scuffed-code/icu4c/source/test/intltest/regextst.cpp

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/********************************************************************
* COPYRIGHT:
* Copyright (c) 2002, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************/
//
// regextst.cpp
//
// ICU Regular Expressions test, part of intltest.
//
#include "unicode/utypes.h"
#if !UCONFIG_NO_REGULAR_EXPRESSIONS
#include "unicode/uchar.h"
#include "intltest.h"
#include "regextst.h"
#include "uvector.h"
#include "stdlib.h"
//---------------------------------------------------------------------------
//
// Test class boilerplate
//
//---------------------------------------------------------------------------
RegexTest::RegexTest()
{
};
RegexTest::~RegexTest()
{
};
void RegexTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ )
{
if (exec) logln("TestSuite RegexTest: ");
switch (index) {
case 0: name = "Basic";
if (exec) Basic();
break;
case 1: name = "API_Match";
if (exec) API_Match();
break;
case 2: name = "API_Replace";
if (exec) API_Replace();
break;
case 3: name = "API_Pattern";
if (exec) API_Pattern();
break;
case 4: name = "Extended";
if (exec) Extended();
break;
case 5: name = "Errors";
if (exec) Errors();
break;
default: name = "";
break; //needed to end loop
}
}
//---------------------------------------------------------------------------
//
// Error Checking / Reporting macros used in all of the tests.
//
//---------------------------------------------------------------------------
#define REGEX_CHECK_STATUS {if (U_FAILURE(status)) {errln("RegexTest failure at line %d. status=%s\n", \
__LINE__, u_errorName(status)); return;}}
#define REGEX_ASSERT(expr) {if ((expr)==FALSE) {errln("RegexTest failure at line %d.\n", __LINE__);};}
#define REGEX_ASSERT_FAIL(expr, errcode) {UErrorCode status=U_ZERO_ERROR; (expr);\
if (status!=errcode) {errln("RegexTest failure at line %d. Expected status=%s, got %s\n", \
__LINE__, u_errorName(errcode), u_errorName(status));};}
#define REGEX_CHECK_STATUS_L(line) {if (U_FAILURE(status)) {errln( \
"RegexTest failure at line %d, from %d. status=%d\n",__LINE__, (line), status); }}
#define REGEX_ASSERT_L(expr, line) {if ((expr)==FALSE) { \
errln("RegexTest failure at line %d, from %d.", __LINE__, (line)); return;}}
//---------------------------------------------------------------------------
//
// REGEX_TESTLM Macro + invocation function to simplify writing quick tests
// for the LookingAt() and Match() functions.
//
// usage:
// REGEX_TESTLM("pattern", "input text", lookingAt expected, matches expected);
//
// The expected results are UBool - TRUE or FALSE.
// The input text is unescaped. The pattern is not.
//
//
//---------------------------------------------------------------------------
#define REGEX_TESTLM(pat, text, looking, match) doRegexLMTest(pat, text, looking, match, __LINE__);
UBool RegexTest::doRegexLMTest(const char *pat, const char *text, UBool looking, UBool match, int line) {
const UnicodeString pattern(pat);
const UnicodeString inputText(text);
UErrorCode status = U_ZERO_ERROR;
UParseError pe;
RegexPattern *REPattern = NULL;
RegexMatcher *REMatcher = NULL;
UBool retVal = TRUE;
UnicodeString patString(pat);
REPattern = RegexPattern::compile(patString, 0, pe, status);
if (U_FAILURE(status)) {
errln("RegexTest failure in RegexPattern::compile() at line %d. Status = %d\n", line, status);
return FALSE;
}
// REPattern->dump();
UnicodeString inputString(inputText);
UnicodeString unEscapedInput = inputString.unescape();
REMatcher = REPattern->matcher(unEscapedInput, status);
if (U_FAILURE(status)) {
errln("RegexTest failure in REPattern::matcher() at line %d. Status = %d\n", line, status);
return FALSE;
}
UBool actualmatch;
actualmatch = REMatcher->lookingAt(status);
if (U_FAILURE(status)) {
errln("RegexTest failure in lookingAt() at line %d. Status = %d\n", line, status);
retVal = FALSE;
}
if (actualmatch != looking) {
errln("RegexTest: wrong return from lookingAt() at line %d.\n", line);
retVal = FALSE;
}
status = U_ZERO_ERROR;
actualmatch = REMatcher->matches(status);
if (U_FAILURE(status)) {
errln("RegexTest failure in matches() at line %d. Status = %d\n", line, status);
retVal = FALSE;
}
if (actualmatch != match) {
errln("RegexTest: wrong return from matches() at line %d.\n", line);
retVal = FALSE;
}
if (retVal == FALSE) {
REPattern->dump();
}
delete REPattern;
delete REMatcher;
return retVal;
}
//---------------------------------------------------------------------------
//
// REGEX_FIND Macro + invocation function to simplify writing tests
// regex tests.
//
// usage:
// REGEX_FIND("pattern", "input text");
// REGEX_ERR("pattern", expected status);
//
// The input text is unescaped. The pattern is not.
// The input text is marked with the expected match positions
// <0>text <1> more text </1> </0>
// The <n> </n> tags are removed before trying the match.
// The tags mark the start and end of the match and of any capture groups.
//
//
//---------------------------------------------------------------------------
// REGEX_FIND is invoked via a macro, which allows capturing the source file line
// number for use in error messages.
#define REGEX_FIND(pat, text) regex_find(pat, text, U_ZERO_ERROR, __LINE__);
// Set a value into a UVector at position specified by a decimal number in
// a UnicodeString. This is a utility function needed by the actual test function,
// which follows.
void set(UVector &vec, int val, UnicodeString index) {
UErrorCode status=U_ZERO_ERROR;
int idx = 0;
for (int i=0; i<index.length(); i++) {
int d=u_charDigitValue(index.charAt(i));
if (d<0) {return;}
idx = idx*10 + d;
}
while (vec.size()<idx+1) {vec.addElement(-1, status);}
vec.setElementAt(val, idx);
}
void RegexTest::regex_find(const char *pat, const char *input, UErrorCode expectedStatus, int line) {
UnicodeString pattern(pat);
UnicodeString inputString(input);
UnicodeString unEscapedInput;
UnicodeString deTaggedInput;
UErrorCode status = U_ZERO_ERROR;
UParseError pe;
RegexPattern *parsePat = NULL;
RegexMatcher *parseMatcher = NULL;
RegexPattern *callerPattern = NULL;
RegexMatcher *matcher = NULL;
UVector groupStarts(status);
UVector groupEnds(status);
UBool isMatch;
UBool failed = FALSE;
//
// Compile the caller's pattern
//
UnicodeString patString(pat);
callerPattern = RegexPattern::compile(patString, 0, pe, status);
if (status != expectedStatus) {
errln("Line %d: error %x compiling pattern.", line, status);
goto cleanupAndReturn;
}
// callerPattern->dump();
//
// Find the tags in the input data, remove them, and record the group boundary
// positions.
//
parsePat = RegexPattern::compile("<(/?)([0-9]+)>", 0, pe, status);
REGEX_CHECK_STATUS_L(line);
unEscapedInput = inputString.unescape();
parseMatcher = parsePat->matcher(unEscapedInput, status);
REGEX_CHECK_STATUS_L(line);
while(parseMatcher->find()) {
parseMatcher->appendReplacement(deTaggedInput, "", status);
REGEX_CHECK_STATUS;
UnicodeString groupNum = parseMatcher->group(2, status);
if (parseMatcher->group(1, status) == "/") {
// close tag
set(groupEnds, deTaggedInput.length(), groupNum);
} else {
set(groupStarts, deTaggedInput.length(), groupNum);
}
}
parseMatcher->appendTail(deTaggedInput);
REGEX_ASSERT_L(groupStarts.size() == groupEnds.size(), line);
//
// Do a find on the de-tagged input using the caller's pattern
//
matcher = callerPattern->matcher(deTaggedInput, status);
REGEX_CHECK_STATUS_L(line);
isMatch = matcher->find();
//
// Match up the groups from the find() with the groups from the tags
//
// number of tags should match number of groups from find operation.
// matcher->groupCount does not include group 0, the entire match, hence the +1.
if (isMatch == FALSE && groupStarts.size() != 0) {
errln("Error at line %d: Match expected, but none found.\n", line);
failed = TRUE;
goto cleanupAndReturn;
}
int i;
for (i=0; i<=matcher->groupCount(); i++) {
int32_t expectedStart = (i >= groupStarts.size()? -1 : groupStarts.elementAti(i));
if (matcher->start(i, status) != expectedStart) {
errln("Error at line %d: incorrect start position for group %d. Expected %d, got %d",
line, i, expectedStart, matcher->start(i, status));
failed = TRUE;
goto cleanupAndReturn; // Good chance of subsequent bogus errors. Stop now.
}
int32_t expectedEnd = (i >= groupEnds.size()? -1 : groupEnds.elementAti(i));
if (matcher->end(i, status) != expectedEnd) {
errln("Error at line %d: incorrect end position for group %d. Expected %d, got %d",
line, i, expectedEnd, matcher->end(i, status));
failed = TRUE;
// Error on end position; keep going; real error is probably yet to come as group
// end positions work from end of the input data towards the front.
}
}
if ( matcher->groupCount()+1 < groupStarts.size()) {
errln("Error at line %d: Expected %d capture groups, found %d.",
line, groupStarts.size()-1, matcher->groupCount());
failed = TRUE;
}
cleanupAndReturn:
if (failed) {
callerPattern->dump();
}
delete parseMatcher;
delete parsePat;
delete matcher;
delete callerPattern;
}
//---------------------------------------------------------------------------
//
// REGEX_ERR Macro + invocation function to simplify writing tests
// regex tests for incorrect patterns
//
// usage:
// REGEX_ERR("pattern", expected error line, column, expected status);
//
//---------------------------------------------------------------------------
#define REGEX_ERR(pat, line, col, status) regex_err(pat, line, col, status, __LINE__);
void RegexTest::regex_err(const char *pat, int32_t errLine, int32_t errCol,
UErrorCode expectedStatus, int line) {
UnicodeString pattern(pat);
UErrorCode status = U_ZERO_ERROR;
UParseError pe;
RegexPattern *callerPattern = NULL;
//
// Compile the caller's pattern
//
UnicodeString patString(pat);
callerPattern = RegexPattern::compile(patString, 0, pe, status);
if (status != expectedStatus) {
errln("Line %d: unexpected error %s compiling pattern.", line, u_errorName(status));
} else {
if (status != U_ZERO_ERROR) {
if (pe.line != errLine || pe.offset != errCol) {
errln("Line %d: incorrect line/offset from UParseError. Expected %d/%d; got %d/%d.\n",
line, errLine, errCol, pe.line, pe.offset);
}
}
}
delete callerPattern;
}
//---------------------------------------------------------------------------
//
// Basic Check for basic functionality of regex pattern matching.
// Avoid the use of REGEX_FIND test macro, which has
// substantial dependencies on basic Regex functionality.
//
//---------------------------------------------------------------------------
void RegexTest::Basic() {
//
// Debug - slide failing test cases early
//
#if 0
{
REGEX_FIND("[{ab}]", "a");
}
exit(1);
#endif
//
// Pattern with parentheses
//
REGEX_TESTLM("st(abc)ring", "stabcring thing", TRUE, FALSE);
REGEX_TESTLM("st(abc)ring", "stabcring", TRUE, TRUE);
REGEX_TESTLM("st(abc)ring", "stabcrung", FALSE, FALSE);
//
// Patterns with *
//
REGEX_TESTLM("st(abc)*ring", "string", TRUE, TRUE);
REGEX_TESTLM("st(abc)*ring", "stabcring", TRUE, TRUE);
REGEX_TESTLM("st(abc)*ring", "stabcabcring", TRUE, TRUE);
REGEX_TESTLM("st(abc)*ring", "stabcabcdring", FALSE, FALSE);
REGEX_TESTLM("st(abc)*ring", "stabcabcabcring etc.", TRUE, FALSE);
REGEX_TESTLM("a*", "", TRUE, TRUE);
REGEX_TESTLM("a*", "b", TRUE, FALSE);
//
// Patterns with "."
//
REGEX_TESTLM(".", "abc", TRUE, FALSE);
REGEX_TESTLM("...", "abc", TRUE, TRUE);
REGEX_TESTLM("....", "abc", FALSE, FALSE);
REGEX_TESTLM(".*", "abcxyz123", TRUE, TRUE);
REGEX_TESTLM("ab.*xyz", "abcdefghij", FALSE, FALSE);
REGEX_TESTLM("ab.*xyz", "abcdefg...wxyz", TRUE, TRUE);
REGEX_TESTLM("ab.*xyz", "abcde...wxyz...abc..xyz", TRUE, TRUE);
REGEX_TESTLM("ab.*xyz", "abcde...wxyz...abc..xyz...", TRUE, FALSE);
//
// Patterns with * applied to chars at end of literal string
//
REGEX_TESTLM("abc*", "ab", TRUE, TRUE);
REGEX_TESTLM("abc*", "abccccc", TRUE, TRUE);
//
// Supplemental chars match as single chars, not a pair of surrogates.
//
REGEX_TESTLM(".", "\\U00011000", TRUE, TRUE);
REGEX_TESTLM("...", "\\U00011000x\\U00012002", TRUE, TRUE);
REGEX_TESTLM("...", "\\U00011000x\\U00012002y", TRUE, FALSE);
//
// UnicodeSets in the pattern
//
REGEX_TESTLM("[1-6]", "1", TRUE, TRUE);
REGEX_TESTLM("[1-6]", "3", TRUE, TRUE);
REGEX_TESTLM("[1-6]", "7", FALSE, FALSE);
REGEX_TESTLM("a[1-6]", "a3", TRUE, TRUE);
REGEX_TESTLM("a[1-6]", "a3", TRUE, TRUE);
REGEX_TESTLM("a[1-6]b", "a3b", TRUE, TRUE);
REGEX_TESTLM("a[0-9]*b", "a123b", TRUE, TRUE);
REGEX_TESTLM("a[0-9]*b", "abc", TRUE, FALSE);
REGEX_TESTLM("[\\p{Nd}]*", "123456", TRUE, TRUE);
REGEX_TESTLM("[\\p{Nd}]*", "a123456", TRUE, FALSE); // note that * matches 0 occurences.
REGEX_TESTLM("[a][b][[:Zs:]]*", "ab ", TRUE, TRUE);
// Set contains only a string, no individual chars.
REGEX_TESTLM("[{ab}]", "a", FALSE, FALSE);
//
// OR operator in patterns
//
REGEX_TESTLM("(a|b)", "a", TRUE, TRUE);
REGEX_TESTLM("(a|b)", "b", TRUE, TRUE);
REGEX_TESTLM("(a|b)", "c", FALSE, FALSE);
REGEX_TESTLM("a|b", "b", TRUE, TRUE);
REGEX_TESTLM("(a|b|c)*", "aabcaaccbcabc", TRUE, TRUE);
REGEX_TESTLM("(a|b|c)*", "aabcaaccbcabdc", TRUE, FALSE);
REGEX_TESTLM("(a(b|c|d)(x|y|z)*|123)", "ac", TRUE, TRUE);
REGEX_TESTLM("(a(b|c|d)(x|y|z)*|123)", "123", TRUE, TRUE);
REGEX_TESTLM("(a|(1|2)*)(b|c|d)(x|y|z)*|123", "123", TRUE, TRUE);
REGEX_TESTLM("(a|(1|2)*)(b|c|d)(x|y|z)*|123", "222211111czzzzw", TRUE, FALSE);
//
// +
//
REGEX_TESTLM("ab+", "abbc", TRUE, FALSE);
REGEX_TESTLM("ab+c", "ac", FALSE, FALSE);
REGEX_TESTLM("b+", "", FALSE, FALSE);
REGEX_TESTLM("(abc|def)+", "defabc", TRUE, TRUE);
REGEX_TESTLM(".+y", "zippity dooy dah ", TRUE, FALSE);
REGEX_TESTLM(".+y", "zippity dooy", TRUE, TRUE);
//
// ?
//
REGEX_TESTLM("ab?", "ab", TRUE, TRUE);
REGEX_TESTLM("ab?", "a", TRUE, TRUE);
REGEX_TESTLM("ab?", "ac", TRUE, FALSE);
REGEX_TESTLM("ab?", "abb", TRUE, FALSE);
REGEX_TESTLM("a(b|c)?d", "abd", TRUE, TRUE);
REGEX_TESTLM("a(b|c)?d", "acd", TRUE, TRUE);
REGEX_TESTLM("a(b|c)?d", "ad", TRUE, TRUE);
REGEX_TESTLM("a(b|c)?d", "abcd", FALSE, FALSE);
REGEX_TESTLM("a(b|c)?d", "ab", FALSE, FALSE);
//
// Escape sequences that become single literal chars, handled internally
// by ICU's Unescape.
//
// REGEX_TESTLM("\101\142", "Ab", TRUE, TRUE); // Octal TODO: not implemented yet.
REGEX_TESTLM("\\a", "\\u0007", TRUE, TRUE); // BEL
REGEX_TESTLM("\\cL", "\\u000c", TRUE, TRUE); // Control-L
REGEX_TESTLM("\\e", "\\u001b", TRUE, TRUE); // Escape
REGEX_TESTLM("\\f", "\\u000c", TRUE, TRUE); // Form Feed
REGEX_TESTLM("\\n", "\\u000a", TRUE, TRUE); // new line
REGEX_TESTLM("\\r", "\\u000d", TRUE, TRUE); // CR
REGEX_TESTLM("\\t", "\\u0009", TRUE, TRUE); // Tab
REGEX_TESTLM("\\u1234", "\\u1234", TRUE, TRUE);
REGEX_TESTLM("\\U00001234", "\\u1234", TRUE, TRUE);
REGEX_TESTLM(".*\\Ax", "xyz", TRUE, FALSE); // \A matches only at the beginning of input
REGEX_TESTLM(".*\\Ax", " xyz", FALSE, FALSE); // \A matches only at the beginning of input
// Escape of special chars in patterns
REGEX_TESTLM("\\\\\\|\\(\\)\\[\\{\\~\\$\\*\\+\\?\\.", "\\\\|()[{~$*+?.", TRUE, TRUE);
};
//---------------------------------------------------------------------------
//
// API_Match Test that the API for class RegexMatcher
// is present and nominally working, but excluding functions
// implementing replace operations.
//
//---------------------------------------------------------------------------
void RegexTest::API_Match() {
UParseError pe;
UErrorCode status=U_ZERO_ERROR;
int32_t flags = 0;
//
// Debug - slide failing test cases early
//
#if 0
{
}
return;
#endif
//
// Simple pattern compilation
//
{
UnicodeString re("abc");
RegexPattern *pat2;
pat2 = RegexPattern::compile(re, flags, pe, status);
REGEX_CHECK_STATUS;
UnicodeString inStr1 = "abcdef this is a test";
UnicodeString instr2 = "not abc";
UnicodeString empty = "";
//
// Matcher creation and reset.
//
RegexMatcher *m1 = pat2->matcher(inStr1, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(m1->lookingAt(status) == TRUE);
REGEX_ASSERT(m1->input() == inStr1);
m1->reset(instr2);
REGEX_ASSERT(m1->lookingAt(status) == FALSE);
REGEX_ASSERT(m1->input() == instr2);
m1->reset(inStr1);
REGEX_ASSERT(m1->input() == inStr1);
REGEX_ASSERT(m1->lookingAt(status) == TRUE);
m1->reset(empty);
REGEX_ASSERT(m1->lookingAt(status) == FALSE);
REGEX_ASSERT(m1->input() == empty);
REGEX_ASSERT(&m1->pattern() == pat2);
delete m1;
delete pat2;
}
//
// Capture Group.
// RegexMatcher::start();
// RegexMatcher::end();
// RegexMatcher::groupCount();
//
{
int32_t flags=0;
UParseError pe;
UErrorCode status=U_ZERO_ERROR;
UnicodeString re("01(23(45)67)(.*)");
RegexPattern *pat = RegexPattern::compile(re, flags, pe, status);
REGEX_CHECK_STATUS;
UnicodeString data = "0123456789";
RegexMatcher *matcher = pat->matcher(data, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(matcher->lookingAt(status) == TRUE);
int matchStarts[] = {0, 2, 4, 8};
int matchEnds[] = {10, 8, 6, 10};
int i;
for (i=0; i<4; i++) {
int32_t actualStart = matcher->start(i, status);
REGEX_CHECK_STATUS;
if (actualStart != matchStarts[i]) {
errln("RegexTest failure at line %d, index %d. Expected %d, got %d\n",
__LINE__, i, matchStarts[i], actualStart);
}
int32_t actualEnd = matcher->end(i, status);
REGEX_CHECK_STATUS;
if (actualEnd != matchEnds[i]) {
errln("RegexTest failure at line %d index %d. Expected %d, got %d\n",
__LINE__, i, matchEnds[i], actualEnd);
}
}
REGEX_ASSERT(matcher->start(0, status) == matcher->start(status));
REGEX_ASSERT(matcher->end(0, status) == matcher->end(status));
REGEX_ASSERT_FAIL(matcher->start(-1, status), U_INDEX_OUTOFBOUNDS_ERROR);
REGEX_ASSERT_FAIL(matcher->start( 4, status), U_INDEX_OUTOFBOUNDS_ERROR);
matcher->reset();
REGEX_ASSERT_FAIL(matcher->start( 0, status), U_REGEX_INVALID_STATE);
matcher->lookingAt(status);
REGEX_ASSERT(matcher->group(status) == "0123456789");
REGEX_ASSERT(matcher->group(0, status) == "0123456789");
REGEX_ASSERT(matcher->group(1, status) == "234567" );
REGEX_ASSERT(matcher->group(2, status) == "45" );
REGEX_ASSERT(matcher->group(3, status) == "89" );
REGEX_CHECK_STATUS;
REGEX_ASSERT_FAIL(matcher->group(-1, status), U_INDEX_OUTOFBOUNDS_ERROR);
REGEX_ASSERT_FAIL(matcher->group( 4, status), U_INDEX_OUTOFBOUNDS_ERROR);
matcher->reset();
REGEX_ASSERT_FAIL(matcher->group( 0, status), U_REGEX_INVALID_STATE);
delete matcher;
delete pat;
}
//
// find
//
{
int32_t flags=0;
UParseError pe;
UErrorCode status=U_ZERO_ERROR;
UnicodeString re("abc");
RegexPattern *pat = RegexPattern::compile(re, flags, pe, status);
REGEX_CHECK_STATUS;
UnicodeString data = ".abc..abc...abc..";
// 012345678901234567
RegexMatcher *matcher = pat->matcher(data, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(matcher->find());
REGEX_ASSERT(matcher->start(status) == 1);
REGEX_ASSERT(matcher->find());
REGEX_ASSERT(matcher->start(status) == 6);
REGEX_ASSERT(matcher->find());
REGEX_ASSERT(matcher->start(status) == 12);
REGEX_ASSERT(matcher->find() == FALSE);
REGEX_ASSERT(matcher->find() == FALSE);
matcher->reset();
REGEX_ASSERT(matcher->find());
REGEX_ASSERT(matcher->start(status) == 1);
REGEX_ASSERT(matcher->find(0, status));
REGEX_ASSERT(matcher->start(status) == 1);
REGEX_ASSERT(matcher->find(1, status));
REGEX_ASSERT(matcher->start(status) == 1);
REGEX_ASSERT(matcher->find(2, status));
REGEX_ASSERT(matcher->start(status) == 6);
REGEX_ASSERT(matcher->find(12, status));
REGEX_ASSERT(matcher->start(status) == 12);
REGEX_ASSERT(matcher->find(13, status) == FALSE);
REGEX_ASSERT(matcher->find(16, status) == FALSE);
REGEX_ASSERT_FAIL(matcher->start(status), U_REGEX_INVALID_STATE);
REGEX_CHECK_STATUS;
REGEX_ASSERT_FAIL(matcher->find(-1, status), U_INDEX_OUTOFBOUNDS_ERROR);
REGEX_ASSERT_FAIL(matcher->find(17, status), U_INDEX_OUTOFBOUNDS_ERROR);
REGEX_ASSERT(matcher->groupCount() == 0);
delete matcher;
delete pat;
}
//
// find, with \G in pattern (true if at the end of a previous match).
//
{
int32_t flags=0;
UParseError pe;
UErrorCode status=U_ZERO_ERROR;
UnicodeString re(".*?(?:(\\Gabc)|(abc))");
RegexPattern *pat = RegexPattern::compile(re, flags, pe, status);
REGEX_CHECK_STATUS;
UnicodeString data = ".abcabc.abc..";
// 012345678901234567
RegexMatcher *matcher = pat->matcher(data, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(matcher->find());
REGEX_ASSERT(matcher->start(status) == 0);
REGEX_ASSERT(matcher->start(1, status) == -1);
REGEX_ASSERT(matcher->start(2, status) == 1);
REGEX_ASSERT(matcher->find());
REGEX_ASSERT(matcher->start(status) == 4);
REGEX_ASSERT(matcher->start(1, status) == 4);
REGEX_ASSERT(matcher->start(2, status) == -1);
REGEX_CHECK_STATUS;
delete matcher;
delete pat;
}
}
//---------------------------------------------------------------------------
//
// API_Replace API test for class RegexMatcher, testing the
// Replace family of functions.
//
//---------------------------------------------------------------------------
void RegexTest::API_Replace() {
//
// Replace
//
int32_t flags=0;
UParseError pe;
UErrorCode status=U_ZERO_ERROR;
UnicodeString re("abc");
RegexPattern *pat = RegexPattern::compile(re, flags, pe, status);
REGEX_CHECK_STATUS;
UnicodeString data = ".abc..abc...abc..";
// 012345678901234567
RegexMatcher *matcher = pat->matcher(data, status);
//
// Plain vanilla matches.
//
UnicodeString dest;
dest = matcher->replaceFirst("yz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == ".yz..abc...abc..");
dest = matcher->replaceAll("yz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == ".yz..yz...yz..");
//
// Plain vanilla non-matches.
//
UnicodeString d2 = ".abx..abx...abx..";
matcher->reset(d2);
dest = matcher->replaceFirst("yz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == ".abx..abx...abx..");
dest = matcher->replaceAll("yz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == ".abx..abx...abx..");
//
// Empty source string
//
UnicodeString d3 = "";
matcher->reset(d3);
dest = matcher->replaceFirst("yz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "");
dest = matcher->replaceAll("yz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "");
//
// Empty substitution string
//
matcher->reset(data); // ".abc..abc...abc.."
dest = matcher->replaceFirst("", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "...abc...abc..");
dest = matcher->replaceAll("", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "........");
//
// match whole string
//
UnicodeString d4 = "abc";
matcher->reset(d4);
dest = matcher->replaceFirst("xyz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "xyz");
dest = matcher->replaceAll("xyz", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "xyz");
//
// Capture Group, simple case
//
UnicodeString re2("a(..)");
RegexPattern *pat2 = RegexPattern::compile(re2, flags, pe, status);
REGEX_CHECK_STATUS;
UnicodeString d5 = "abcdefg";
RegexMatcher *matcher2 = pat2->matcher(d5, status);
REGEX_CHECK_STATUS;
dest = matcher2->replaceFirst("$1$1", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "bcbcdefg");
dest = matcher2->replaceFirst("The value of \\$1 is $1.", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "The value of $1 is bc.defg");
dest = matcher2->replaceFirst("$ by itself, no group number $$$", status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "$ by itself, no group number $$$defg");
UnicodeString replacement = "Supplemental Digit 1 $\\U0001D7CF.";
replacement = replacement.unescape();
dest = matcher2->replaceFirst(replacement, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(dest == "Supplemental Digit 1 bc.defg");
REGEX_ASSERT_FAIL(matcher2->replaceFirst("bad capture group number $5...",status), U_INDEX_OUTOFBOUNDS_ERROR);
// TODO: need more through testing of capture substitutions.
delete matcher2;
delete pat2;
delete matcher;
delete pat;
}
//---------------------------------------------------------------------------
//
// API_Pattern Test that the API for class RegexPattern is
// present and nominally working.
//
//---------------------------------------------------------------------------
void RegexTest::API_Pattern() {
RegexPattern pata; // Test default constructor to not crash.
RegexPattern patb;
REGEX_ASSERT(pata == patb);
REGEX_ASSERT(pata == pata);
UnicodeString re1("abc[a-l][m-z]");
UnicodeString re2("def");
UErrorCode status = U_ZERO_ERROR;
UParseError pe;
RegexPattern *pat1 = RegexPattern::compile(re1, 0, pe, status);
RegexPattern *pat2 = RegexPattern::compile(re2, 0, pe, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(*pat1 == *pat1);
REGEX_ASSERT(*pat1 != pata);
// Assign
patb = *pat1;
REGEX_ASSERT(patb == *pat1);
// Copy Construct
RegexPattern patc(*pat1);
REGEX_ASSERT(patc == *pat1);
REGEX_ASSERT(patb == patc);
REGEX_ASSERT(pat1 != pat2);
patb = *pat2;
REGEX_ASSERT(patb != patc);
REGEX_ASSERT(patb == *pat2);
// Compile with no flags.
RegexPattern *pat1a = RegexPattern::compile(re1, pe, status);
REGEX_ASSERT(*pat1a == *pat1);
#if 0
// Compile with different flags should be not equal
RegexPattern *pat1b = RegexPattern::compile(re1, UREGEX_CASE_INSENSITIVE, pe, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(*pat1b != *pat1a);
REGEX_ASSERT(pat1b->flags() == UREGEX_CASE_INSENSITIVE);
REGEX_ASSERT(pat1a->flags() == 0);
delete pat1b;
#endif // add test back in when we actually support flag settings.
// clone
RegexPattern *pat1c = pat1->clone();
REGEX_ASSERT(*pat1c == *pat1);
REGEX_ASSERT(*pat1c != *pat2);
// TODO: Actually do some matches with the cloned/copied/assigned patterns.
delete pat1c;
delete pat1a;
delete pat1;
delete pat2;
//
// matches convenience API
//
REGEX_ASSERT(RegexPattern::matches(".*", "random input", pe, status) == TRUE);
REGEX_CHECK_STATUS;
REGEX_ASSERT(RegexPattern::matches("abc", "random input", pe, status) == FALSE);
REGEX_CHECK_STATUS;
REGEX_ASSERT(RegexPattern::matches(".*nput", "random input", pe, status) == TRUE);
REGEX_CHECK_STATUS;
REGEX_ASSERT(RegexPattern::matches("random input", "random input", pe, status) == TRUE);
REGEX_CHECK_STATUS;
REGEX_ASSERT(RegexPattern::matches(".*u", "random input", pe, status) == FALSE);
REGEX_CHECK_STATUS;
status = U_INDEX_OUTOFBOUNDS_ERROR;
REGEX_ASSERT(RegexPattern::matches("abc", "abc", pe, status) == FALSE);
REGEX_ASSERT(status == U_INDEX_OUTOFBOUNDS_ERROR);
//
// Split()
//
status = U_ZERO_ERROR;
pat1 = RegexPattern::compile(" +", pe, status);
REGEX_CHECK_STATUS;
UnicodeString fields[10];
int32_t n;
n = pat1->split("Now is the time", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==4);
REGEX_ASSERT(fields[0]=="Now");
REGEX_ASSERT(fields[1]=="is");
REGEX_ASSERT(fields[2]=="the");
REGEX_ASSERT(fields[3]=="time");
REGEX_ASSERT(fields[4]=="");
n = pat1->split("Now is the time", fields, 2, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==2);
REGEX_ASSERT(fields[0]=="Now");
REGEX_ASSERT(fields[1]=="is the time");
REGEX_ASSERT(fields[2]=="the"); // left over from previous test
fields[1] = "*";
n = pat1->split("Now is the time", fields, 1, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==1);
REGEX_ASSERT(fields[0]=="Now is the time");
REGEX_ASSERT(fields[1]=="*");
n = pat1->split(" Now is the time ", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==5);
REGEX_ASSERT(fields[0]=="");
REGEX_ASSERT(fields[1]=="Now");
REGEX_ASSERT(fields[2]=="is");
REGEX_ASSERT(fields[3]=="the");
REGEX_ASSERT(fields[4]=="time");
REGEX_ASSERT(fields[5]=="");
n = pat1->split(" ", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==1);
REGEX_ASSERT(fields[0]=="");
fields[0] = "foo";
n = pat1->split("", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==0);
REGEX_ASSERT(fields[0]=="foo");
delete pat1;
// split, with a pattern with (capture)
pat1 = RegexPattern::compile("<(\\w*)>", pe, status);
REGEX_CHECK_STATUS;
n = pat1->split("<a>Now is <b>the time<c>", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==6);
REGEX_ASSERT(fields[0]=="");
REGEX_ASSERT(fields[1]=="a");
REGEX_ASSERT(fields[2]=="Now is ");
REGEX_ASSERT(fields[3]=="b");
REGEX_ASSERT(fields[4]=="the time");
REGEX_ASSERT(fields[5]=="c");
REGEX_ASSERT(fields[6]=="");
n = pat1->split(" <a>Now is <b>the time<c>", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==6);
REGEX_ASSERT(fields[0]==" ");
REGEX_ASSERT(fields[1]=="a");
REGEX_ASSERT(fields[2]=="Now is ");
REGEX_ASSERT(fields[3]=="b");
REGEX_ASSERT(fields[4]=="the time");
REGEX_ASSERT(fields[5]=="c");
REGEX_ASSERT(fields[6]=="");
n = pat1->split(" <a>Now is <b>the time<c>", fields, 4, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==4);
REGEX_ASSERT(fields[0]==" ");
REGEX_ASSERT(fields[1]=="a");
REGEX_ASSERT(fields[2]=="Now is ");
REGEX_ASSERT(fields[3]=="the time<c>");
delete pat1;
pat1 = RegexPattern::compile("([-,])", pe, status);
REGEX_CHECK_STATUS;
n = pat1->split("1-10,20", fields, 10, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(n==5);
REGEX_ASSERT(fields[0]=="1");
REGEX_ASSERT(fields[1]=="-");
REGEX_ASSERT(fields[2]=="10");
REGEX_ASSERT(fields[3]==",");
REGEX_ASSERT(fields[4]=="20");
delete pat1;
//
// RegexPattern::pattern()
//
pat1 = new RegexPattern();
REGEX_ASSERT(pat1->pattern() == "");
delete pat1;
pat1 = RegexPattern::compile("(Hello, world)*", pe, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(pat1->pattern() == "(Hello, world)*");
delete pat1;
//
// classID functions
//
pat1 = RegexPattern::compile("(Hello, world)*", pe, status);
REGEX_CHECK_STATUS;
REGEX_ASSERT(pat1->getDynamicClassID() == RegexPattern::getStaticClassID());
REGEX_ASSERT(pat1->getDynamicClassID() != NULL);
RegexMatcher *m = pat1->matcher("Hello, World", status);
REGEX_ASSERT(pat1->getDynamicClassID() != m->getDynamicClassID());
REGEX_ASSERT(m->getDynamicClassID() == RegexMatcher::getStaticClassID());
REGEX_ASSERT(m->getDynamicClassID() != NULL);
delete m;
delete pat1;
}
//---------------------------------------------------------------------------
//
// Extended A more thorough check for features of regex patterns
//
//---------------------------------------------------------------------------
void RegexTest::Extended() {
// Capturing parens
REGEX_FIND(".(..).", "<0>a<1>bc</1>d</0>");
REGEX_FIND(".*\\A( +hello)", "<0><1> hello</1></0>");
REGEX_FIND("(hello)|(goodbye)", "<0><1>hello</1></0>");
REGEX_FIND("(hello)|(goodbye)", "<0><2>goodbye</2></0>");
REGEX_FIND("abc( +( inner(X?) +) xyz)", "leading cruft <0>abc<1> <2> inner<3></3> </2> xyz</1></0> cruft");
// Non-capturing parens (?: stuff). Groups, but does not capture.
REGEX_FIND("(?:abc)*(tail)", "<0>abcabcabc<1>tail</1></0>");
// Non-greedy *? quantifier
REGEX_FIND(".*?(abc)", "<0> abx <1>abc</1></0> abc abc abc");
REGEX_FIND(".*(abc)", "<0> abx abc abc abc <1>abc</1></0>");
REGEX_FIND( "((?:abc |xyz )*?)abc ", "<0><1>xyz </1>abc </0>abc abc ");
REGEX_FIND( "((?:abc |xyz )*)abc ", "<0><1>xyz abc abc </1>abc </0>");
// Non-greedy +? quantifier
REGEX_FIND( "(a+?)(a*)", "<0><1>a</1><2>aaaaaaaaaaaa</2></0>");
REGEX_FIND( "(a+)(a*)", "<0><1>aaaaaaaaaaaaa</1><2></2></0>");
REGEX_FIND( "((ab)+?)((ab)*)", "<0><1><2>ab</2></1><3>ababababab<4>ab</4></3></0>");
REGEX_FIND( "((ab)+)((ab)*)", "<0><1>abababababab<2>ab</2></1><3></3></0>");
// Non-greedy ?? quantifier
REGEX_FIND( "(ab)(ab)\?\?(ab)\?\?(ab)\?\?(ab)\?\?c",
"<0><1>ab</1><4>ab</4><5>ab</5>c</0>");
// Unicode Properties as naked elements in a pattern
REGEX_FIND( "\\p{Lu}+", "here we go ... <0>ABC</0> and no more.");
REGEX_FIND( "(\\p{L}+)(\\P{L}*?) (\\p{Zs}*)", "7999<0><1>letters</1><2>4949%^&*(</2> <3> </3></0>");
// \w and \W
REGEX_FIND( "\\w+", " $%^&*( <0>hello123</0>%^&*(");
REGEX_FIND( "\\W+", "<0> $%^&*( </0>hello123%^&*(");
// \A match at beginning of input only.
REGEX_FIND (".*\\Ahello", "<0>hello</0> hello");
REGEX_FIND (".*hello", "<0>hello hello</0>");
REGEX_FIND(".*\\Ahello", "stuff\nhello"); // don't match after embedded new-line.
// \b \B
REGEX_FIND( ".*?\\b(.).*", "<0> $%^&*( <1>h</1>ello123%^&*()gxx</0>");
// Finds first chars of up to 5 words
REGEX_FIND( "(?:.*?\\b(\\w))?(?:.*?\\b(\\w))?(?:.*?\\b(\\w))?(?:.*?\\b(\\w))?(?:.*?\\b(\\w))?",
"<0><1>T</1>the <2>q</2>ick <3>b</3>rown <4>f</4></0>ox");
REGEX_FIND( "H.*?((?:\\B.)+)", "<0>H<1>ello</1></0> ");
REGEX_FIND( ".*?((?:\\B.)+).*?((?:\\B.)+).*?((?:\\B.)+)",
"<0>H<1>ello</1> <2> </2>g<3>oodbye</3></0> ");
REGEX_FIND("(?:.*?\\b(.))?(?:.*?\\b(.))?(?:.*?\\b(.))?(?:.*?\\b(.))?(?:.*?\\b(.))?.*",
"<0> \\u0301 \\u0301<1>A</1>\\u0302BC\\u0303\\u0304<2> </2>\\u0305 \\u0306"
"<3>X</3>\\u0307Y\\u0308</0>");
// . does not match new-lines
REGEX_FIND(".", "\\u000a\\u000d\\u0085\\u000c\\u2028\\u2029<0>X</0>\\u000aY");
REGEX_FIND("A.", "A\\u000a "); // no match
// \d for decimal digits
REGEX_FIND("\\d*", "<0>0123456789\\u0660\\u06F9\\u0969\\u0A66\\u1369"
"\\u17E2\\uFF10\\U0001D7CE\\U0001D7FF</0>non-digits");
REGEX_FIND("\\D+", "<0>non digits</0>");
REGEX_FIND("\\D*(\\d*)(\\D*)", "<0>non-digits<1>3456666</1><2>more non digits</2></0>");
// \Q...\E quote mode
REGEX_FIND("hel\\Qlo, worl\\Ed", "<0>hello, world</0>");
REGEX_FIND("\\Q$*^^(*)?\\A\\E(a*)", "<0>$*^^(*)?\\\\A<1>aaaaaaaaaaaaaaa</1></0>");
// \S and \s space characters
REGEX_FIND("\\s+", "not_space<0> \\t \\r \\n \\u3000 \\u2004 \\u2028 \\u2029</0>xyz");
REGEX_FIND("(\\S+).*?(\\S+).*", "<0><1>Not-spaces</1> <2>more-non-spaces</2> </0>");
// \X consume one combining char sequence.
REGEX_FIND("(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?",
"<0><1>A</1><2>B</2><3> </3><4>\\r\\n</4></0>");
REGEX_FIND("(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?(\\X)?",
"<0><1>A\\u0301</1><2>\n</2><3>\\u0305</3><4>a\\u0302\\u0303\\u0304</4></0>");
// ^ matches only at beginning of line
REGEX_FIND(".*^(Hello)", "<0><1>Hello</1></0> Hello Hello Hello Goodbye");
REGEX_FIND(".*(Hello)", "<0>Hello Hello Hello <1>Hello</1></0> Goodbye");
REGEX_FIND(".*^(Hello)", " Hello Hello Hello Hello Goodbye"); // No Match
// $ matches only at end of line, or before a newline preceding the end of line
REGEX_FIND(".*?(Goodbye)$", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>");
REGEX_FIND(".*?(Goodbye)", "<0>Hello <1>Goodbye</1></0> Goodbye Goodbye");
REGEX_FIND(".*?(Goodbye)$", "Hello Goodbye> Goodbye Goodbye "); // No Match
REGEX_FIND(".*?(Goodbye)$", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>\\n");
REGEX_FIND(".*?(Goodbye)$", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>\\n");
REGEX_FIND(".*?(Goodbye)$", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>\\r\\n");
REGEX_FIND(".*?(Goodbye)$", "Hello Goodbye Goodbye Goodbye\\n\\n"); // No Match
// \Z matches at end of input, like $ with default flags.
REGEX_FIND(".*?(Goodbye)\\Z", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>");
REGEX_FIND(".*?(Goodbye)", "<0>Hello <1>Goodbye</1></0> Goodbye Goodbye");
REGEX_FIND(".*?(Goodbye)\\Z", "Hello Goodbye> Goodbye Goodbye "); // No Match
REGEX_FIND("here$", "here\\nthe end"); // No Match
REGEX_FIND(".*?(Goodbye)\\Z", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>\\n");
REGEX_FIND(".*?(Goodbye)\\Z", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>\\n");
REGEX_FIND(".*?(Goodbye)\\Z", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>\\r\\n");
REGEX_FIND(".*?(Goodbye)\\Z", "Hello Goodbye Goodbye Goodbye\\n\\n"); // No Match
// \z matches only at the end of string.
// no special treatment of new lines.
// no dependencies on flag settings.
REGEX_FIND(".*?(Goodbye)\\z", "<0>Hello Goodbye Goodbye <1>Goodbye</1></0>");
REGEX_FIND(".*?(Goodbye)\\z", "Hello Goodbye Goodbye Goodbye "); // No Match
REGEX_FIND("here$", "here\\nthe end"); // No Match
REGEX_FIND(".*?(Goodbye)\\z", "Hello Goodbye Goodbye Goodbye\\n"); // No Match
REGEX_FIND(".*?(Goodbye)\\n\\z", "<0>Hello Goodbye Goodbye <1>Goodbye</1>\\n</0>");
// (?# comment) doesn't muck up pattern
REGEX_FIND("Hello (?# this is a comment) world", " <0>Hello world</0>...");
// Check some implementation corner cases base on the way literal strings are compiled.
REGEX_FIND("A", "<0>A</0>");
REGEX_FIND("AB", "<0>AB</0>ABABAB");
REGEX_FIND("AB+", "<0>ABBB</0>A");
REGEX_FIND("AB+", "<0>AB</0>ABAB");
REGEX_FIND("ABC+", "<0>ABC</0>ABC");
REGEX_FIND("ABC+", "<0>ABCCCC</0>ABC");
REGEX_FIND("(?:ABC)+", "<0>ABCABCABC</0>D");
REGEX_FIND("(?:ABC)DEF+", "<0>ABCDEFFF</0>D");
REGEX_FIND("AB\\.C\\eD\\u0666E", "<0>AB.C\\u001BD\\u0666E</0>F");
}
//---------------------------------------------------------------------------
//
// Errors Check for error handling in patterns.
//
//---------------------------------------------------------------------------
void RegexTest::Errors() {
// \escape sequences that aren't implemented yet.
REGEX_ERR("No (support) for \\1 BackReferences yet.", 1, 19, U_REGEX_UNIMPLEMENTED);
REGEX_ERR("named chars \\N{GREEK CAPITAL LETTER ALPHA} not implementd", 1, 14, U_REGEX_UNIMPLEMENTED);
REGEX_ERR("hex format \\x{abcd} not implemented", 1, 13, U_REGEX_UNIMPLEMENTED);
// Missing close parentheses
REGEX_ERR("Comment (?# with no close", 1, 25, U_REGEX_MISMATCHED_PAREN);
REGEX_ERR("Capturing Parenthesis(...", 1, 25, U_REGEX_MISMATCHED_PAREN);
REGEX_ERR("Grouping only parens (?: blah blah", 1, 34, U_REGEX_MISMATCHED_PAREN);
// Extra close paren
REGEX_ERR("Grouping only parens (?: blah)) blah", 1, 31, U_REGEX_MISMATCHED_PAREN);
REGEX_ERR(")))))))", 1, 1, U_REGEX_RULE_SYNTAX);
REGEX_ERR("(((((((", 1, 7, U_REGEX_MISMATCHED_PAREN);
// Flag settings not yet implemented
REGEX_ERR("(?i:stuff*)", 1, 3, U_REGEX_UNIMPLEMENTED);
REGEX_ERR("(?-si) stuff", 1, 3, U_REGEX_UNIMPLEMENTED);
// Look-ahead, Look-behind
REGEX_ERR("abc(?=xyz).*", 1, 6, U_REGEX_UNIMPLEMENTED); // look-ahead
REGEX_ERR("abc(?!xyz).*", 1, 6, U_REGEX_UNIMPLEMENTED); // negated look-ahead
REGEX_ERR("abc(?<=xyz).*", 1, 7, U_REGEX_UNIMPLEMENTED); // look-behind
REGEX_ERR("abc(?<!xyz).*", 1, 7, U_REGEX_UNIMPLEMENTED); // negated look-behind
REGEX_ERR("abc(?<@xyz).*", 1, 7, U_REGEX_RULE_SYNTAX); // illegal construct
// Atomic Grouping
REGEX_ERR("abc(?>xyz)", 1, 6, U_REGEX_UNIMPLEMENTED);
// {Numeric Quantifiers}
REGEX_ERR("abc{4}", 1, 5, U_REGEX_UNIMPLEMENTED);
// Attempt to use non-default flags
{
UParseError pe;
UErrorCode status = U_ZERO_ERROR;
int32_t flags = UREGEX_CASE_INSENSITIVE | UREGEX_CANON_EQ |
UREGEX_COMMENTS | UREGEX_DOTALL |
UREGEX_MULTILINE;
RegexPattern *pat1= RegexPattern::compile(".*", UREGEX_CASE_INSENSITIVE, pe, status);
REGEX_ASSERT(status == U_REGEX_UNIMPLEMENTED);
delete pat1;
}
// Quantifiers are allowed only after something that can be quantified.
REGEX_ERR("+", 1, 1, U_REGEX_RULE_SYNTAX);
REGEX_ERR("abc\ndef(*2)", 2, 5, U_REGEX_RULE_SYNTAX);
REGEX_ERR("abc**", 1, 5, U_REGEX_RULE_SYNTAX);
}
#endif /* !UCONFIG_NO_REGULAR_EXPRESSIONS */