/***** BEGIN LICENSE BLOCK *****
* Version: CPL 1.0/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Common Public
* License Version 1.0 (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.eclipse.org/legal/cpl-v10.html
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* Copyright (C) 2001 Alan Moore <alan_moore@gmx.net>
* Copyright (C) 2001-2002 Benoit Cerrina <b.cerrina@wanadoo.fr>
* Copyright (C) 2001-2004 Jan Arne Petersen <jpetersen@uni-bonn.de>
* Copyright (C) 2002-2004 Anders Bengtsson <ndrsbngtssn@yahoo.se>
* Copyright (C) 2004-2005 Thomas E Enebo <enebo@acm.org>
* Copyright (C) 2004 Stefan Matthias Aust <sma@3plus4.de>
* Copyright (C) 2005 David Corbin <dcorbin@users.sourceforge.net>
* Copyright (C) 2006 Nick Sieger <nicksieger@gmail.com>
* Copyright (C) 2006 Miguel Covarrubias <mlcovarrubias@gmail.com>
*
* Alternatively, the contents of this file may be used under the terms of
* either of the GNU General Public License Version 2 or later (the "GPL"),
* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the CPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the CPL, the GPL or the LGPL.
***** END LICENSE BLOCK *****/
package org.jruby;
import static org.jruby.anno.FrameField.BACKREF;
import static org.jruby.anno.FrameField.LASTLINE;
import java.lang.ref.SoftReference;
import java.util.Iterator;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import org.jcodings.Encoding;
import org.jcodings.specific.ASCIIEncoding;
import org.jcodings.specific.USASCIIEncoding;
import org.jcodings.specific.UTF8Encoding;
import org.joni.Matcher;
import org.joni.NameEntry;
import org.joni.Option;
import org.joni.Regex;
import org.joni.Region;
import org.joni.Syntax;
import org.joni.exception.JOniException;
import org.jruby.anno.JRubyClass;
import org.jruby.anno.JRubyMethod;
import org.jruby.common.IRubyWarnings.ID;
import org.jruby.exceptions.RaiseException;
import org.jruby.parser.ReOptions;
import org.jruby.runtime.Arity;
import org.jruby.runtime.Block;
import org.jruby.runtime.ClassIndex;
import org.jruby.runtime.DynamicScope;
import org.jruby.runtime.ObjectAllocator;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.Visibility;
import org.jruby.runtime.builtin.IRubyObject;
import org.jruby.runtime.encoding.EncodingCapable;
import org.jruby.runtime.marshal.MarshalStream;
import org.jruby.runtime.marshal.UnmarshalStream;
import org.jruby.util.ByteList;
import org.jruby.util.KCode;
import org.jruby.util.Pack;
import org.jruby.util.RegexpOptions;
import org.jruby.util.Sprintf;
import org.jruby.util.StringSupport;
import org.jruby.util.TypeConverter;
@JRubyClass(name="Regexp")
public class RubyRegexp extends RubyObject implements ReOptions, EncodingCapable {
private Regex pattern;
private ByteList str = ByteList.EMPTY_BYTELIST;
private RegexpOptions options;
public static final int ARG_ENCODING_FIXED = 16;
public void setLiteral() {
options.setLiteral(true);
}
public void clearLiteral() {
options.setLiteral(false);
}
public boolean isLiteral() {
return options.isLiteral();
}
public boolean isKCodeDefault() {
return options.isKcodeDefault();
}
public void setEncodingNone() {
options.setEncodingNone(true);
}
public void clearEncodingNone() {
options.setEncodingNone(false);
}
public boolean isEncodingNone() {
return options.isEncodingNone();
}
public KCode getKCode() {
return options.getKCode();
}
public Encoding getEncoding() {
return pattern.getEncoding();
}
public void setEncoding(Encoding encoding) {
// FIXME: Which encoding should be changed here?
// FIXME: transcode?
}
private static final class RegexpCache {
private volatile SoftReference<Map<ByteList, Regex>> cache = new SoftReference<Map<ByteList, Regex>>(null);
private Map<ByteList, Regex> get() {
Map<ByteList, Regex> patternCache = cache.get();
if (patternCache == null) {
patternCache = new ConcurrentHashMap<ByteList, Regex>(5);
cache = new SoftReference<Map<ByteList, Regex>>(patternCache);
}
return patternCache;
}
}
private static final RegexpCache patternCache = new RegexpCache();
private static final RegexpCache quotedPatternCache = new RegexpCache();
private static final RegexpCache preprocessedPatternCache = new RegexpCache();
private static Regex makeRegexp(Ruby runtime, ByteList bytes, RegexpOptions options, Encoding enc) {
try {
int p = bytes.getBegin();
return new Regex(bytes.getUnsafeBytes(), p, p + bytes.getRealSize(), options.toJoniOptions(), enc, Syntax.DEFAULT, runtime.getWarnings());
} catch (Exception e) {
if (runtime.is1_9()) {
raiseRegexpError19(runtime, bytes, enc, options, e.getMessage());
} else {
raiseRegexpError(runtime, bytes, enc, options, e.getMessage());
}
return null; // not reached
}
}
static Regex getRegexpFromCache(Ruby runtime, ByteList bytes, Encoding enc, RegexpOptions options) {
Map<ByteList, Regex> cache = patternCache.get();
Regex regex = cache.get(bytes);
if (regex != null && regex.getEncoding() == enc && regex.getOptions() == options.toJoniOptions()) return regex;
regex = makeRegexp(runtime, bytes, options, enc);
cache.put(bytes, regex);
return regex;
}
static Regex getQuotedRegexpFromCache(Ruby runtime, ByteList bytes, Encoding enc, RegexpOptions options) {
Map<ByteList, Regex> cache = quotedPatternCache.get();
Regex regex = cache.get(bytes);
if (regex != null && regex.getEncoding() == enc && regex.getOptions() == options.toJoniOptions()) return regex;
regex = makeRegexp(runtime, quote(bytes, enc), options, enc);
cache.put(bytes, regex);
return regex;
}
static Regex getQuotedRegexpFromCache19(Ruby runtime, ByteList bytes, RegexpOptions options, boolean asciiOnly) {
Map<ByteList, Regex> cache = quotedPatternCache.get();
Regex regex = cache.get(bytes);
Encoding enc = asciiOnly ? USASCIIEncoding.INSTANCE : bytes.getEncoding();
if (regex != null && regex.getEncoding() == enc && regex.getOptions() == options.toJoniOptions()) return regex;
ByteList quoted = quote19(bytes, asciiOnly);
regex = makeRegexp(runtime, quoted, options, quoted.getEncoding());
regex.setUserObject(quoted);
cache.put(bytes, regex);
return regex;
}
private static Regex getPreprocessedRegexpFromCache(Ruby runtime, ByteList bytes, Encoding enc, RegexpOptions options, ErrorMode mode) {
Map<ByteList, Regex> cache = preprocessedPatternCache.get();
Regex regex = cache.get(bytes);
if (regex != null && regex.getEncoding() == enc && regex.getOptions() == options.toJoniOptions()) return regex;
ByteList preprocessed = preprocess(runtime, bytes, enc, new Encoding[]{null}, ErrorMode.RAISE);
regex = makeRegexp(runtime, preprocessed, options, enc);
regex.setUserObject(preprocessed);
cache.put(bytes, regex);
return regex;
}
public static RubyClass createRegexpClass(Ruby runtime) {
RubyClass regexpClass = runtime.defineClass("Regexp", runtime.getObject(), REGEXP_ALLOCATOR);
runtime.setRegexp(regexpClass);
regexpClass.index = ClassIndex.REGEXP;
regexpClass.setReifiedClass(RubyRegexp.class);
regexpClass.kindOf = new RubyModule.KindOf() {
@Override
public boolean isKindOf(IRubyObject obj, RubyModule type) {
return obj instanceof RubyRegexp;
}
};
regexpClass.defineConstant("IGNORECASE", runtime.newFixnum(RE_OPTION_IGNORECASE));
regexpClass.defineConstant("EXTENDED", runtime.newFixnum(RE_OPTION_EXTENDED));
regexpClass.defineConstant("MULTILINE", runtime.newFixnum(RE_OPTION_MULTILINE));
if (runtime.is1_9()) regexpClass.defineConstant("FIXEDENCODING", runtime.newFixnum(ARG_ENCODING_FIXED));
regexpClass.defineAnnotatedMethods(RubyRegexp.class);
return regexpClass;
}
private static ObjectAllocator REGEXP_ALLOCATOR = new ObjectAllocator() {
public IRubyObject allocate(Ruby runtime, RubyClass klass) {
return new RubyRegexp(runtime, klass);
}
};
@Override
public int getNativeTypeIndex() {
return ClassIndex.REGEXP;
}
/** used by allocator
*/
private RubyRegexp(Ruby runtime, RubyClass klass) {
super(runtime, klass);
this.options = new RegexpOptions();
}
/** default constructor
*/
private RubyRegexp(Ruby runtime) {
super(runtime, runtime.getRegexp());
this.options = new RegexpOptions();
}
private RubyRegexp(Ruby runtime, ByteList str) {
this(runtime);
this.str = str;
this.pattern = getRegexpFromCache(runtime, str, getEncoding(runtime, str), RegexpOptions.NULL_OPTIONS);
}
private RubyRegexp(Ruby runtime, ByteList str, RegexpOptions options) {
this(runtime);
if (runtime.is1_9()) {
initializeCommon19(str, str.getEncoding(), options);
} else {
this.options = options;
this.str = str;
this.pattern = getRegexpFromCache(runtime, str, getEncoding(runtime, str), options);
}
}
private Encoding getEncoding(Ruby runtime, ByteList str) {
if (runtime.is1_9()) return str.getEncoding();
// Whatever $KCODE is we should use
if (options.isKcodeDefault()) return runtime.getKCode().getEncoding();
return options.getKCode().getEncoding();
}
// used only by the compiler/interpreter (will set the literal flag)
public static RubyRegexp newRegexp(Ruby runtime, String pattern, RegexpOptions options) {
return newRegexp(runtime, ByteList.create(pattern), options);
}
// used only by the compiler/interpreter (will set the literal flag)
public static RubyRegexp newRegexp(Ruby runtime, ByteList pattern, RegexpOptions options) {
try {
return new RubyRegexp(runtime, pattern, options);
} catch (RaiseException re) {
throw runtime.newSyntaxError(re.getMessage());
}
}
// used only by the compiler/interpreter (will set the literal flag)
public static RubyRegexp newDRegexp(Ruby runtime, RubyString pattern, RegexpOptions options) {
try {
return new RubyRegexp(runtime, pattern.getByteList(), options);
} catch (RaiseException re) {
throw runtime.newRegexpError(re.getMessage());
}
}
// used only by the compiler/interpreter (will set the literal flag)
public static RubyRegexp newDRegexp(Ruby runtime, RubyString pattern, int joniOptions) {
try {
RegexpOptions options = RegexpOptions.fromJoniOptions(joniOptions);
return new RubyRegexp(runtime, pattern.getByteList(), options);
} catch (RaiseException re) {
throw runtime.newRegexpError(re.getMessage());
}
}
// used only by the compiler/interpreter (will set the literal flag)
public static RubyRegexp newDRegexpEmbedded(Ruby runtime, RubyString pattern, int embeddedOptions) {
try {
RegexpOptions options = RegexpOptions.fromEmbeddedOptions(embeddedOptions);
return new RubyRegexp(runtime, pattern.getByteList(), options);
} catch (RaiseException re) {
throw runtime.newRegexpError(re.getMessage());
}
}
public static RubyRegexp newRegexp(Ruby runtime, ByteList pattern) {
return new RubyRegexp(runtime, pattern);
}
static RubyRegexp newRegexp(Ruby runtime, ByteList str, Regex pattern) {
RubyRegexp regexp = new RubyRegexp(runtime);
regexp.str = str;
regexp.options = RegexpOptions.fromJoniOptions(pattern.getOptions());
regexp.pattern = pattern;
return regexp;
}
// internal usage (Complex/Rational)
static RubyRegexp newDummyRegexp(Ruby runtime, Regex regex) {
RubyRegexp regexp = new RubyRegexp(runtime);
regexp.pattern = regex;
regexp.str = ByteList.EMPTY_BYTELIST;
regexp.options.setFixed(true);
return regexp;
}
/** rb_reg_options
*/
private RegexpOptions getOptions() {
check();
return options;
}
final Regex getPattern() {
check();
return pattern;
}
private static void encodingMatchError(Ruby runtime, Regex pattern, Encoding strEnc) {
throw runtime.newEncodingCompatibilityError("incompatible encoding regexp match (" +
pattern.getEncoding() + " regexp with " + strEnc + " string)");
}
private Encoding checkEncoding(RubyString str, boolean warn) {
if (str.scanForCodeRange() == StringSupport.CR_BROKEN) {
// FIXME: This should be here, but various specs fail...we must have a coderange scan bug somewhere
// throw getRuntime().newArgumentError("invalid byte sequence in " + str.getEncoding());
}
check();
Encoding enc = str.getEncoding();
if (!enc.isAsciiCompatible()) {
if (enc != pattern.getEncoding()) encodingMatchError(getRuntime(), pattern, enc);
} else if (options.isFixed()) {
if (enc != pattern.getEncoding() &&
(!pattern.getEncoding().isAsciiCompatible() ||
str.scanForCodeRange() != StringSupport.CR_7BIT)) encodingMatchError(getRuntime(), pattern, enc);
enc = pattern.getEncoding();
}
if (warn && isEncodingNone() && enc != ASCIIEncoding.INSTANCE && str.scanForCodeRange() != StringSupport.CR_7BIT) {
getRuntime().getWarnings().warn(ID.REGEXP_MATCH_AGAINST_STRING, "regexp match /.../n against to " + enc + " string");
}
return enc;
}
final Regex preparePattern(RubyString str) {
check();
Encoding enc = checkEncoding(str, true);
if (enc == pattern.getEncoding()) return pattern;
return getPreprocessedRegexpFromCache(getRuntime(), this.str, enc, options, ErrorMode.PREPROCESS);
}
static Regex preparePattern(Ruby runtime, Regex pattern, RubyString str) {
if (str.scanForCodeRange() == StringSupport.CR_BROKEN) {
throw runtime.newArgumentError("invalid byte sequence in " + str.getEncoding());
}
Encoding enc = str.getEncoding();
if (!enc.isAsciiCompatible()) {
if (enc != pattern.getEncoding()) encodingMatchError(runtime, pattern, enc);
}
// TODO: check for isKCodeDefault() somehow
// if (warn && isEncodingNone() && enc != ASCIIEncoding.INSTANCE && str.scanForCodeRange() != StringSupport.CR_7BIT) {
// getRuntime().getWarnings().warn(ID.REGEXP_MATCH_AGAINST_STRING, "regexp match /.../n against to " + enc + " string");
// }
if (enc == pattern.getEncoding()) return pattern;
return getPreprocessedRegexpFromCache(runtime, (ByteList)pattern.getUserObject(), enc, RegexpOptions.fromJoniOptions(pattern.getOptions()), ErrorMode.PREPROCESS);
}
private static enum ErrorMode {RAISE, PREPROCESS, DESC}
private static int raisePreprocessError(Ruby runtime, ByteList str, String err, ErrorMode mode) {
switch (mode) {
case RAISE:
raiseRegexpError19(runtime, str, str.getEncoding(), RegexpOptions.NULL_OPTIONS, err);
case PREPROCESS:
throw runtime.newArgumentError("regexp preprocess failed: " + err);
case DESC:
// silent ?
}
return 0;
}
private static int readEscapedByte(Ruby runtime, byte[]to, int toP, byte[]bytes, int p, int end, ByteList str, ErrorMode mode) {
if (p == end || bytes[p++] != (byte)'\\') raisePreprocessError(runtime, str, "too short escaped multibyte character", mode);
boolean metaPrefix = false, ctrlPrefix = false;
int code = 0;
while (true) {
if (p == end) raisePreprocessError(runtime, str, "too short escape sequence", mode);
switch (bytes[p++]) {
case '\\': code = '\\'; break;
case 'n': code = '\n'; break;
case 't': code = '\t'; break;
case 'r': code = '\r'; break;
case 'f': code = '\f'; break;
case 'v': code = '\013'; break;
case 'a': code = '\007'; break;
case 'e': code = '\033'; break;
/* \OOO */
case '0': case '1': case '2': case '3':
case '4': case '5': case '6': case '7':
p--;
int olen = end < p + 3 ? end - p : 3;
code = StringSupport.scanOct(bytes, p, olen);
p += StringSupport.octLength(bytes, p, olen);
break;
case 'x': /* \xHH */
int hlen = end < p + 2 ? end - p : 2;
code = StringSupport.scanHex(bytes, p, hlen);
int len = StringSupport.hexLength(bytes, p, hlen);
if (len < 1) raisePreprocessError(runtime, str, "invalid hex escape", mode);
p += len;
break;
case 'M': /* \M-X, \M-\C-X, \M-\cX */
if (metaPrefix) raisePreprocessError(runtime, str, "duplicate meta escape", mode);
metaPrefix = true;
if (p + 1 < end && bytes[p++] == (byte)'-' && (bytes[p] & 0x80) == 0) {
if (bytes[p] == (byte)'\\') {
p++;
continue;
} else {
code = bytes[p++] & 0xff;
break;
}
}
raisePreprocessError(runtime, str, "too short meta escape", mode);
case 'C': /* \C-X, \C-\M-X */
if (p == end || bytes[p++] != (byte)'-') raisePreprocessError(runtime, str, "too short control escape", mode);
case 'c': /* \cX, \c\M-X */
if (ctrlPrefix) raisePreprocessError(runtime, str, "duplicate control escape", mode);
ctrlPrefix = true;
if (p < end && (bytes[p] & 0x80) == 0) {
if (bytes[p] == (byte)'\\') {
p++;
continue;
} else {
code = bytes[p++] & 0xff;
break;
}
}
raisePreprocessError(runtime, str, "too short control escape", mode);
default:
raisePreprocessError(runtime, str, "unexpected escape sequence", mode);
} // switch
if (code < 0 || code > 0xff) raisePreprocessError(runtime, str, "invalid escape code", mode);
if (ctrlPrefix) code &= 0x1f;
if (metaPrefix) code |= 0x80;
to[toP] = (byte)code;
return p;
} // while
}
// MRI: unescape_escapted_nonascii
private static int unescapeEscapedNonAscii(Ruby runtime, ByteList to, byte[]bytes, int p, int end, Encoding enc, Encoding[]encp, ByteList str, ErrorMode mode) {
byte[]chBuf = new byte[enc.maxLength()];
int chLen = 0;
p = readEscapedByte(runtime, chBuf, chLen++, bytes, p, end, str, mode);
while (chLen < enc.maxLength() && StringSupport.preciseLength(enc, chBuf, 0, chLen) < -1) { // MBCLEN_NEEDMORE_P
p = readEscapedByte(runtime, chBuf, chLen++, bytes, p, end, str, mode);
}
int cl = StringSupport.preciseLength(enc, chBuf, 0, chLen);
if (cl == -1) {
raisePreprocessError(runtime, str, "invalid multibyte escape", mode); // MBCLEN_INVALID_P
}
if (chLen > 1 || (chBuf[0] & 0x80) != 0) {
to.append(chBuf, 0, chLen);
if (encp[0] == null) {
encp[0] = enc;
} else if (encp[0] != enc) {
raisePreprocessError(runtime, str, "escaped non ASCII character in UTF-8 regexp", mode);
}
} else {
Sprintf.sprintf(runtime, to, "\\x%02X", chBuf[0] & 0xff);
}
return p;
}
private static void checkUnicodeRange(Ruby runtime, int code, ByteList str, ErrorMode mode) {
// Unicode is can be only 21 bits long, int is enough
if ((0xd800 <= code && code <= 0xdfff) /* Surrogates */ || 0x10ffff < code) {
raisePreprocessError(runtime, str, "invalid Unicode range", mode);
}
}
private static void appendUtf8(Ruby runtime, ByteList to, int code, Encoding[]enc, ByteList str, ErrorMode mode) {
checkUnicodeRange(runtime, code, str, mode);
if (code < 0x80) {
Sprintf.sprintf(runtime, to, "\\x%02X", code);
} else {
to.ensure(to.getRealSize() + 6);
to.setRealSize(to.getRealSize() + Pack.utf8Decode(runtime, to.getUnsafeBytes(), to.getBegin() + to.getRealSize(), code));
if (enc[0] == null) {
enc[0] = UTF8Encoding.INSTANCE;
} else if (!(enc[0] instanceof UTF8Encoding)) { // do not load the class if not used
raisePreprocessError(runtime, str, "UTF-8 character in non UTF-8 regexp", mode);
}
}
}
private static int unescapeUnicodeList(Ruby runtime, ByteList to, byte[]bytes, int p, int end, Encoding[]encp, ByteList str, ErrorMode mode) {
while (p < end && ASCIIEncoding.INSTANCE.isSpace(bytes[p] & 0xff)) p++;
boolean hasUnicode = false;
while (true) {
int code = StringSupport.scanHex(bytes, p, end - p);
int len = StringSupport.hexLength(bytes, p, end - p);
if (len == 0) break;
if (len > 6) raisePreprocessError(runtime, str, "invalid Unicode range", mode);
p += len;
appendUtf8(runtime, to, code, encp, str, mode);
hasUnicode = true;
while (p < end && ASCIIEncoding.INSTANCE.isSpace(bytes[p] & 0xff)) p++;
}
if (!hasUnicode) raisePreprocessError(runtime, str, "invalid Unicode list", mode);
return p;
}
private static int unescapeUnicodeBmp(Ruby runtime, ByteList to, byte[]bytes, int p, int end, Encoding[]encp, ByteList str, ErrorMode mode) {
if (p + 4 > end) raisePreprocessError(runtime, str, "invalid Unicode escape", mode);
int code = StringSupport.scanHex(bytes, p, 4);
int len = StringSupport.hexLength(bytes, p, 4);
if (len != 4) raisePreprocessError(runtime, str, "invalid Unicode escape", mode);
appendUtf8(runtime, to, code, encp, str, mode);
return p + 4;
}
private static boolean unescapeNonAscii(Ruby runtime, ByteList to, byte[]bytes, int p, int end, Encoding enc, Encoding[]encp, ByteList str, ErrorMode mode) {
boolean hasProperty = false;
while (p < end) {
int cl = StringSupport.preciseLength(enc, bytes, p, end);
if (cl <= 0) raisePreprocessError(runtime, str, "invalid multibyte character", mode);
if (cl > 1 || (bytes[p] & 0x80) != 0) {
to.append(bytes, p, cl);
p += cl;
if (encp[0] == null) {
encp[0] = enc;
} else if (encp[0] != enc) {
raisePreprocessError(runtime, str, "non ASCII character in UTF-8 regexp", mode);
}
continue;
}
int c;
switch (c = bytes[p++] & 0xff) {
case '\\':
if (p == end) raisePreprocessError(runtime, str, "too short escape sequence", mode);
switch (c = bytes[p++] & 0xff) {
case '1': case '2': case '3':
case '4': case '5': case '6': case '7': /* \O, \OO, \OOO or backref */
if (StringSupport.scanOct(bytes, p - 1, end - (p - 1)) <= 0177) {
to.append('\\').append(c);
break;
}
case '0': /* \0, \0O, \0OO */
case 'x': /* \xHH */
case 'c': /* \cX, \c\M-X */
case 'C': /* \C-X, \C-\M-X */
case 'M': /* \M-X, \M-\C-X, \M-\cX */
p = unescapeEscapedNonAscii(runtime, to, bytes, p - 2, end, enc, encp, str, mode);
break;
case 'u':
if (p == end) raisePreprocessError(runtime, str, "too short escape sequence", mode);
if (bytes[p] == (byte)'{') { /* \\u{H HH HHH HHHH HHHHH HHHHHH ...} */
p++;
p = unescapeUnicodeList(runtime, to, bytes, p, end, encp, str, mode);
if (p == end || bytes[p++] != (byte)'}') raisePreprocessError(runtime, str, "invalid Unicode list", mode);
} else { /* \\uHHHH */
p = unescapeUnicodeBmp(runtime, to, bytes, p, end, encp, str, mode);
}
break;
case 'p': /* \p{Hiragana} */
if (encp[0] == null) hasProperty = true;
to.append('\\').append(c);
break;
default:
to.append('\\').append(c);
break;
} // inner switch
break;
default:
to.append(c);
} // switch
} // while
return hasProperty;
}
private static ByteList preprocess(Ruby runtime, ByteList str, Encoding enc, Encoding[]fixedEnc, ErrorMode mode) {
ByteList to = new ByteList(str.getRealSize());
if (enc.isAsciiCompatible()) {
fixedEnc[0] = null;
} else {
fixedEnc[0] = enc;
to.setEncoding(enc);
}
boolean hasProperty = unescapeNonAscii(runtime, to, str.getUnsafeBytes(), str.getBegin(), str.getBegin() + str.getRealSize(), enc, fixedEnc, str, mode);
if (hasProperty && fixedEnc[0] == null) fixedEnc[0] = enc;
if (fixedEnc[0] != null) to.setEncoding(fixedEnc[0]);
return to;
}
public static void preprocessCheck(Ruby runtime, ByteList bytes) {
preprocess(runtime, bytes, bytes.getEncoding(), new Encoding[]{null}, ErrorMode.RAISE);
}
private void check() {
if (pattern == null) throw getRuntime().newTypeError("uninitialized Regexp");
}
@JRubyMethod(name = {"new", "compile"}, rest = true, meta = true)
public static RubyRegexp newInstance(IRubyObject recv, IRubyObject[] args) {
RubyClass klass = (RubyClass)recv;
RubyRegexp re = (RubyRegexp) klass.allocate();
re.callInit(args, Block.NULL_BLOCK);
return re;
}
@JRubyMethod(name = "try_convert", meta = true, compat = CompatVersion.RUBY1_9)
public static IRubyObject try_convert(ThreadContext context, IRubyObject recv, IRubyObject args) {
return TypeConverter.convertToTypeWithCheck(args, context.getRuntime().getRegexp(), "to_regexp");
}
/** rb_reg_s_quote
*
*/
@JRubyMethod(name = {"quote", "escape"}, required = 1, optional = 1, meta = true, compat = CompatVersion.RUBY1_8)
public static RubyString quote(ThreadContext context, IRubyObject recv, IRubyObject[] args) {
Ruby runtime = context.getRuntime();
final KCode code;
if (args.length == 1 || args[1].isNil()) {
code = runtime.getKCode();
} else {
code = KCode.create(runtime, args[1].toString());
}
RubyString src = args[0].convertToString();
RubyString dst = RubyString.newStringShared(runtime, quote(src.getByteList(), code.getEncoding()));
dst.infectBy(src);
return dst;
}
@JRubyMethod(name = {"quote", "escape"}, meta = true, compat = CompatVersion.RUBY1_9)
public static IRubyObject quote19(ThreadContext context, IRubyObject recv, IRubyObject arg) {
Ruby runtime = context.getRuntime();
RubyString str = operandCheck(runtime, arg);
return RubyString.newStringShared(runtime, quote19(str.getByteList(), str.isAsciiOnly()));
}
/** rb_reg_quote
*
*/
private static ByteList quote(ByteList bs, Encoding enc) {
int p = bs.getBegin();
int end = p + bs.getRealSize();
byte[]bytes = bs.getUnsafeBytes();
metaFound: do {
for(; p < end; p++) {
int c = bytes[p] & 0xff;
int cl = enc.length(bytes, p, end);
if (cl != 1) {
while (cl-- > 0 && p < end) p++;
p--;
continue;
}
switch (c) {
case '[': case ']': case '{': case '}':
case '(': case ')': case '|': case '-':
case '*': case '.': case '\\':
case '?': case '+': case '^': case '$':
case ' ': case '#':
case '\t': case '\f': case '\n': case '\r':
break metaFound;
}
}
return bs;
} while (false);
ByteList result = new ByteList(end * 2);
byte[]obytes = result.getUnsafeBytes();
int op = p - bs.getBegin();
System.arraycopy(bytes, bs.getBegin(), obytes, 0, op);
for(; p < end; p++) {
int c = bytes[p] & 0xff;
int cl = enc.length(bytes, p, end);
if (cl != 1) {
while (cl-- > 0 && p < end) obytes[op++] = bytes[p++];
p--;
continue;
}
switch (c) {
case '[': case ']': case '{': case '}':
case '(': case ')': case '|': case '-':
case '*': case '.': case '\\':
case '?': case '+': case '^': case '$':
case '#': obytes[op++] = '\\'; break;
case ' ': obytes[op++] = '\\'; obytes[op++] = ' '; continue;
case '\t':obytes[op++] = '\\'; obytes[op++] = 't'; continue;
case '\n':obytes[op++] = '\\'; obytes[op++] = 'n'; continue;
case '\r':obytes[op++] = '\\'; obytes[op++] = 'r'; continue;
case '\f':obytes[op++] = '\\'; obytes[op++] = 'f'; continue;
}
obytes[op++] = (byte)c;
}
result.setRealSize(op);
return result;
}
static ByteList quote19(ByteList bs, boolean asciiOnly) {
int p = bs.getBegin();
int end = p + bs.getRealSize();
byte[]bytes = bs.getUnsafeBytes();
Encoding enc = bs.getEncoding();
metaFound: do {
while (p < end) {
final int c;
final int cl;
if (enc.isAsciiCompatible()) {
cl = 1;
c = bytes[p] & 0xff;
} else {
cl = StringSupport.preciseLength(enc, bytes, p, end);
c = enc.mbcToCode(bytes, p, end);
}
if (!Encoding.isAscii(c)) {
p += StringSupport.length(enc, bytes, p, end);
continue;
}
switch (c) {
case '[': case ']': case '{': case '}':
case '(': case ')': case '|': case '-':
case '*': case '.': case '\\':
case '?': case '+': case '^': case '$':
case ' ': case '#':
case '\t': case '\f': case '\n': case '\r':
break metaFound;
}
p += cl;
}
if (asciiOnly) {
ByteList tmp = bs.shallowDup();
tmp.setEncoding(USASCIIEncoding.INSTANCE);
return tmp;
}
return bs;
} while (false);
ByteList result = new ByteList(end * 2);
result.setEncoding(asciiOnly ? USASCIIEncoding.INSTANCE : bs.getEncoding());
byte[]obytes = result.getUnsafeBytes();
int op = p - bs.getBegin();
System.arraycopy(bytes, bs.getBegin(), obytes, 0, op);
while (p < end) {
final int c;
final int cl;
if (enc.isAsciiCompatible()) {
cl = 1;
c = bytes[p] & 0xff;
} else {
cl = StringSupport.preciseLength(enc, bytes, p, end);
c = enc.mbcToCode(bytes, p, end);
}
if (!Encoding.isAscii(c)) {
int n = StringSupport.length(enc, bytes, p, end);
while (n-- > 0) obytes[op++] = bytes[p++];
continue;
}
p += cl;
switch (c) {
case '[': case ']': case '{': case '}':
case '(': case ')': case '|': case '-':
case '*': case '.': case '\\':
case '?': case '+': case '^': case '$':
case '#':
op += enc.codeToMbc('\\', obytes, op);
break;
case ' ':
op += enc.codeToMbc('\\', obytes, op);
op += enc.codeToMbc(' ', obytes, op);
continue;
case '\t':
op += enc.codeToMbc('\\', obytes, op);
op += enc.codeToMbc('t', obytes, op);
continue;
case '\n':
op += enc.codeToMbc('\\', obytes, op);
op += enc.codeToMbc('n', obytes, op);
continue;
case '\r':
op += enc.codeToMbc('\\', obytes, op);
op += enc.codeToMbc('r', obytes, op);
continue;
case '\f':
op += enc.codeToMbc('\\', obytes, op);
op += enc.codeToMbc('f', obytes, op);
continue;
}
op += enc.codeToMbc(c, obytes, op);
}
result.setRealSize(op);
return result;
}
/**
* Variable arity version for compatibility. Not bound to a Ruby method.
* @deprecated Use the versions with zero, one, or two args.
*/
public static IRubyObject last_match_s(ThreadContext context, IRubyObject recv, IRubyObject[] args) {
switch (args.length) {
case 0:
return last_match_s(context, recv);
case 1:
return last_match_s(context, recv, args[0]);
default:
Arity.raiseArgumentError(context.getRuntime(), args.length, 0, 1);
return null; // not reached
}
}
/** rb_reg_s_last_match / match_getter
*
*/
@JRubyMethod(name = "last_match", meta = true, reads = BACKREF)
public static IRubyObject last_match_s(ThreadContext context, IRubyObject recv) {
IRubyObject match = context.getCurrentScope().getBackRef(context.getRuntime());
if (match instanceof RubyMatchData) ((RubyMatchData)match).use();
return match;
}
/** rb_reg_s_last_match
*
*/
@JRubyMethod(name = "last_match", meta = true, reads = BACKREF)
public static IRubyObject last_match_s(ThreadContext context, IRubyObject recv, IRubyObject nth) {
IRubyObject match = context.getCurrentScope().getBackRef(context.getRuntime());
if (match.isNil()) return match;
return nth_match(((RubyMatchData)match).backrefNumber(nth), match);
}
/** rb_reg_s_union
*
*/
@JRubyMethod(name = "union", rest = true, meta = true, compat = CompatVersion.RUBY1_8)
public static IRubyObject union(ThreadContext context, IRubyObject recv, IRubyObject[] args) {
Ruby runtime = context.getRuntime();
if (args.length == 0) return newRegexp(runtime, ByteList.create("(?!)"));
IRubyObject[] realArgs = args;
if (args.length == 1) {
// The power of the union of one!
IRubyObject v = TypeConverter.convertToTypeWithCheck(args[0], runtime.getRegexp(), "to_regexp");
if (!v.isNil()) return v;
IRubyObject a = TypeConverter.convertToTypeWithCheck(args[0], runtime.getArray(), "to_ary");
if (a.isNil()) return newRegexp(runtime, quote(context, recv, args).getByteList());
RubyArray aa = (RubyArray)a;
int len = aa.getLength();
realArgs = new IRubyObject[len];
for(int i = 0; i<len; i++) {
realArgs[i] = aa.entry(i);
}
}
KCode kcode = null;
IRubyObject kcode_re = runtime.getNil();
RubyString source = runtime.newString();
for (int i = 0; i < realArgs.length; i++) {
if (0 < i) source.cat((byte)'|');
IRubyObject v = TypeConverter.convertToTypeWithCheck(realArgs[i], runtime.getRegexp(), "to_regexp");
if (!v.isNil()) {
if (!((RubyRegexp)v).isKCodeDefault()) {
if (kcode == null) { // First regexp of union sets kcode.
kcode_re = v;
kcode = ((RubyRegexp)v).options.getKCode();
} else if (((RubyRegexp)v).options.getKCode() != kcode) { // n kcode doesn't match first one
IRubyObject str1 = kcode_re.inspect();
IRubyObject str2 = v.inspect();
throw runtime.newArgumentError("mixed kcode " + str1 + " and " + str2);
}
}
v = ((RubyRegexp)v).to_s();
} else {
v = quote(context, recv, new IRubyObject[]{realArgs[i]});
}
source.append(v);
}
IRubyObject[] _args = new IRubyObject[3];
_args[0] = source;
_args[1] = runtime.getNil();
if (kcode == null) { // No elements in the array.
_args[2] = runtime.getNil();
} else if (kcode == KCode.NONE) {
_args[2] = runtime.newString("n");
} else if (kcode == KCode.EUC) {
_args[2] = runtime.newString("e");
} else if (kcode == KCode.SJIS) {
_args[2] = runtime.newString("s");
} else if (kcode == KCode.UTF8) {
_args[2] = runtime.newString("u");
}
return recv.callMethod(context, "new", _args);
}
@JRubyMethod(name = "union", rest = true, meta = true, compat = CompatVersion.RUBY1_9)
public static IRubyObject union19(ThreadContext context, IRubyObject recv, IRubyObject[] args) {
Ruby runtime = context.getRuntime();
if (args.length == 0) return newRegexp(runtime, ByteList.create("(?!)"));
IRubyObject[] realArgs = args;
if (args.length == 1) {
// The power of the union of one!
IRubyObject v = TypeConverter.convertToTypeWithCheck(args[0], runtime.getRegexp(), "to_regexp");
if (!v.isNil()) return v;
IRubyObject a = TypeConverter.convertToTypeWithCheck(args[0], runtime.getArray(), "to_ary");
if (a.isNil()) return newRegexp(runtime, ((RubyString) quote19(context, recv, args[0])).getByteList());
RubyArray aa = (RubyArray)a;
int len = aa.getLength();
realArgs = new IRubyObject[len];
for(int i = 0; i<len; i++) {
realArgs[i] = aa.entry(i);
}
}
boolean hasAsciiOnly = false;
RubyString source = runtime.newString();
Encoding hasAsciiCompatFixed = null;
Encoding hasAsciiIncompat = null;
for (int i = 0; i < realArgs.length; i++) {
if (0 < i) source.cat((byte)'|');
Encoding enc;
IRubyObject v = TypeConverter.convertToTypeWithCheck(realArgs[i], runtime.getRegexp(), "to_regexp");
if (!v.isNil()) {
RubyRegexp regex = (RubyRegexp) v;
enc = regex.getEncoding();
if (!enc.isAsciiCompatible()) {
if (hasAsciiIncompat == null) { // First regexp of union sets kcode.
hasAsciiIncompat = enc;
} else if (hasAsciiIncompat != enc) { // n kcode doesn't match first one
throw runtime.newArgumentError("incompatible encodings: " + hasAsciiIncompat + " and " + enc);
}
} else if (regex.getOptions().isFixed()) {
if (hasAsciiCompatFixed == null) { // First regexp of union sets kcode.
hasAsciiCompatFixed = enc;
} else if (hasAsciiCompatFixed != enc) { // n kcode doesn't match first one
throw runtime.newArgumentError("incompatible encodings: " + hasAsciiCompatFixed + " and " + enc);
}
} else {
hasAsciiOnly = true;
}
v = regex.to_s();
} else {
RubyString str = realArgs[i].convertToString();
enc = str.getEncoding();
if (!enc.isAsciiCompatible()) {
if (hasAsciiIncompat == null) { // First regexp of union sets kcode.
hasAsciiIncompat = enc;
} else if (hasAsciiIncompat != enc) { // n kcode doesn't match first one
throw runtime.newArgumentError("incompatible encodings: " + hasAsciiIncompat + " and " + enc);
}
} else if (str.isAsciiOnly()) {
hasAsciiOnly = true;
} else {
if (hasAsciiCompatFixed == null) { // First regexp of union sets kcode.
hasAsciiCompatFixed = enc;
} else if (hasAsciiCompatFixed != enc) { // n kcode doesn't match first one
throw runtime.newArgumentError("incompatible encodings: " + hasAsciiCompatFixed + " and " + enc);
}
}
v = quote(context, recv, new IRubyObject[]{str});
}
if (hasAsciiIncompat != null) {
if (hasAsciiOnly) {
throw runtime.newArgumentError("ASCII incompatible encoding: " + hasAsciiIncompat);
}
if (hasAsciiCompatFixed != null) {
throw runtime.newArgumentError("incompatible encodings: " + hasAsciiIncompat + " and " + hasAsciiCompatFixed);
}
}
// Enebo: not sure why this is needed.
if (i == 0) source.setEncoding(enc);
source.append(v);
}
if (hasAsciiIncompat != null) {
source.setEncoding(hasAsciiIncompat);
} else if (hasAsciiCompatFixed != null) {
source.setEncoding(hasAsciiCompatFixed);
} else {
source.setEncoding(ASCIIEncoding.INSTANCE);
}
return recv.callMethod(context, "new", new IRubyObject[] { source });
}
// rb_reg_raise
private static void raiseRegexpError(Ruby runtime, ByteList bytes, Encoding enc, RegexpOptions options, String err) {
throw runtime.newRegexpError(err + ": " + regexpDescription(runtime, bytes, enc, options));
}
// rb_reg_desc
private static ByteList regexpDescription(Ruby runtime, ByteList bytes, Encoding enc, RegexpOptions options) {
return regexpDescription(runtime, bytes.getUnsafeBytes(), bytes.getBegin(), bytes.getRealSize(), enc, options);
}
private static ByteList regexpDescription(Ruby runtime, byte[] bytes, int start, int len, Encoding enc, RegexpOptions options) {
ByteList description = new ByteList();
description.append((byte)'/');
appendRegexpString(runtime, description, bytes, start, len, enc);
description.append((byte)'/');
appendOptions(description, options);
return description;
}
// rb_enc_reg_raise
private static void raiseRegexpError19(Ruby runtime, ByteList bytes, Encoding enc, RegexpOptions options, String err) {
// TODO: we loose encoding information here, fix it
throw runtime.newRegexpError(err + ": " + regexpDescription19(runtime, bytes, options, enc));
}
// rb_enc_reg_error_desc
static ByteList regexpDescription19(Ruby runtime, ByteList bytes, RegexpOptions options, Encoding enc) {
return regexpDescription19(runtime, bytes.getUnsafeBytes(), bytes.getBegin(), bytes.getRealSize(), options, enc);
}
private static ByteList regexpDescription19(Ruby runtime, byte[] s, int start, int len, RegexpOptions options, Encoding enc) {
ByteList description = new ByteList();
description.setEncoding(enc);
description.append((byte)'/');
appendRegexpString19(runtime, description, s, start, len, enc);
description.append((byte)'/');
appendOptions(description, options);
return description;
}
/** rb_reg_init_copy
*/
@JRubyMethod(name = "initialize_copy", required = 1)
@Override
public IRubyObject initialize_copy(IRubyObject re) {
if (this == re) return this;
checkFrozen();
if (getMetaClass().getRealClass() != re.getMetaClass().getRealClass()) {
throw getRuntime().newTypeError("wrong argument type");
}
RubyRegexp regexp = (RubyRegexp)re;
regexp.check();
return getRuntime().is1_9() ?
initializeCommon19(regexp.str, regexp.str.getEncoding(), regexp.getOptions()) :
initializeCommon(regexp.str, regexp.getOptions());
}
private int objectAsJoniOptions(IRubyObject arg) {
if (arg instanceof RubyFixnum) return RubyNumeric.fix2int(arg);
if (arg.isTrue()) return RE_OPTION_IGNORECASE;
return 0;
}
@JRubyMethod(name = "initialize", visibility = Visibility.PRIVATE, compat = CompatVersion.RUBY1_8)
public IRubyObject initialize_m(IRubyObject arg) {
if (arg instanceof RubyRegexp) return initializeByRegexp((RubyRegexp)arg);
return initializeCommon(arg.convertToString().getByteList(), new RegexpOptions());
}
@JRubyMethod(name = "initialize", visibility = Visibility.PRIVATE, compat = CompatVersion.RUBY1_8)
public IRubyObject initialize_m(IRubyObject arg0, IRubyObject arg1) {
if (arg0 instanceof RubyRegexp) {
getRuntime().getWarnings().warn(ID.REGEXP_IGNORED_FLAGS, "flags ignored");
return initializeByRegexp((RubyRegexp)arg0);
}
options = RegexpOptions.fromJoniOptions(objectAsJoniOptions(arg1));
return initializeCommon(arg0.convertToString().getByteList(), options);
}
@JRubyMethod(name = "initialize", visibility = Visibility.PRIVATE, compat = CompatVersion.RUBY1_8)
public IRubyObject initialize_m(IRubyObject arg0, IRubyObject arg1, IRubyObject arg2) {
if (arg0 instanceof RubyRegexp) {
getRuntime().getWarnings().warn(ID.REGEXP_IGNORED_FLAGS, "flags and encoding ignored");
return initializeByRegexp((RubyRegexp)arg0);
}
int optionsInt = objectAsJoniOptions(arg1);
options = RegexpOptions.fromJoniOptions(optionsInt);
if (!arg2.isNil()) {
ByteList kcodeBytes = arg2.convertToString().getByteList();
char first = kcodeBytes.length() > 0 ? kcodeBytes.charAt(0) : 0;
switch (first) {
case 'n': case 'N':
options.setExplicitKCode(KCode.NONE);
break;
case 'e': case 'E':
options.setExplicitKCode(KCode.EUC);
break;
case 's': case 'S':
options.setExplicitKCode(KCode.SJIS);
break;
case 'u': case 'U':
options.setExplicitKCode(KCode.UTF8);
break;
default:
break;
}
}
return initializeCommon(arg0.convertToString().getByteList(), options);
}
private IRubyObject initializeByRegexp(RubyRegexp regexp) {
regexp.check();
return initializeCommon(regexp.str, regexp.options);
}
private RubyRegexp initializeCommon(ByteList bytes, RegexpOptions newOptions) {
Ruby runtime = getRuntime();
// Options needs a little more set up.
if (!isTaint() && runtime.getSafeLevel() >= 4) throw runtime.newSecurityError("Insecure: can't modify regexp");
checkFrozen();
if (isLiteral()) throw runtime.newSecurityError("can't modify literal regexp");
options = newOptions;
pattern = getRegexpFromCache(runtime, bytes, options.getKCode().getEncoding(), options);
str = bytes;
return this;
}
@JRubyMethod(name = "initialize", visibility = Visibility.PRIVATE, compat = CompatVersion.RUBY1_9)
public IRubyObject initialize_m19(IRubyObject arg) {
if (arg instanceof RubyRegexp) return initializeByRegexp19((RubyRegexp)arg);
return initializeCommon19(arg.convertToString(), new RegexpOptions());
}
@JRubyMethod(name = "initialize", visibility = Visibility.PRIVATE, compat = CompatVersion.RUBY1_9)
public IRubyObject initialize_m19(IRubyObject arg0, IRubyObject arg1) {
if (arg0 instanceof RubyRegexp) {
getRuntime().getWarnings().warn(ID.REGEXP_IGNORED_FLAGS, "flags ignored");
return initializeByRegexp19((RubyRegexp)arg0);
}
options = RegexpOptions.fromJoniOptions(objectAsJoniOptions(arg1));
return initializeCommon19(arg0.convertToString(), options);
}
@JRubyMethod(name = "initialize", visibility = Visibility.PRIVATE, compat = CompatVersion.RUBY1_9)
public IRubyObject initialize_m19(IRubyObject arg0, IRubyObject arg1, IRubyObject arg2) {
if (arg0 instanceof RubyRegexp) {
getRuntime().getWarnings().warn(ID.REGEXP_IGNORED_FLAGS, "flags ignored");
return initializeByRegexp19((RubyRegexp)arg0);
}
int optionsInt = objectAsJoniOptions(arg1);
RegexpOptions newOptions = RegexpOptions.fromJoniOptions(optionsInt);
if (!arg2.isNil()) {
ByteList kcodeBytes = arg2.convertToString().getByteList();
if ((kcodeBytes.getRealSize() > 0 && kcodeBytes.getUnsafeBytes()[kcodeBytes.getBegin()] == 'n') ||
(kcodeBytes.getRealSize() > 1 && kcodeBytes.getUnsafeBytes()[kcodeBytes.getBegin() + 1] == 'N')) {
return initializeCommon19(arg0.convertToString().getByteList(), ASCIIEncoding.INSTANCE, newOptions);
} else {
getRuntime().getWarnings().warn("encoding option is ignored - " + kcodeBytes);
}
}
return initializeCommon19(arg0.convertToString(), newOptions);
}
private IRubyObject initializeByRegexp19(RubyRegexp regexp) {
regexp.check();
// System.out.println("str: " + regexp.str + ", ENC: " + regexp.getEncoding() + ", OPT: " + regexp.getOptions());
// System.out.println("KCODE: " + regexp.kcode);
// Clone and toggle flags since this is no longer a literal regular expression
// but it did come from one.
RegexpOptions newOptions = (RegexpOptions) regexp.getOptions().clone();
newOptions.setLiteral(false);
return initializeCommon19(regexp.str, regexp.getEncoding(), newOptions);
}
// rb_reg_initialize_str
private RubyRegexp initializeCommon19(RubyString str, RegexpOptions options) {
ByteList bytes = str.getByteList();
Encoding enc = bytes.getEncoding();
if (options.isEncodingNone()) {
if (enc != ASCIIEncoding.INSTANCE) {
if (str.scanForCodeRange() != StringSupport.CR_7BIT) {
raiseRegexpError19(getRuntime(), bytes, enc, options, "/.../n has a non escaped non ASCII character in non ASCII-8BIT script");
}
enc = ASCIIEncoding.INSTANCE;
}
}
return initializeCommon19(bytes, enc, options);
}
// rb_reg_initialize
private RubyRegexp initializeCommon19(ByteList bytes, Encoding enc, RegexpOptions options) {
Ruby runtime = getRuntime();
this.options = options;
// System.out.println("OPTIONS: " + options + ", STR.enc = " + enc);
if (!isTaint() && runtime.getSafeLevel() >= 4) throw runtime.newSecurityError("Insecure: can't modify regexp");
checkFrozen();
// FIXME: Something unsets this bit, but we aren't...be more permissive until we figure this out
//if (isLiteral()) throw runtime.newSecurityError("can't modify literal regexp");
if (pattern != null) throw runtime.newTypeError("already initialized regexp");
if (enc.isDummy()) raiseRegexpError19(runtime, bytes, enc, options, "can't make regexp with dummy encoding");
Encoding[]fixedEnc = new Encoding[]{null};
ByteList unescaped = preprocess(runtime, bytes, enc, fixedEnc, ErrorMode.RAISE);
if (fixedEnc[0] != null) {
if ((fixedEnc[0] != enc && options.isFixed()) ||
(fixedEnc[0] != ASCIIEncoding.INSTANCE && options.isEncodingNone())) {
raiseRegexpError19(runtime, bytes, enc, options, "incompatible character encoding");
}
if (fixedEnc[0] != ASCIIEncoding.INSTANCE) {
options.setFixed(true);
enc = fixedEnc[0];
}
} else if (!options.isFixed()) {
enc = USASCIIEncoding.INSTANCE;
}
if (fixedEnc[0] != null) options.setFixed(true);
if (options.isEncodingNone()) setEncodingNone();
pattern = getRegexpFromCache(runtime, unescaped, enc, options);
str = bytes;
return this;
}
@JRubyMethod(name = "kcode")
public IRubyObject kcode(ThreadContext context) {
Ruby runtime = context.getRuntime();
String kcodeName = options.getKCodeName();
return kcodeName == null ? runtime.getNil() : runtime.newString(kcodeName);
}
@JRubyMethod(name = "hash")
@Override
public RubyFixnum hash() {
check();
int hash = pattern.getOptions();
int len = str.getRealSize();
int p = str.getBegin();
byte[]bytes = str.getUnsafeBytes();
while (len-- > 0) {
hash = hash * 33 + bytes[p++];
}
return getRuntime().newFixnum(hash + (hash >> 5));
}
@JRubyMethod(name = {"==", "eql?"}, required = 1)
@Override
public IRubyObject op_equal(ThreadContext context, IRubyObject other) {
if (this == other) return context.getRuntime().getTrue();
if (!(other instanceof RubyRegexp)) return context.getRuntime().getFalse();
RubyRegexp otherRegex = (RubyRegexp)other;
check();
otherRegex.check();
return context.getRuntime().newBoolean(str.equal(otherRegex.str) &&
getOptions().equals(otherRegex.options));
}
@JRubyMethod(name = "~", reads = {LASTLINE, BACKREF}, writes = BACKREF)
public IRubyObject op_match2(ThreadContext context) {
Ruby runtime = context.getRuntime();
IRubyObject line = context.getCurrentScope().getLastLine(runtime);
if (line instanceof RubyString) {
int start = search(context, (RubyString)line, 0, false);
if (start < 0) return runtime.getNil();
return runtime.newFixnum(start);
}
context.getCurrentScope().setBackRef(runtime.getNil());
return runtime.getNil();
}
/** rb_reg_eqq
*
*/
@JRubyMethod(name = "===", required = 1, writes = BACKREF, compat = CompatVersion.RUBY1_8)
public IRubyObject eqq(ThreadContext context, IRubyObject arg) {
Ruby runtime = context.getRuntime();
final RubyString str;
if (arg instanceof RubyString) {
str = (RubyString)arg;
} else {
IRubyObject tmp = arg.checkStringType();
if (tmp.isNil()) {
context.getCurrentScope().setBackRef(tmp);
return runtime.getFalse();
}
str = (RubyString)tmp;
}
int start = search(context, str, 0, false);
return (start < 0) ? runtime.getFalse() : runtime.getTrue();
}
@JRubyMethod(name = "===", required = 1, writes = BACKREF, compat = CompatVersion.RUBY1_9)
public IRubyObject eqq19(ThreadContext context, IRubyObject arg) {
Ruby runtime = context.getRuntime();
arg = operandNoCheck(arg);
if (arg.isNil()) {
context.getCurrentScope().setBackRef(arg);
return runtime.getFalse();
}
int start = search19(context, (RubyString)arg, 0, false);
return (start < 0) ? runtime.getFalse() : runtime.getTrue();
}
/** rb_reg_match
*
*/
@JRubyMethod(name = "=~", required = 1, writes = BACKREF, compat = CompatVersion.RUBY1_8)
@Override
public IRubyObject op_match(ThreadContext context, IRubyObject str) {
Ruby runtime = context.getRuntime();
if (str.isNil()) {
context.getCurrentScope().setBackRef(str);
return str;
}
int start = search(context, str.convertToString(), 0, false);
if (start < 0) return runtime.getNil();
return RubyFixnum.newFixnum(runtime, start);
}
@JRubyMethod(name = "=~", required = 1, writes = BACKREF, compat = CompatVersion.RUBY1_9)
public IRubyObject op_match19(ThreadContext context, IRubyObject arg) {
Ruby runtime = context.getRuntime();
if (arg.isNil()) {
context.getCurrentScope().setBackRef(arg);
return arg;
}
RubyString str = operandCheck(runtime, arg);
int pos = matchPos(context, str, 0);
if (pos < 0) return runtime.getNil();
return RubyFixnum.newFixnum(runtime, str.subLength(pos));
}
/** rb_reg_match_m
*
*/
@JRubyMethod(name = "match", required = 1, reads = BACKREF, compat = CompatVersion.RUBY1_8)
public IRubyObject match_m(ThreadContext context, IRubyObject str) {
IRubyObject result = op_match(context, str);
if (result.isNil()) return result;
result = context.getCurrentScope().getBackRef(context.getRuntime());
((RubyMatchData)result).use();
return result;
}
@JRubyMethod(name = "match", reads = BACKREF, compat = CompatVersion.RUBY1_9)
public IRubyObject match_m19(ThreadContext context, IRubyObject str, Block block) {
return match19Common(context, str, 0, block);
}
@JRubyMethod(name = "match", reads = BACKREF, compat = CompatVersion.RUBY1_9)
public IRubyObject match_m19(ThreadContext context, IRubyObject str, IRubyObject pos, Block block) {
return match19Common(context, str, RubyNumeric.num2int(pos), block);
}
private IRubyObject match19Common(ThreadContext context, IRubyObject arg, int pos, Block block) {
DynamicScope scope = context.getCurrentScope();
if (arg.isNil()) {
scope.setBackRef(arg);
return arg;
}
Ruby runtime = context.getRuntime();
RubyString str = operandCheck(runtime, arg);
if (matchPos(context, str, pos) < 0) {
scope.setBackRef(runtime.getNil());
return runtime.getNil();
}
IRubyObject backref = scope.getBackRef(runtime);
((RubyMatchData)backref).use();
if (block.isGiven()) return block.yield(context, backref);
return backref;
}
private int matchPos(ThreadContext context, RubyString str, int pos) {
if (pos != 0) {
if (pos < 0) {
pos += str.strLength();
if (pos < 0) return pos;
}
pos = adjustStartPos19(str, pos, false);
}
return search19(context, str, pos, false);
}
/** rb_reg_search
*/
public final int search(ThreadContext context, RubyString str, int pos, boolean reverse) {
check();
DynamicScope scope = context.getCurrentScope();
ByteList value = str.getByteList();
if (pos <= value.getRealSize() && pos >= 0) {
int realSize = value.getRealSize();
int begin = value.getBegin();
Matcher matcher = pattern.matcher(value.getUnsafeBytes(), begin, begin + realSize);
int result = matcher.search(begin + pos, begin + (reverse ? 0 : realSize), Option.NONE);
if (result >= 0) {
updateBackRef(context, str, scope, matcher);
return result;
}
}
scope.setBackRef(context.getRuntime().getNil());
return -1;
}
private RubyMatchData updateBackRef(ThreadContext context, RubyString str, DynamicScope scope, Matcher matcher) {
RubyMatchData match = updateBackRef(context, str, scope, matcher, pattern);
match.regexp = this;
match.infectBy(this);
return match;
}
static final RubyMatchData updateBackRef(ThreadContext context, RubyString str, DynamicScope scope, Matcher matcher, Regex pattern) {
Ruby runtime = context.getRuntime();
IRubyObject backref = scope.getBackRef(runtime);
final RubyMatchData match;
boolean setBackRef = false;
if (backref.isNil() || ((RubyMatchData)backref).used()) {
match = new RubyMatchData(runtime);
setBackRef = true;
} else {
match = (RubyMatchData)backref;
match.setTaint(runtime.getSafeLevel() >= 3);
}
// FIXME: This is pretty gross; we should have a cleaner initialization
// that doesn't depend on package-visible fields and ideally is atomic,
// probably using an immutable structure we replace all at once.
match.regs = matcher.getRegion(); // lazy, null when no groups defined
match.begin = matcher.getBegin();
match.end = matcher.getEnd();
match.pattern = pattern;
match.str = (RubyString)str.strDup(runtime).freeze(context);
match.infectBy(str);
// JRUBY-3625: delay setting backref until the MatchData is completely initialized
if (setBackRef) scope.setBackRef(match);
return match;
}
public final int search19(ThreadContext context, RubyString str, int pos, boolean reverse) {
check();
DynamicScope scope = context.getCurrentScope();
ByteList value = str.getByteList();
if (pos <= value.getRealSize() && pos >= 0) {
int realSize = value.getRealSize();
int begin = value.getBegin();
Matcher matcher = preparePattern(str).matcher(value.getUnsafeBytes(), begin, begin + realSize);
int result = matcher.search(begin + pos, begin + (reverse ? 0 : realSize), Option.NONE);
if (result >= 0) {
updateBackRef(context, str, scope, matcher).charOffsetUpdated = false;;
return result;
}
}
scope.setBackRef(context.getRuntime().getNil());
return -1;
}
static final RubyMatchData updateBackRef19(ThreadContext context, RubyString str, DynamicScope scope, Matcher matcher, Regex pattern) {
RubyMatchData match = updateBackRef(context, str, scope, matcher, pattern);
match.charOffsetUpdated = false;
return match;
}
@JRubyMethod(name = "options")
public IRubyObject options() {
return getRuntime().newFixnum(getOptions().toJoniOptions());
}
@JRubyMethod(name = "casefold?")
public IRubyObject casefold_p(ThreadContext context) {
check();
return context.getRuntime().newBoolean(getOptions().isIgnorecase());
}
/** rb_reg_source
*
*/
@JRubyMethod(name = "source")
public IRubyObject source() {
check();
RubyString str = RubyString.newStringShared(getRuntime(), this.str);
if (isTaint()) str.setTaint(true);
return str;
}
final int length() {
return str.getRealSize();
}
/** rb_reg_inspect
*
*/
@JRubyMethod(name = "inspect", compat = CompatVersion.RUBY1_8)
@Override
public IRubyObject inspect() {
check();
ByteList result = regexpDescription(getRuntime(), str, options.getKCode().getEncoding(), options);
if (!isKCodeDefault()) result.append((byte)options.getKCodeName().charAt(0));
return RubyString.newString(getRuntime(), result);
}
@JRubyMethod(name = "inspect", compat = CompatVersion.RUBY1_9)
public IRubyObject inspect19() {
if (pattern == null) return anyToString();
return RubyString.newString(getRuntime(), regexpDescription19(getRuntime(), str, options, str.getEncoding()));
}
private final static int EMBEDDABLE = RE_OPTION_MULTILINE|RE_OPTION_IGNORECASE|RE_OPTION_EXTENDED;
@JRubyMethod(name = "to_s")
@Override
public IRubyObject to_s() {
check();
Ruby runtime = getRuntime();
RegexpOptions newOptions = (RegexpOptions)options.clone();
int p = str.getBegin();
int len = str.getRealSize();
byte[] bytes = str.getUnsafeBytes();
ByteList result = new ByteList(len);
result.append((byte)'(').append((byte)'?');
again: do {
if (len >= 4 && bytes[p] == '(' && bytes[p + 1] == '?') {
boolean err = true;
p += 2;
if ((len -= 2) > 0) {
do {
if (bytes[p] == 'm') {
newOptions.setMultiline(true);
} else if (bytes[p] == 'i') {
newOptions.setIgnorecase(true);
} else if (bytes[p] == 'x') {
newOptions.setExtended(true);
} else {
break;
}
p++;
} while (--len > 0);
}
if (len > 1 && bytes[p] == '-') {
++p;
--len;
do {
if (bytes[p] == 'm') {
newOptions.setMultiline(false);
} else if (bytes[p] == 'i') {
newOptions.setIgnorecase(false);
} else if (bytes[p] == 'x') {
newOptions.setExtended(false);
} else {
break;
}
p++;
} while (--len > 0);
}
if (bytes[p] == ')') {
--len;
++p;
continue again;
}
if (bytes[p] == ':' && bytes[p + len - 1] == ')') {
try {
new Regex(bytes, ++p, p + (len -= 2), Option.DEFAULT, getEncoding(runtime, str), Syntax.DEFAULT);
err = false;
} catch (JOniException e) {
err = true;
}
}
if (err) {
newOptions = options;
p = str.getBegin();
len = str.getRealSize();
}
}
appendOptions(result, newOptions);
if (!newOptions.isEmbeddable()) {
result.append((byte)'-');
if (!newOptions.isMultiline()) result.append((byte)'m');
if (!newOptions.isIgnorecase()) result.append((byte)'i');
if (!newOptions.isExtended()) result.append((byte)'x');
}
result.append((byte)':');
appendRegexpString(getRuntime(), result, bytes, p, len, getEncoding(runtime, str));
result.append((byte)')');
return RubyString.newString(getRuntime(), result).infectBy(this);
} while (true);
}
// rb_reg_expr_str
private static void appendRegexpString(Ruby runtime, ByteList to, byte[]bytes, int start, int len, Encoding enc) {
int p = start;
int end = p + len;
boolean needEscape = false;
while (p < end) {
int c = bytes[p] & 0xff;
if (c == '/' || (!enc.isPrint(c) && enc.length(bytes, p, end) == 1)) {
needEscape = true;
break;
}
p += enc.length(bytes, p, end);
}
if (!needEscape) {
to.append(bytes, start, len);
} else {
p = start;
while (p < end) {
int c = bytes[p] & 0xff;
if (c == '\\') {
int n = enc.length(bytes, p + 1, end) + 1;
to.append(bytes, p, n);
p += n;
continue;
} else if (c == '/') {
to.append((byte)'\\');
to.append(bytes, p, 1);
} else if (enc.length(bytes, p, end) != 1) {
to.append(bytes, p, enc.length(bytes, p, end));
p += enc.length(bytes, p, end);
continue;
} else if (enc.isPrint(c)) {
to.append(bytes, p, 1);
} else if (!enc.isSpace(c)) {
Sprintf.sprintf(runtime, to, "\\%03o", bytes[p] & 0377);
} else {
to.append(bytes, p, 1);
}
p++;
}
}
}
private static void appendRegexpString19(Ruby runtime, ByteList to, byte[]bytes, int start, int len, Encoding enc) {
int p = start;
int end = p + len;
boolean needEscape = false;
while (p < end) {
final int c;
final int cl;
if (enc.isAsciiCompatible()) {
cl = 1;
c = bytes[p] & 0xff;
} else {
cl = StringSupport.preciseLength(enc, bytes, p, end);
c = enc.mbcToCode(bytes, p, end);
}
if (!Encoding.isAscii(c)) {
p += StringSupport.length(enc, bytes, p, end);
} else if (c != '/' && enc.isPrint(c)) {
p += cl;
} else {
needEscape = true;
break;
}
}
if (!needEscape) {
to.append(bytes, start, len);
} else {
p = start;
while (p < end) {
final int c;
final int cl;
if (enc.isAsciiCompatible()) {
cl = 1;
c = bytes[p] & 0xff;
} else {
cl = StringSupport.preciseLength(enc, bytes, p, end);
c = enc.mbcToCode(bytes, p, end);
}
if (c == '\\' && p + cl < end) {
int n = cl + StringSupport.length(enc, bytes, p + cl, end);
to.append(bytes, p, n);
p += n;
continue;
} else if (c == '/') {
to.append((byte) '\\');
to.append(bytes, p, cl);
} else if (!Encoding.isAscii(c)) {
int l = StringSupport.length(enc, bytes, p, end);
to.append(bytes, p, l);
p += l;
continue;
} else if (enc.isPrint(c)) {
to.append(bytes, p, cl);
} else if (!enc.isSpace(c)) {
Sprintf.sprintf(runtime, to, "\\x%02X", c);
} else {
to.append(bytes, p, cl);
}
p += cl;
}
}
}
// option_to_str
private static void appendOptions(ByteList to, RegexpOptions options) {
if (options.isMultiline()) to.append((byte)'m');
if (options.isIgnorecase()) to.append((byte)'i');
if (options.isExtended()) to.append((byte)'x');
}
private static String[] NO_NAMES = new String[] {}; //TODO: Perhaps we have another empty string arr
public String[] getNames() {
int nameLength = pattern.numberOfNames();
if (nameLength == 0) return NO_NAMES;
String[] names = new String[nameLength];
int j = 0;
for (Iterator<NameEntry> i = pattern.namedBackrefIterator(); i.hasNext();) {
NameEntry e = i.next();
names[j++] = new String(e.name, e.nameP, e.nameEnd - e.nameP).intern();
}
return names;
}
/** rb_reg_names
*
*/
@JRubyMethod(name = "names", compat = CompatVersion.RUBY1_9)
public IRubyObject names(ThreadContext context) {
if (pattern.numberOfNames() == 0) return getRuntime().newEmptyArray();
RubyArray ary = context.getRuntime().newArray(pattern.numberOfNames());
for (Iterator<NameEntry> i = pattern.namedBackrefIterator(); i.hasNext();) {
NameEntry e = i.next();
ary.append(RubyString.newStringShared(getRuntime(), e.name, e.nameP, e.nameEnd - e.nameP));
}
return ary;
}
/** rb_reg_named_captures
*
*/
@JRubyMethod(name = "named_captures", compat = CompatVersion.RUBY1_9)
public IRubyObject named_captures(ThreadContext context) {
RubyHash hash = RubyHash.newHash(getRuntime());
if (pattern.numberOfNames() == 0) return hash;
for (Iterator<NameEntry> i = pattern.namedBackrefIterator(); i.hasNext();) {
NameEntry e = i.next();
int[]backrefs = e.getBackRefs();
RubyArray ary = getRuntime().newArray(backrefs.length);
for (int backref : backrefs) ary.append(RubyFixnum.newFixnum(getRuntime(), backref));
hash.fastASet(RubyString.newStringShared(getRuntime(), e.name, e.nameP, e.nameEnd - e.nameP).freeze(context), ary);
}
return hash;
}
@JRubyMethod(name = "encoding", compat = CompatVersion.RUBY1_9)
public IRubyObject encoding(ThreadContext context) {
return context.getRuntime().getEncodingService().getEncoding(pattern.getEncoding());
}
@JRubyMethod(name = "fixed_encoding?", compat = CompatVersion.RUBY1_9)
public IRubyObject fixed_encoding_p(ThreadContext context) {
return context.getRuntime().newBoolean(options.isFixed());
}
/** rb_reg_nth_match
*
*/
public static IRubyObject nth_match(int nth, IRubyObject match) {
if (match.isNil()) return match;
RubyMatchData m = (RubyMatchData)match;
Ruby runtime = m.getRuntime();
final int start, end;
if (m.regs == null) {
if (nth >= 1 || (nth < 0 && ++nth <= 0)) return runtime.getNil();
start = m.begin;
end = m.end;
} else {
if (nth >= m.regs.numRegs || (nth < 0 && (nth+=m.regs.numRegs) <= 0)) return runtime.getNil();
start = m.regs.beg[nth];
end = m.regs.end[nth];
}
if (start == -1) return runtime.getNil();
RubyString str = m.str.makeShared(runtime, m.str.getType(), start, end - start);
str.infectBy(m);
return str;
}
/** rb_reg_last_match
*
*/
public static IRubyObject last_match(IRubyObject match) {
return nth_match(0, match);
}
/** rb_reg_match_pre
*
*/
public static IRubyObject match_pre(IRubyObject match) {
if (match.isNil()) return match;
RubyMatchData m = (RubyMatchData)match;
Ruby runtime = m.getRuntime();
if (m.begin == -1) runtime.getNil();
return m.str.makeShared(runtime, m.str.getType(), 0, m.begin).infectBy(m);
}
/** rb_reg_match_post
*
*/
public static IRubyObject match_post(IRubyObject match) {
if (match.isNil()) return match;
RubyMatchData m = (RubyMatchData)match;
Ruby runtime = m.getRuntime();
if (m.begin == -1) return runtime.getNil();
return m.str.makeShared(runtime, m.str.getType(), m.end, m.str.getByteList().getRealSize() - m.end).infectBy(m);
}
/** rb_reg_match_last
*
*/
public static IRubyObject match_last(IRubyObject match) {
if (match.isNil()) return match;
RubyMatchData m = (RubyMatchData)match;
if (m.regs == null || m.regs.beg[0] == -1) return match.getRuntime().getNil();
int i;
for (i = m.regs.numRegs - 1; m.regs.beg[i] == -1 && i > 0; i--);
if (i == 0) return match.getRuntime().getNil();
return nth_match(i, match);
}
static RubyString regsub(RubyString str, RubyString src, Matcher matcher, Encoding enc) {
Region regs = matcher.getRegion();
int no = -1;
ByteList bs = str.getByteList();
int p = bs.getBegin();
int s = p;
int end = p + bs.getRealSize();
byte[]bytes = bs.getUnsafeBytes();
ByteList srcbs = src.getByteList();
ByteList val = null;
while (s < end) {
int ss = s;
int c = bytes[s] & 0xff;
int l = enc.length(bytes, s++, end);
if (l != 1) {
s += l - 1;
continue;
}
if (c != '\\' || s == end) continue;
if (val == null) val = new ByteList(ss - p);
val.append(bytes, p, ss - p);
c = bytes[s++] & 0xff;
p = s;
switch (c) {
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
no = c - '0';
break;
case '&':
no = 0;
break;
case '`':
val.append( srcbs.getUnsafeBytes(), srcbs.getBegin(), matcher.getBegin());
continue;
case '\'':
val.append(srcbs.getUnsafeBytes(), srcbs.getBegin() + matcher.getEnd(), srcbs.getRealSize() - matcher.getEnd());
continue;
case '+':
if (regs == null) {
if (matcher.getBegin() == -1) {
no = 0;
continue;
}
} else {
no = regs.numRegs - 1;
while (regs.beg[no] == -1 && no > 0) no--;
if (no == 0) continue;
}
break;
case '\\':
val.append(bytes, s - 1, 1);
continue;
default:
val.append(bytes, s - 2, 2);
continue;
}
if (regs != null) {
if (no >= 0) {
if (no >= regs.numRegs || regs.beg[no] == -1) continue;
val.append(srcbs.getUnsafeBytes(), srcbs.getBegin() + regs.beg[no], regs.end[no] - regs.beg[no]);
}
} else {
if (no != 0 || matcher.getBegin() == -1) continue;
val.append(srcbs.getUnsafeBytes(), srcbs.getBegin() + matcher.getBegin(), matcher.getEnd() - matcher.getBegin());
}
}
if (p < end) {
if (val == null) {
return RubyString.newString(str.getRuntime(), bs.makeShared(p - bs.getBegin(), end - p));
} else {
val.append(bytes, p, end - p);
}
}
if (val == null) return str;
return RubyString.newString(str.getRuntime(), val);
}
static RubyString regsub19(RubyString str, RubyString src, Matcher matcher, Regex pattern) {
Region regs = matcher.getRegion();
int no = -1;
ByteList bs = str.getByteList();
int p = bs.getBegin();
int s = p;
int end = p + bs.getRealSize();
byte[]bytes = bs.getUnsafeBytes();
Encoding strEnc = bs.getEncoding();
ByteList srcbs = src.getByteList();
Encoding srcEnc = srcbs.getEncoding();
RubyString val = null;
while (s < end) {
int c, cl;
if (strEnc.isAsciiCompatible()) {
cl = 1;
c = bytes[s] & 0xff;
} else {
cl = StringSupport.preciseLength(strEnc, bytes, s, end);
c = strEnc.mbcToCode(bytes, s, end);
}
if (!Encoding.isAscii(c)) {
s += StringSupport.length(strEnc, bytes, s, end);
continue;
}
int ss = s;
s += cl;
if (c != '\\' || s == end) continue;
if (val == null) val = RubyString.newString(str.getRuntime(), new ByteList(ss - p));
val.cat(bytes, p, ss - p, strEnc);
if (strEnc.isAsciiCompatible()) {
cl = 1;
c = bytes[s] & 0xff;
} else {
cl = StringSupport.preciseLength(strEnc, bytes, s, end);
c = strEnc.mbcToCode(bytes, s, end);
}
if (!Encoding.isAscii(c)) {
s += StringSupport.length(strEnc, bytes, s, end);
val.cat(bytes, ss, s - ss, strEnc);
p = s;
continue;
}
s += cl;
p = s;
switch (c) {
case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
if (pattern.noNameGroupIsActive(Syntax.RUBY)) {
no = c - '0';
break;
}
continue;
case 'k':
if (s < end) {
if (strEnc.isAsciiCompatible()) {
cl = 1;
c = bytes[s] & 0xff;
} else {
cl = StringSupport.preciseLength(strEnc, bytes, s, end);
c = strEnc.mbcToCode(bytes, s, end);
}
if (c == '<') {
int name = s + cl;
int nameEnd = name;
while (nameEnd < end) {
if (strEnc.isAsciiCompatible()) {
cl = 1;
c = bytes[nameEnd] & 0xff;
} else {
cl = StringSupport.preciseLength(strEnc, bytes, nameEnd, end);
c = strEnc.mbcToCode(bytes, nameEnd, end);
}
if (c == '>') break;
nameEnd += (!Encoding.isAscii(c)) ? StringSupport.length(strEnc, bytes, nameEnd, end) : cl;
}
if (nameEnd < end) {
try {
no = pattern.nameToBackrefNumber(bytes, name, nameEnd, regs);
} catch (JOniException je) {
throw str.getRuntime().newIndexError(je.getMessage());
}
p = s = nameEnd + cl;
break;
} else {
throw str.getRuntime().newRuntimeError("invalid group name reference format");
}
}
}
val.cat(bytes, ss, s - ss, strEnc);
continue;
case '0': case '&':
no = 0;
break;
case '`':
val.cat( srcbs.getUnsafeBytes(), srcbs.getBegin(), matcher.getBegin(), srcEnc);
continue;
case '\'':
val.cat(srcbs.getUnsafeBytes(), srcbs.getBegin() + matcher.getEnd(), srcbs.getRealSize() - matcher.getEnd(), srcEnc);
continue;
case '+':
if (regs == null) {
if (matcher.getBegin() == -1) {
no = 0;
continue;
}
} else {
no = regs.numRegs - 1;
while (regs.beg[no] == -1 && no > 0) no--;
if (no == 0) continue;
}
break;
case '\\':
val.cat(bytes, s - cl, cl, strEnc);
continue;
default:
val.cat(bytes, ss, s - ss, strEnc);
continue;
}
if (regs != null) {
if (no >= 0) {
if (no >= regs.numRegs || regs.beg[no] == -1) continue;
val.cat(srcbs.getUnsafeBytes(), srcbs.getBegin() + regs.beg[no], regs.end[no] - regs.beg[no], srcEnc);
}
} else {
if (no != 0 || matcher.getBegin() == -1) continue;
val.cat(srcbs.getUnsafeBytes(), srcbs.getBegin() + matcher.getBegin(), matcher.getEnd() - matcher.getBegin(), srcEnc);
}
}
if (val == null) return str;
if (p < end) val.cat(bytes, p, end - p, strEnc);
return val;
}
final int adjustStartPos19(RubyString str, int pos, boolean reverse) {
return adjustStartPosInternal(str, checkEncoding(str, false), pos, reverse);
}
final int adjustStartPos(RubyString str, int pos, boolean reverse) {
return adjustStartPosInternal(str, pattern.getEncoding(), pos, reverse);
}
private final int adjustStartPosInternal(RubyString str, Encoding enc, int pos, boolean reverse) {
check();
ByteList value = str.getByteList();
int len = value.getRealSize();
if (pos > 0 && enc.maxLength() != 1 && pos < len) {
int start = value.getBegin();
if ((reverse ? -pos : len - pos) > 0) {
return enc.rightAdjustCharHead(value.getUnsafeBytes(), start, start + pos, start + len) - start;
} else {
return enc.leftAdjustCharHead(value.getUnsafeBytes(), start, start + pos, start + len) - start;
}
}
return pos;
}
private static IRubyObject operandNoCheck(IRubyObject str) {
if (str instanceof RubySymbol) return ((RubySymbol)str).to_s();
return str.checkStringType();
}
private static RubyString operandCheck(Ruby runtime, IRubyObject str) {
if (str instanceof RubySymbol) return (RubyString)((RubySymbol)str).to_s();
IRubyObject tmp = str.checkStringType();
if (tmp.isNil()) throw runtime.newTypeError("can't convert " + str.getMetaClass() + "to String");
return (RubyString)tmp;
}
public static RubyRegexp unmarshalFrom(UnmarshalStream input) throws java.io.IOException {
RubyRegexp result = newRegexp(input.getRuntime(), input.unmarshalString(), RegexpOptions.fromJoniOptions(input.readSignedByte()));
input.registerLinkTarget(result);
return result;
}
public static void marshalTo(RubyRegexp regexp, MarshalStream output) throws java.io.IOException {
output.registerLinkTarget(regexp);
output.writeString(regexp.str);
output.writeByte(regexp.pattern.getOptions() & EMBEDDABLE);
}
}