bloody brain-damaged UTF-16 surrogate
* crap, just true logical characters.
*/
public final static String uniplus(String s) {
if (s.length() == 0) {
return "";
}
/* This is just the minimum; sb will grow as needed. */
StringBuffer sb = new StringBuffer(2 + 3 * s.length());
sb.append("U+");
for (int i = 0; i < s.length(); i++) {
sb.append(String.format("%X", s.codePointAt(i)));
if (s.codePointAt(i) > Character.MAX_VALUE) {
i++;
/**** WE HATES UTF-16! WE HATES IT FOREVERSES!!! ****/
}
if (i + 1 < s.length()) {
sb.append(".");
}
}
return sb.toString();
}
private static final void die(String foa) {
throw new IllegalArgumentException(foa);
}
}