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LUCENE-9386 add case insensitive RegExp matching option (#1541) 

Added case insensitive search option (currently only works with ASCII characters)
This commit is contained in:
markharwood 2020-07-08 16:08:12 +01:00 committed by GitHub
parent 00203c292f
commit 887fe4c83d
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GPG Key ID: 4AEE18F83AFDEB23
4 changed files with 224 additions and 82 deletions
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38
lucene/core/src/java/org/apache/lucene/search/RegexpQuery.java
View File

@ -83,7 +83,7 @@ public class RegexpQuery extends AutomatonQuery {
* Constructs a query for terms matching <code>term</code>.
*
* @param term regular expression.
* @param flags optional RegExp features from {@link RegExp}
* @param flags optional RegExp syntax features from {@link RegExp}
* @param maxDeterminizedStates maximum number of states that compiling the
* automaton for the regexp can result in. Set higher to allow more complex
* queries and lower to prevent memory exhaustion.
@ -96,16 +96,46 @@ public class RegexpQuery extends AutomatonQuery {
* Constructs a query for terms matching <code>term</code>.
*
* @param term regular expression.
* @param flags optional RegExp features from {@link RegExp}
* @param syntax_flags optional RegExp syntax features from {@link RegExp}
* automaton for the regexp can result in. Set higher to allow more complex
* queries and lower to prevent memory exhaustion.
* @param match_flags boolean 'or' of match behavior options such as case insensitivity
* @param maxDeterminizedStates maximum number of states that compiling the
*/
public RegexpQuery(Term term, int syntax_flags, int match_flags, int maxDeterminizedStates) {
this(term, syntax_flags, match_flags, defaultProvider, maxDeterminizedStates);
}
/**
* Constructs a query for terms matching <code>term</code>.
*
* @param term regular expression.
* @param syntax_flags optional RegExp features from {@link RegExp}
* @param provider custom AutomatonProvider for named automata
* @param maxDeterminizedStates maximum number of states that compiling the
* automaton for the regexp can result in. Set higher to allow more complex
* queries and lower to prevent memory exhaustion.
*/
public RegexpQuery(Term term, int flags, AutomatonProvider provider,
public RegexpQuery(Term term, int syntax_flags, AutomatonProvider provider,
int maxDeterminizedStates) {
this(term, syntax_flags, 0, provider, maxDeterminizedStates);
}
/**
* Constructs a query for terms matching <code>term</code>.
*
* @param term regular expression.
* @param syntax_flags optional RegExp features from {@link RegExp}
* @param match_flags boolean 'or' of match behavior options such as case insensitivity
* @param provider custom AutomatonProvider for named automata
* @param maxDeterminizedStates maximum number of states that compiling the
* automaton for the regexp can result in. Set higher to allow more complex
* queries and lower to prevent memory exhaustion.
*/
public RegexpQuery(Term term, int syntax_flags, int match_flags, AutomatonProvider provider,
int maxDeterminizedStates) {
super(term,
new RegExp(term.text(), flags).toAutomaton(
new RegExp(term.text(), syntax_flags, match_flags).toAutomaton(
provider, maxDeterminizedStates), maxDeterminizedStates);
}

215
lucene/core/src/java/org/apache/lucene/util/automaton/RegExp.java
View File

@ -32,6 +32,7 @@ package org.apache.lucene.util.automaton;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
@ -405,6 +406,7 @@ public class RegExp {
REGEXP_PRE_CLASS
}
//----- Syntax flags ( <= 0xff ) ------
/**
* Syntax flag, enables intersection (<code>&amp;</code>).
*/
@ -439,12 +441,19 @@ public class RegExp {
/**
* Syntax flag, enables all optional regexp syntax.
*/
public static final int ALL = 0xffff;
public static final int ALL = 0xff;
/**
* Syntax flag, enables no optional regexp syntax.
*/
public static final int NONE = 0x0000;
//----- Matching flags ( > 0xff ) ------
/**
* Allows case insensitive matching of ASCII characters.
*/
public static final int ASCII_CASE_INSENSITIVE = 0x0100;
//Immutable parsed state
/**
@ -474,7 +483,7 @@ public class RegExp {
// Parser variables
private final String originalString;
int flags;
final int flags;
int pos;
/**
@ -499,10 +508,30 @@ public class RegExp {
* regular expression
*/
public RegExp(String s, int syntax_flags) throws IllegalArgumentException {
this(s, syntax_flags, 0);
}
/**
* Constructs new <code>RegExp</code> from a string.
*
* @param s regexp string
* @param syntax_flags boolean 'or' of optional syntax constructs to be
* enabled
* @param match_flags boolean 'or' of match behavior options such as case insensitivity
* @exception IllegalArgumentException if an error occurred while parsing the
* regular expression
*/
public RegExp(String s, int syntax_flags, int match_flags) throws IllegalArgumentException {
if (syntax_flags > ALL) {
throw new IllegalArgumentException("Illegal syntax flag");
}
if (match_flags > 0 && match_flags <= ALL) {
throw new IllegalArgumentException("Illegal match flag");
}
flags = syntax_flags | match_flags;
originalString = s;
flags = syntax_flags;
RegExp e;
if (s.length() == 0) e = makeString("");
if (s.length() == 0) e = makeString(flags, "");
else {
e = parseUnionExp();
if (pos < originalString.length()) throw new IllegalArgumentException(
@ -520,10 +549,10 @@ public class RegExp {
to = e.to;
}
RegExp(Kind kind, RegExp exp1, RegExp exp2, String s, int c, int min, int max, int digits, int from, int to){
RegExp(int flags, Kind kind, RegExp exp1, RegExp exp2, String s, int c, int min, int max, int digits, int from, int to){
this.originalString = null;
this.kind = kind;
this.flags = 0;
this.flags = flags;
this.exp1 = exp1;
this.exp2 = exp2;
this.s = s;
@ -536,19 +565,19 @@ public class RegExp {
}
// Simplified construction of container nodes
static RegExp newContainerNode(Kind kind, RegExp exp1, RegExp exp2) {
return new RegExp(kind, exp1, exp2, null, 0, 0, 0, 0, 0, 0);
static RegExp newContainerNode(int flags, Kind kind, RegExp exp1, RegExp exp2) {
return new RegExp(flags, kind, exp1, exp2, null, 0, 0, 0, 0, 0, 0);
}
// Simplified construction of repeating nodes
static RegExp newRepeatingNode(Kind kind, RegExp exp, int min, int max) {
return new RegExp(kind, exp, null, null, 0, min, max, 0, 0, 0);
static RegExp newRepeatingNode(int flags, Kind kind, RegExp exp, int min, int max) {
return new RegExp(flags, kind, exp, null, null, 0, min, max, 0, 0, 0);
}
// Simplified construction of leaf nodes
static RegExp newLeafNode(Kind kind, String s, int c, int min, int max, int digits, int from, int to) {
return new RegExp(kind, null, null, s, c, min, max, digits, from, to);
static RegExp newLeafNode(int flags, Kind kind, String s, int c, int min, int max, int digits, int from, int to) {
return new RegExp(flags, kind, null, null, s, c, min, max, digits, from, to);
}
/**
@ -703,7 +732,11 @@ public class RegExp {
a = MinimizationOperations.minimize(a, maxDeterminizedStates);
break;
case REGEXP_CHAR:
a = Automata.makeChar(c);
if (check(ASCII_CASE_INSENSITIVE)) {
a = toCaseInsensitiveChar(c, maxDeterminizedStates);
} else {
a = Automata.makeChar(c);
}
break;
case REGEXP_CHAR_RANGE:
a = Automata.makeCharRange(from, to);
@ -715,7 +748,11 @@ public class RegExp {
a = Automata.makeEmpty();
break;
case REGEXP_STRING:
a = Automata.makeString(s);
if (check(ASCII_CASE_INSENSITIVE)) {
a = toCaseInsensitiveString(maxDeterminizedStates);
} else {
a = Automata.makeString(s);
}
break;
case REGEXP_ANYSTRING:
a = Automata.makeAnyString();
@ -743,6 +780,34 @@ public class RegExp {
}
return a;
}
private Automaton toCaseInsensitiveChar(int codepoint, int maxDeterminizedStates) {
Automaton case1 = Automata.makeChar(codepoint);
// For now we only work with ASCII characters
if (codepoint > 128) {
return case1;
}
int altCase = Character.isLowerCase(codepoint) ? Character.toUpperCase(codepoint) : Character.toLowerCase(codepoint);
Automaton result;
if (altCase != codepoint) {
result = Operations.union(case1, Automata.makeChar(altCase));
result = MinimizationOperations.minimize(result, maxDeterminizedStates);
} else {
result = case1;
}
return result;
}
private Automaton toCaseInsensitiveString(int maxDeterminizedStates) {
List<Automaton> list = new ArrayList<>();
Iterator<Integer> iter = s.codePoints().iterator();
while (iter.hasNext()) {
list.add(toCaseInsensitiveChar(iter.next(), maxDeterminizedStates));
}
Automaton a = Operations.concatenate(list);
a = MinimizationOperations.minimize(a, maxDeterminizedStates);
return a;
}
private void findLeaves(RegExp exp, Kind kind, List<Automaton> list,
Map<String,Automaton> automata, AutomatonProvider automaton_provider,
@ -1000,97 +1065,97 @@ public class RegExp {
}
}
static RegExp makeUnion(RegExp exp1, RegExp exp2) {
return newContainerNode(Kind.REGEXP_UNION, exp1, exp2);
static RegExp makeUnion(int flags, RegExp exp1, RegExp exp2) {
return newContainerNode(flags, Kind.REGEXP_UNION, exp1, exp2);
}
static RegExp makeConcatenation(RegExp exp1, RegExp exp2) {
static RegExp makeConcatenation(int flags, RegExp exp1, RegExp exp2) {
if ((exp1.kind == Kind.REGEXP_CHAR || exp1.kind == Kind.REGEXP_STRING)
&& (exp2.kind == Kind.REGEXP_CHAR || exp2.kind == Kind.REGEXP_STRING)) return makeString(
exp1, exp2);
flags, exp1, exp2);
RegExp rexp1, rexp2;
if (exp1.kind == Kind.REGEXP_CONCATENATION
&& (exp1.exp2.kind == Kind.REGEXP_CHAR || exp1.exp2.kind == Kind.REGEXP_STRING)
&& (exp2.kind == Kind.REGEXP_CHAR || exp2.kind == Kind.REGEXP_STRING)) {
rexp1 = exp1.exp1;
rexp2 = makeString(exp1.exp2, exp2);
rexp2 = makeString(flags, exp1.exp2, exp2);
} else if ((exp1.kind == Kind.REGEXP_CHAR || exp1.kind == Kind.REGEXP_STRING)
&& exp2.kind == Kind.REGEXP_CONCATENATION
&& (exp2.exp1.kind == Kind.REGEXP_CHAR || exp2.exp1.kind == Kind.REGEXP_STRING)) {
rexp1 = makeString(exp1, exp2.exp1);
rexp1 = makeString(flags, exp1, exp2.exp1);
rexp2 = exp2.exp2;
} else {
rexp1 = exp1;
rexp2 = exp2;
}
return newContainerNode(Kind.REGEXP_CONCATENATION, rexp1, rexp2);
return newContainerNode(flags, Kind.REGEXP_CONCATENATION, rexp1, rexp2);
}
static private RegExp makeString(RegExp exp1, RegExp exp2) {
static private RegExp makeString(int flags, RegExp exp1, RegExp exp2) {
StringBuilder b = new StringBuilder();
if (exp1.kind == Kind.REGEXP_STRING) b.append(exp1.s);
else b.appendCodePoint(exp1.c);
if (exp2.kind == Kind.REGEXP_STRING) b.append(exp2.s);
else b.appendCodePoint(exp2.c);
return makeString(b.toString());
return makeString(flags, b.toString());
}
static RegExp makeIntersection(RegExp exp1, RegExp exp2) {
return newContainerNode(Kind.REGEXP_INTERSECTION, exp1, exp2);
static RegExp makeIntersection(int flags, RegExp exp1, RegExp exp2) {
return newContainerNode(flags, Kind.REGEXP_INTERSECTION, exp1, exp2);
}
static RegExp makeOptional(RegExp exp) {
return newContainerNode(Kind.REGEXP_OPTIONAL, exp, null);
static RegExp makeOptional(int flags, RegExp exp) {
return newContainerNode(flags, Kind.REGEXP_OPTIONAL, exp, null);
}
static RegExp makeRepeat(RegExp exp) {
return newContainerNode(Kind.REGEXP_REPEAT, exp, null);
static RegExp makeRepeat(int flags, RegExp exp) {
return newContainerNode(flags, Kind.REGEXP_REPEAT, exp, null);
}
static RegExp makeRepeat(RegExp exp, int min) {
return newRepeatingNode(Kind.REGEXP_REPEAT_MIN, exp, min, 0);
static RegExp makeRepeat(int flags, RegExp exp, int min) {
return newRepeatingNode(flags, Kind.REGEXP_REPEAT_MIN, exp, min, 0);
}
static RegExp makeRepeat(RegExp exp, int min, int max) {
return newRepeatingNode(Kind.REGEXP_REPEAT_MINMAX, exp, min, max);
static RegExp makeRepeat(int flags, RegExp exp, int min, int max) {
return newRepeatingNode(flags, Kind.REGEXP_REPEAT_MINMAX, exp, min, max);
}
static RegExp makeComplement(RegExp exp) {
return newContainerNode(Kind.REGEXP_COMPLEMENT, exp, null);
static RegExp makeComplement(int flags, RegExp exp) {
return newContainerNode(flags, Kind.REGEXP_COMPLEMENT, exp, null);
}
static RegExp makeChar(int c) {
return newLeafNode(Kind.REGEXP_CHAR, null, c, 0, 0, 0, 0, 0);
static RegExp makeChar(int flags, int c) {
return newLeafNode(flags, Kind.REGEXP_CHAR, null, c, 0, 0, 0, 0, 0);
}
static RegExp makeCharRange(int from, int to) {
static RegExp makeCharRange(int flags, int from, int to) {
if (from > to)
throw new IllegalArgumentException("invalid range: from (" + from + ") cannot be > to (" + to + ")");
return newLeafNode(Kind.REGEXP_CHAR_RANGE, null, 0, 0, 0, 0, from, to);
return newLeafNode(flags, Kind.REGEXP_CHAR_RANGE, null, 0, 0, 0, 0, from, to);
}
static RegExp makeAnyChar() {
return newContainerNode(Kind.REGEXP_ANYCHAR, null, null);
static RegExp makeAnyChar(int flags) {
return newContainerNode(flags, Kind.REGEXP_ANYCHAR, null, null);
}
static RegExp makeEmpty() {
return newContainerNode(Kind.REGEXP_EMPTY, null, null);
static RegExp makeEmpty(int flags) {
return newContainerNode(flags, Kind.REGEXP_EMPTY, null, null);
}
static RegExp makeString(String s) {
return newLeafNode(Kind.REGEXP_STRING, s, 0, 0, 0, 0, 0, 0);
static RegExp makeString(int flags, String s) {
return newLeafNode(flags, Kind.REGEXP_STRING, s, 0, 0, 0, 0, 0, 0);
}
static RegExp makeAnyString() {
return newContainerNode(Kind.REGEXP_ANYSTRING, null, null);
static RegExp makeAnyString(int flags) {
return newContainerNode(flags, Kind.REGEXP_ANYSTRING, null, null);
}
static RegExp makeAutomaton(String s) {
return newLeafNode(Kind.REGEXP_AUTOMATON, s, 0, 0, 0, 0, 0, 0);
static RegExp makeAutomaton(int flags, String s) {
return newLeafNode(flags, Kind.REGEXP_AUTOMATON, s, 0, 0, 0, 0, 0, 0);
}
static RegExp makeInterval(int min, int max, int digits) {
return newLeafNode(Kind.REGEXP_INTERVAL, null, 0, min, max, digits, 0, 0);
static RegExp makeInterval(int flags, int min, int max, int digits) {
return newLeafNode(flags, Kind.REGEXP_INTERVAL, null, 0, min, max, digits, 0, 0);
}
private boolean peek(String s) {
@ -1123,13 +1188,13 @@ public class RegExp {
final RegExp parseUnionExp() throws IllegalArgumentException {
RegExp e = parseInterExp();
if (match('|')) e = makeUnion(e, parseUnionExp());
if (match('|')) e = makeUnion(flags, e, parseUnionExp());
return e;
}
final RegExp parseInterExp() throws IllegalArgumentException {
RegExp e = parseConcatExp();
if (check(INTERSECTION) && match('&')) e = makeIntersection(e,
if (check(INTERSECTION) && match('&')) e = makeIntersection(flags, e,
parseInterExp());
return e;
}
@ -1137,16 +1202,16 @@ public class RegExp {
final RegExp parseConcatExp() throws IllegalArgumentException {
RegExp e = parseRepeatExp();
if (more() && !peek(")|") && (!check(INTERSECTION) || !peek("&"))) e = makeConcatenation(
e, parseConcatExp());
flags, e, parseConcatExp());
return e;
}
final RegExp parseRepeatExp() throws IllegalArgumentException {
RegExp e = parseComplExp();
while (peek("?*+{")) {
if (match('?')) e = makeOptional(e);
else if (match('*')) e = makeRepeat(e);
else if (match('+')) e = makeRepeat(e, 1);
if (match('?')) e = makeOptional(flags, e);
else if (match('*')) e = makeRepeat(flags, e);
else if (match('+')) e = makeRepeat(flags, e, 1);
else if (match('{')) {
int start = pos;
while (peek("0123456789"))
@ -1164,15 +1229,15 @@ public class RegExp {
} else m = n;
if (!match('}')) throw new IllegalArgumentException(
"expected '}' at position " + pos);
if (m == -1) e = makeRepeat(e, n);
else e = makeRepeat(e, n, m);
if (m == -1) e = makeRepeat(flags, e, n);
else e = makeRepeat(flags, e, n, m);
}
}
return e;
}
final RegExp parseComplExp() throws IllegalArgumentException {
if (check(COMPLEMENT) && match('~')) return makeComplement(parseComplExp());
if (check(COMPLEMENT) && match('~')) return makeComplement(flags, parseComplExp());
else return parseCharClassExp();
}
@ -1181,7 +1246,7 @@ public class RegExp {
boolean negate = false;
if (match('^')) negate = true;
RegExp e = parseCharClasses();
if (negate) e = makeIntersection(makeAnyChar(), makeComplement(e));
if (negate) e = makeIntersection(flags, makeAnyChar(flags), makeComplement(flags, e));
if (!match(']')) throw new IllegalArgumentException(
"expected ']' at position " + pos);
return e;
@ -1191,7 +1256,7 @@ public class RegExp {
final RegExp parseCharClasses() throws IllegalArgumentException {
RegExp e = parseCharClass();
while (more() && !peek("]"))
e = makeUnion(e, parseCharClass());
e = makeUnion(flags, e, parseCharClass());
return e;
}
@ -1202,8 +1267,8 @@ public class RegExp {
}
int c = parseCharExp();
if (match('-')) return makeCharRange(c, parseCharExp());
else return makeChar(c);
if (match('-')) return makeCharRange(flags, c, parseCharExp());
else return makeChar(flags, c);
}
RegExp expandPredefined() {
@ -1232,11 +1297,11 @@ public class RegExp {
//See https://docs.oracle.com/javase/tutorial/essential/regex/pre_char_classes.html
if (match('\\')) {
if (peek("dDwWsS")) {
return newLeafNode(Kind.REGEXP_PRE_CLASS, null, 0, 0, 0, 0, next(), 0);
return newLeafNode(flags, Kind.REGEXP_PRE_CLASS, null, 0, 0, 0, 0, next(), 0);
}
if (peek("\\")) {
return makeChar(next());
return makeChar(flags, next());
}
// From https://docs.oracle.com/javase/8/docs/api/java/util/regex/Pattern.html#bs
@ -1252,18 +1317,18 @@ public class RegExp {
final RegExp parseSimpleExp() throws IllegalArgumentException {
if (match('.')) return makeAnyChar();
else if (check(EMPTY) && match('#')) return makeEmpty();
else if (check(ANYSTRING) && match('@')) return makeAnyString();
if (match('.')) return makeAnyChar(flags);
else if (check(EMPTY) && match('#')) return makeEmpty(flags);
else if (check(ANYSTRING) && match('@')) return makeAnyString(flags);
else if (match('"')) {
int start = pos;
while (more() && !peek("\""))
next();
if (!match('"')) throw new IllegalArgumentException(
"expected '\"' at position " + pos);
return makeString(originalString.substring(start, pos - 1));
return makeString(flags, originalString.substring(start, pos - 1));
} else if (match('(')) {
if (match(')')) return makeString("");
if (match(')')) return makeString(flags, "");
RegExp e = parseUnionExp();
if (!match(')')) throw new IllegalArgumentException(
"expected ')' at position " + pos);
@ -1279,7 +1344,7 @@ public class RegExp {
if (i == -1) {
if (!check(AUTOMATON)) throw new IllegalArgumentException(
"interval syntax error at position " + (pos - 1));
return makeAutomaton(s);
return makeAutomaton(flags, s);
} else {
if (!check(INTERVAL)) throw new IllegalArgumentException(
"illegal identifier at position " + (pos - 1));
@ -1297,7 +1362,7 @@ public class RegExp {
imin = imax;
imax = t;
}
return makeInterval(imin, imax, digits);
return makeInterval(flags, imin, imax, digits);
} catch (NumberFormatException e) {
throw new IllegalArgumentException(
"interval syntax error at position " + (pos - 1));
@ -1308,7 +1373,7 @@ public class RegExp {
if (predefined != null) {
return predefined;
}
return makeChar(parseCharExp());
return makeChar(flags, parseCharExp());
}
}

11
lucene/core/src/test/org/apache/lucene/search/TestRegexpQuery.java
View File

@ -73,6 +73,12 @@ public class TestRegexpQuery extends LuceneTestCase {
return searcher.count(query);
}
private long caseInsensitiveRegexQueryNrHits(String regex) throws IOException {
RegexpQuery query = new RegexpQuery(newTerm(regex), RegExp.ALL, RegExp.ASCII_CASE_INSENSITIVE,
Operations.DEFAULT_MAX_DETERMINIZED_STATES);
return searcher.count(query);
}
public void testRegex1() throws IOException {
assertEquals(1, regexQueryNrHits("q.[aeiou]c.*"));
}
@ -125,6 +131,11 @@ public class TestRegexpQuery extends LuceneTestCase {
assertTrue(expected.getMessage().contains("invalid character class"));
}
public void testCaseInsensitive() throws IOException {
assertEquals(0, regexQueryNrHits("Quick"));
assertEquals(1, caseInsensitiveRegexQueryNrHits("Quick"));
}
public void testRegexComplement() throws IOException {
assertEquals(1, regexQueryNrHits("4934~[3]"));
// not the empty lang, i.e. match all docs

42
lucene/core/src/test/org/apache/lucene/util/automaton/TestRegExp.java
View File

@ -88,10 +88,14 @@ public class TestRegExp extends LuceneTestCase {
assertTrue(a.toString().length() > 0);
}
boolean caseSensitiveQuery = true;
public void testCoreJavaParity() {
// Generate random doc values and random regular expressions
// and check for same matching behaviour as Java's Pattern class.
for (int i = 0; i < 1000; i++) {
caseSensitiveQuery = true;
checkRandomExpression(randomDocValue(1 + random().nextInt(30)));
}
}
@ -144,7 +148,7 @@ public class TestRegExp extends LuceneTestCase {
// Modify the middle...
String replacementPart = docValue.substring(substitutionPoint, substitutionPoint + substitutionLength);
int mutation = random().nextInt(13);
int mutation = random().nextInt(15);
switch (mutation) {
case 0:
// OR with random alpha of same length
@ -205,6 +209,25 @@ public class TestRegExp extends LuceneTestCase {
// Make any whitespace chars replace by whitespace class
result.append(replacementPart.replaceAll("\\s", "\\\\s"));
break;
case 14:
// Switch case of characters
StringBuilder switchedCase = new StringBuilder();
replacementPart.codePoints().forEach(
p -> {
int switchedP = p;
if (Character.isLowerCase(p)) {
switchedP = Character.toUpperCase(p);
} else {
switchedP = Character.toLowerCase(p);
}
switchedCase.appendCodePoint(switchedP);
if (p != switchedP) {
caseSensitiveQuery = false;
}
}
);
result.append(switchedCase.toString());
break;
default:
break;
}
@ -215,11 +238,14 @@ public class TestRegExp extends LuceneTestCase {
String regexPattern = result.toString();
// Assert our randomly generated regex actually matches the provided raw input using java's expression matcher
Pattern pattern = Pattern.compile(regexPattern);
Pattern pattern = caseSensitiveQuery ? Pattern.compile(regexPattern):
Pattern.compile(regexPattern, Pattern.CASE_INSENSITIVE);
;
Matcher matcher = pattern.matcher(docValue);
assertTrue("Java regex " + regexPattern + " did not match doc value " + docValue, matcher.matches());
RegExp regex = new RegExp(regexPattern);
int matchFlags = caseSensitiveQuery ? 0 : RegExp.ASCII_CASE_INSENSITIVE;
RegExp regex = new RegExp(regexPattern, RegExp.ALL, matchFlags);
Automaton automaton = regex.toAutomaton();
ByteRunAutomaton bytesMatcher = new ByteRunAutomaton(automaton);
BytesRef br = new BytesRef(docValue);
@ -228,6 +254,16 @@ public class TestRegExp extends LuceneTestCase {
+ docValue.length(),
bytesMatcher.run(br.bytes, br.offset, br.length)
);
if (caseSensitiveQuery == false) {
RegExp caseSensitiveRegex = new RegExp(regexPattern);
Automaton csAutomaton = caseSensitiveRegex.toAutomaton();
ByteRunAutomaton csBytesMatcher = new ByteRunAutomaton(csAutomaton);
assertFalse(
"[" + regexPattern + "] with case sensitive setting should not match [" + docValue + "]",
csBytesMatcher.run(br.bytes, br.offset, br.length)
);
}
return regexPattern;
}