/////////////////////////////////////////////////////////////////////////////// // Name: src/common/regex.cpp // Purpose: regular expression matching // Author: Karsten Ballueder and Vadim Zeitlin // Modified by: // Created: 13.07.01 // Copyright: (c) 2000 Karsten Ballueder // 2001 Vadim Zeitlin // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #if wxUSE_REGEX #include "wx/regex.h" #ifndef WX_PRECOMP #include "wx/object.h" #include "wx/log.h" #include "wx/intl.h" #include "wx/crt.h" #endif //WX_PRECOMP // FreeBSD, Watcom and DMars require this, CW doesn't have nor need it. // Others also don't seem to need it. If you have an error related to // (not) including please report details to // wx-dev@lists.wxwindows.org #if defined(__UNIX__) || defined(__WATCOMC__) || defined(__DIGITALMARS__) # include #endif #include // WXREGEX_USING_BUILTIN defined when using the built-in regex lib // WXREGEX_USING_RE_SEARCH defined when using re_search in the GNU regex lib // WXREGEX_IF_NEED_LEN() wrap the len parameter only used with the built-in // or GNU regex // WXREGEX_CONVERT_TO_MB defined when the regex lib is using chars and // wxChar is wide, so conversion must be done // WXREGEX_CHAR(x) Convert wxChar to wxRegChar // #ifdef __REG_NOFRONT # define WXREGEX_USING_BUILTIN # define WXREGEX_IF_NEED_LEN(x) ,x # if wxUSE_UNICODE # define WXREGEX_CHAR(x) (x).wc_str() # else # define WXREGEX_CHAR(x) (x).mb_str() # endif #else # ifdef HAVE_RE_SEARCH # define WXREGEX_IF_NEED_LEN(x) ,x # define WXREGEX_USING_RE_SEARCH # else # define WXREGEX_IF_NEED_LEN(x) # endif # if wxUSE_UNICODE # define WXREGEX_CONVERT_TO_MB # endif # define WXREGEX_CHAR(x) (x).mb_str() # define wx_regfree regfree # define wx_regerror regerror #endif // ---------------------------------------------------------------------------- // private classes // ---------------------------------------------------------------------------- #ifndef WXREGEX_USING_RE_SEARCH // the array of offsets for the matches, the usual POSIX regmatch_t array. class wxRegExMatches { public: typedef regmatch_t *match_type; wxRegExMatches(size_t n) { m_matches = new regmatch_t[n]; } ~wxRegExMatches() { delete [] m_matches; } // we just use casts here because the fields of regmatch_t struct may be 64 // bit but we're limited to size_t in our public API and are not going to // change it because operating on strings longer than 4GB using it is // absolutely impractical anyhow size_t Start(size_t n) const { return wx_truncate_cast(size_t, m_matches[n].rm_so); } size_t End(size_t n) const { return wx_truncate_cast(size_t, m_matches[n].rm_eo); } regmatch_t *get() const { return m_matches; } private: regmatch_t *m_matches; }; #else // WXREGEX_USING_RE_SEARCH // the array of offsets for the matches, the struct used by the GNU lib class wxRegExMatches { public: typedef re_registers *match_type; wxRegExMatches(size_t n) { m_matches.num_regs = n; m_matches.start = new regoff_t[n]; m_matches.end = new regoff_t[n]; } ~wxRegExMatches() { delete [] m_matches.start; delete [] m_matches.end; } size_t Start(size_t n) const { return m_matches.start[n]; } size_t End(size_t n) const { return m_matches.end[n]; } re_registers *get() { return &m_matches; } private: re_registers m_matches; }; #endif // WXREGEX_USING_RE_SEARCH // the character type used by the regular expression engine #ifndef WXREGEX_CONVERT_TO_MB typedef wxChar wxRegChar; #else typedef char wxRegChar; #endif // the real implementation of wxRegEx class wxRegExImpl { public: // ctor and dtor wxRegExImpl(); ~wxRegExImpl(); // return true if Compile() had been called successfully bool IsValid() const { return m_isCompiled; } // RE operations bool Compile(const wxString& expr, int flags = 0); bool Matches(const wxRegChar *str, int flags WXREGEX_IF_NEED_LEN(size_t len)) const; bool GetMatch(size_t *start, size_t *len, size_t index = 0) const; size_t GetMatchCount() const; int Replace(wxString *pattern, const wxString& replacement, size_t maxMatches = 0) const; private: // return the string containing the error message for the given err code wxString GetErrorMsg(int errorcode, bool badconv) const; // init the members void Init() { m_isCompiled = false; m_Matches = NULL; m_nMatches = 0; } // free the RE if compiled void Free() { if ( IsValid() ) { wx_regfree(&m_RegEx); } delete m_Matches; } // free the RE if any and reinit the members void Reinit() { Free(); Init(); } // compiled RE regex_t m_RegEx; // the subexpressions data wxRegExMatches *m_Matches; size_t m_nMatches; // true if m_RegEx is valid bool m_isCompiled; }; // ============================================================================ // implementation // ============================================================================ // ---------------------------------------------------------------------------- // wxRegExImpl // ---------------------------------------------------------------------------- wxRegExImpl::wxRegExImpl() { Init(); } wxRegExImpl::~wxRegExImpl() { Free(); } wxString wxRegExImpl::GetErrorMsg(int errorcode, bool badconv) const { #ifdef WXREGEX_CONVERT_TO_MB // currently only needed when using system library in Unicode mode if ( badconv ) { return _("conversion to 8-bit encoding failed"); } #else // 'use' badconv to avoid a compiler warning (void)badconv; #endif wxString szError; // first get the string length needed int len = wx_regerror(errorcode, &m_RegEx, NULL, 0); if ( len > 0 ) { char* szcmbError = new char[++len]; (void)wx_regerror(errorcode, &m_RegEx, szcmbError, len); szError = wxConvLibc.cMB2WX(szcmbError); delete [] szcmbError; } else // regerror() returned 0 { szError = _("unknown error"); } return szError; } bool wxRegExImpl::Compile(const wxString& expr, int flags) { Reinit(); #ifdef WX_NO_REGEX_ADVANCED # define FLAVORS wxRE_BASIC #else # define FLAVORS (wxRE_ADVANCED | wxRE_BASIC) wxASSERT_MSG( (flags & FLAVORS) != FLAVORS, wxT("incompatible flags in wxRegEx::Compile") ); #endif wxASSERT_MSG( !(flags & ~(FLAVORS | wxRE_ICASE | wxRE_NOSUB | wxRE_NEWLINE)), wxT("unrecognized flags in wxRegEx::Compile") ); // translate our flags to regcomp() ones int flagsRE = 0; if ( !(flags & wxRE_BASIC) ) { #ifndef WX_NO_REGEX_ADVANCED if (flags & wxRE_ADVANCED) flagsRE |= REG_ADVANCED; else #endif flagsRE |= REG_EXTENDED; } if ( flags & wxRE_ICASE ) flagsRE |= REG_ICASE; if ( flags & wxRE_NOSUB ) flagsRE |= REG_NOSUB; if ( flags & wxRE_NEWLINE ) flagsRE |= REG_NEWLINE; // compile it #ifdef WXREGEX_USING_BUILTIN bool conv = true; // FIXME-UTF8: use wc_str() after removing ANSI build int errorcode = wx_re_comp(&m_RegEx, expr.c_str(), expr.length(), flagsRE); #else // FIXME-UTF8: this is potentially broken, we shouldn't even try it // and should always use builtin regex library (or PCRE?) const wxWX2MBbuf conv = expr.mbc_str(); int errorcode = conv ? regcomp(&m_RegEx, conv, flagsRE) : REG_BADPAT; #endif if ( errorcode ) { wxLogError(_("Invalid regular expression '%s': %s"), expr.c_str(), GetErrorMsg(errorcode, !conv).c_str()); m_isCompiled = false; } else // ok { // don't allocate the matches array now, but do it later if necessary if ( flags & wxRE_NOSUB ) { // we don't need it at all m_nMatches = 0; } else { // we will alloc the array later (only if really needed) but count // the number of sub-expressions in the regex right now // there is always one for the whole expression m_nMatches = 1; // and some more for bracketed subexperessions for ( const wxChar *cptr = expr.c_str(); *cptr; cptr++ ) { if ( *cptr == wxT('\\') ) { // in basic RE syntax groups are inside \(...\) if ( *++cptr == wxT('(') && (flags & wxRE_BASIC) ) { m_nMatches++; } } else if ( *cptr == wxT('(') && !(flags & wxRE_BASIC) ) { // we know that the previous character is not an unquoted // backslash because it would have been eaten above, so we // have a bare '(' and this indicates a group start for the // extended syntax. '(?' is used for extensions by perl- // like REs (e.g. advanced), and is not valid for POSIX // extended, so ignore them always. if ( cptr[1] != wxT('?') ) m_nMatches++; } } } m_isCompiled = true; } return IsValid(); } #ifdef WXREGEX_USING_RE_SEARCH // On GNU, regexec is implemented as a wrapper around re_search. re_search // requires a length parameter which the POSIX regexec does not have, // therefore regexec must do a strlen on the search text each time it is // called. This can drastically affect performance when matching is done in // a loop along a string, such as during a search and replace. Therefore if // re_search is detected by configure, it is used directly. // static int ReSearch(const regex_t *preg, const char *text, size_t len, re_registers *matches, int eflags) { regex_t *pattern = const_cast(preg); pattern->not_bol = (eflags & REG_NOTBOL) != 0; pattern->not_eol = (eflags & REG_NOTEOL) != 0; pattern->regs_allocated = REGS_FIXED; int ret = re_search(pattern, text, len, 0, len, matches); return ret >= 0 ? 0 : REG_NOMATCH; } #endif // WXREGEX_USING_RE_SEARCH bool wxRegExImpl::Matches(const wxRegChar *str, int flags WXREGEX_IF_NEED_LEN(size_t len)) const { wxCHECK_MSG( IsValid(), false, wxT("must successfully Compile() first") ); // translate our flags to regexec() ones wxASSERT_MSG( !(flags & ~(wxRE_NOTBOL | wxRE_NOTEOL)), wxT("unrecognized flags in wxRegEx::Matches") ); int flagsRE = 0; if ( flags & wxRE_NOTBOL ) flagsRE |= REG_NOTBOL; if ( flags & wxRE_NOTEOL ) flagsRE |= REG_NOTEOL; // allocate matches array if needed wxRegExImpl *self = wxConstCast(this, wxRegExImpl); if ( !m_Matches && m_nMatches ) { self->m_Matches = new wxRegExMatches(m_nMatches); } wxRegExMatches::match_type matches = m_Matches ? m_Matches->get() : NULL; // do match it #if defined WXREGEX_USING_BUILTIN int rc = wx_re_exec(&self->m_RegEx, str, len, NULL, m_nMatches, matches, flagsRE); #elif defined WXREGEX_USING_RE_SEARCH int rc = str ? ReSearch(&self->m_RegEx, str, len, matches, flagsRE) : REG_BADPAT; #else int rc = str ? regexec(&self->m_RegEx, str, m_nMatches, matches, flagsRE) : REG_BADPAT; #endif switch ( rc ) { case 0: // matched successfully return true; default: // an error occurred wxLogError(_("Failed to find match for regular expression: %s"), GetErrorMsg(rc, !str).c_str()); // fall through case REG_NOMATCH: // no match return false; } } bool wxRegExImpl::GetMatch(size_t *start, size_t *len, size_t index) const { wxCHECK_MSG( IsValid(), false, wxT("must successfully Compile() first") ); wxCHECK_MSG( m_nMatches, false, wxT("can't use with wxRE_NOSUB") ); wxCHECK_MSG( m_Matches, false, wxT("must call Matches() first") ); wxCHECK_MSG( index < m_nMatches, false, wxT("invalid match index") ); if ( start ) *start = m_Matches->Start(index); if ( len ) *len = m_Matches->End(index) - m_Matches->Start(index); return true; } size_t wxRegExImpl::GetMatchCount() const { wxCHECK_MSG( IsValid(), 0, wxT("must successfully Compile() first") ); wxCHECK_MSG( m_nMatches, 0, wxT("can't use with wxRE_NOSUB") ); return m_nMatches; } int wxRegExImpl::Replace(wxString *text, const wxString& replacement, size_t maxMatches) const { wxCHECK_MSG( text, wxNOT_FOUND, wxT("NULL text in wxRegEx::Replace") ); wxCHECK_MSG( IsValid(), wxNOT_FOUND, wxT("must successfully Compile() first") ); // the input string #ifndef WXREGEX_CONVERT_TO_MB const wxChar *textstr = text->c_str(); size_t textlen = text->length(); #else const wxWX2MBbuf textstr = WXREGEX_CHAR(*text); if (!textstr) { wxLogError(_("Failed to find match for regular expression: %s"), GetErrorMsg(0, true).c_str()); return 0; } size_t textlen = strlen(textstr); text->clear(); #endif // the replacement text wxString textNew; // the result, allow 25% extra wxString result; result.reserve(5 * textlen / 4); // attempt at optimization: don't iterate over the string if it doesn't // contain back references at all bool mayHaveBackrefs = replacement.find_first_of(wxT("\\&")) != wxString::npos; if ( !mayHaveBackrefs ) { textNew = replacement; } // the position where we start looking for the match size_t matchStart = 0; // number of replacement made: we won't make more than maxMatches of them // (unless maxMatches is 0 which doesn't limit the number of replacements) size_t countRepl = 0; // note that "^" shouldn't match after the first call to Matches() so we // use wxRE_NOTBOL to prevent it from happening while ( (!maxMatches || countRepl < maxMatches) && Matches( #ifndef WXREGEX_CONVERT_TO_MB textstr + matchStart, #else textstr.data() + matchStart, #endif countRepl ? wxRE_NOTBOL : 0 WXREGEX_IF_NEED_LEN(textlen - matchStart)) ) { // the string possibly contains back references: we need to calculate // the replacement text anew after each match if ( mayHaveBackrefs ) { mayHaveBackrefs = false; textNew.clear(); textNew.reserve(replacement.length()); for ( const wxChar *p = replacement.c_str(); *p; p++ ) { size_t index = (size_t)-1; if ( *p == wxT('\\') ) { if ( wxIsdigit(*++p) ) { // back reference wxChar *end; index = (size_t)wxStrtoul(p, &end, 10); p = end - 1; // -1 to compensate for p++ in the loop } //else: backslash used as escape character } else if ( *p == wxT('&') ) { // treat this as "\0" for compatbility with ed and such index = 0; } // do we have a back reference? if ( index != (size_t)-1 ) { // yes, get its text size_t start, len; if ( !GetMatch(&start, &len, index) ) { wxFAIL_MSG( wxT("invalid back reference") ); // just eat it... } else { textNew += wxString( #ifndef WXREGEX_CONVERT_TO_MB textstr #else textstr.data() #endif + matchStart + start, *wxConvCurrent, len); mayHaveBackrefs = true; } } else // ordinary character { textNew += *p; } } } size_t start, len; if ( !GetMatch(&start, &len) ) { // we did have match as Matches() returned true above! wxFAIL_MSG( wxT("internal logic error in wxRegEx::Replace") ); return wxNOT_FOUND; } // an insurance against implementations that don't grow exponentially // to ensure building the result takes linear time if (result.capacity() < result.length() + start + textNew.length()) result.reserve(2 * result.length()); #ifndef WXREGEX_CONVERT_TO_MB result.append(*text, matchStart, start); #else result.append(wxString(textstr.data() + matchStart, *wxConvCurrent, start)); #endif matchStart += start; result.append(textNew); countRepl++; matchStart += len; } #ifndef WXREGEX_CONVERT_TO_MB result.append(*text, matchStart, wxString::npos); #else result.append(wxString(textstr.data() + matchStart, *wxConvCurrent)); #endif *text = result; return countRepl; } // ---------------------------------------------------------------------------- // wxRegEx: all methods are mostly forwarded to wxRegExImpl // ---------------------------------------------------------------------------- void wxRegEx::Init() { m_impl = NULL; } wxRegEx::~wxRegEx() { delete m_impl; } bool wxRegEx::Compile(const wxString& expr, int flags) { if ( !m_impl ) { m_impl = new wxRegExImpl; } if ( !m_impl->Compile(expr, flags) ) { // error message already given in wxRegExImpl::Compile wxDELETE(m_impl); return false; } return true; } bool wxRegEx::Matches(const wxString& str, int flags) const { wxCHECK_MSG( IsValid(), false, wxT("must successfully Compile() first") ); return m_impl->Matches(WXREGEX_CHAR(str), flags WXREGEX_IF_NEED_LEN(str.length())); } bool wxRegEx::GetMatch(size_t *start, size_t *len, size_t index) const { wxCHECK_MSG( IsValid(), false, wxT("must successfully Compile() first") ); return m_impl->GetMatch(start, len, index); } wxString wxRegEx::GetMatch(const wxString& text, size_t index) const { size_t start, len; if ( !GetMatch(&start, &len, index) ) return wxEmptyString; return text.Mid(start, len); } size_t wxRegEx::GetMatchCount() const { wxCHECK_MSG( IsValid(), 0, wxT("must successfully Compile() first") ); return m_impl->GetMatchCount(); } int wxRegEx::Replace(wxString *pattern, const wxString& replacement, size_t maxMatches) const { wxCHECK_MSG( IsValid(), wxNOT_FOUND, wxT("must successfully Compile() first") ); return m_impl->Replace(pattern, replacement, maxMatches); } #endif // wxUSE_REGEX