/* * * Copyright (c) 1998-2002 * John Maddock * * Use, modification and distribution are subject to the * Boost Software License, Version 1.0. (See accompanying file * LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) * */ /* * LOCATION: see http://www.boost.org for most recent version. * FILE: cregex.cpp * VERSION: see * DESCRIPTION: Implements high level class boost::RexEx */ #define BOOST_REGEX_SOURCE #include #include #if !defined(BOOST_NO_STD_STRING) #include #include #include typedef boost::match_flag_type match_flag_type; #include #ifdef BOOST_MSVC #pragma warning(disable:4309) #endif #ifdef BOOST_INTEL #pragma warning(disable:981 383) #endif namespace boost{ #ifdef BOOST_BORLANDC #if BOOST_BORLANDC < 0x530 // // we need to instantiate the vector classes we use // since declaring a reference to type doesn't seem to // do the job... std::vector inst1; std::vector inst2; #endif #endif namespace{ template std::string to_string(iterator i, iterator j) { std::string s; while(i != j) { s.append(1, *i); ++i; } return s; } inline std::string to_string(const char* i, const char* j) { return std::string(i, j); } } namespace BOOST_REGEX_DETAIL_NS{ #ifdef BOOST_MSVC # pragma warning(push) #pragma warning(disable:26812) #endif class RegExData { public: enum type { type_pc, type_pf, type_copy }; regex e; cmatch m; #ifndef BOOST_REGEX_NO_FILEITER match_results fm; #endif type t; const char* pbase; #ifndef BOOST_REGEX_NO_FILEITER mapfile::iterator fbase; #endif std::map > strings; std::map > positions; void update(); void clean(); RegExData() : e(), m(), #ifndef BOOST_REGEX_NO_FILEITER fm(), #endif t(type_copy), pbase(0), #ifndef BOOST_REGEX_NO_FILEITER fbase(), #endif strings(), positions() {} }; #ifdef BOOST_MSVC # pragma warning(pop) #endif void RegExData::update() { strings.erase(strings.begin(), strings.end()); positions.erase(positions.begin(), positions.end()); if(t == type_pc) { for(unsigned int i = 0; i < m.size(); ++i) { if(m[i].matched) strings[i] = std::string(m[i].first, m[i].second); positions[i] = m[i].matched ? m[i].first - pbase : -1; } } #ifndef BOOST_REGEX_NO_FILEITER else { for(unsigned int i = 0; i < fm.size(); ++i) { if(fm[i].matched) strings[i] = to_string(fm[i].first, fm[i].second); positions[i] = fm[i].matched ? fm[i].first - fbase : -1; } } #endif t = type_copy; } void RegExData::clean() { #ifndef BOOST_REGEX_NO_FILEITER fbase = mapfile::iterator(); fm = match_results(); #endif } } // namespace RegEx::RegEx() { pdata = new BOOST_REGEX_DETAIL_NS::RegExData(); } RegEx::RegEx(const RegEx& o) { pdata = new BOOST_REGEX_DETAIL_NS::RegExData(*(o.pdata)); } RegEx::~RegEx() { delete pdata; } RegEx::RegEx(const char* c, bool icase) { pdata = new BOOST_REGEX_DETAIL_NS::RegExData(); SetExpression(c, icase); } RegEx::RegEx(const std::string& s, bool icase) { pdata = new BOOST_REGEX_DETAIL_NS::RegExData(); SetExpression(s.c_str(), icase); } RegEx& RegEx::operator=(const RegEx& o) { *pdata = *(o.pdata); return *this; } RegEx& RegEx::operator=(const char* p) { SetExpression(p, false); return *this; } unsigned int RegEx::SetExpression(const char* p, bool icase) { boost::uint_fast32_t f = icase ? regex::normal | regex::icase : regex::normal; return pdata->e.set_expression(p, f); } unsigned int RegEx::error_code()const { return pdata->e.error_code(); } std::string RegEx::Expression()const { return pdata->e.expression(); } // // now matching operators: // bool RegEx::Match(const char* p, match_flag_type flags) { pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pc; pdata->pbase = p; const char* end = p; while(*end)++end; if(regex_match(p, end, pdata->m, pdata->e, flags)) { pdata->update(); return true; } return false; } bool RegEx::Search(const char* p, match_flag_type flags) { pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pc; pdata->pbase = p; const char* end = p; while(*end)++end; if(regex_search(p, end, pdata->m, pdata->e, flags)) { pdata->update(); return true; } return false; } namespace BOOST_REGEX_DETAIL_NS{ struct pred1 { GrepCallback cb; RegEx* pe; pred1(GrepCallback c, RegEx* i) : cb(c), pe(i) {} bool operator()(const cmatch& m) { pe->pdata->m = m; return cb(*pe); } }; } unsigned int RegEx::Grep(GrepCallback cb, const char* p, match_flag_type flags) { pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pc; pdata->pbase = p; const char* end = p; while(*end)++end; unsigned int result = regex_grep(BOOST_REGEX_DETAIL_NS::pred1(cb, this), p, end, pdata->e, flags); if(result) pdata->update(); return result; } namespace BOOST_REGEX_DETAIL_NS{ struct pred2 { std::vector& v; RegEx* pe; pred2(std::vector& o, RegEx* e) : v(o), pe(e) {} bool operator()(const cmatch& m) { pe->pdata->m = m; v.push_back(std::string(m[0].first, m[0].second)); return true; } private: pred2& operator=(const pred2&); }; } unsigned int RegEx::Grep(std::vector& v, const char* p, match_flag_type flags) { pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pc; pdata->pbase = p; const char* end = p; while(*end)++end; unsigned int result = regex_grep(BOOST_REGEX_DETAIL_NS::pred2(v, this), p, end, pdata->e, flags); if(result) pdata->update(); return result; } namespace BOOST_REGEX_DETAIL_NS{ struct pred3 { std::vector& v; const char* base; RegEx* pe; pred3(std::vector& o, const char* pb, RegEx* p) : v(o), base(pb), pe(p) {} bool operator()(const cmatch& m) { pe->pdata->m = m; v.push_back(static_cast(m[0].first - base)); return true; } private: pred3& operator=(const pred3&); }; } unsigned int RegEx::Grep(std::vector& v, const char* p, match_flag_type flags) { pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pc; pdata->pbase = p; const char* end = p; while(*end)++end; unsigned int result = regex_grep(BOOST_REGEX_DETAIL_NS::pred3(v, p, this), p, end, pdata->e, flags); if(result) pdata->update(); return result; } #ifndef BOOST_REGEX_NO_FILEITER namespace BOOST_REGEX_DETAIL_NS{ struct pred4 { GrepFileCallback cb; RegEx* pe; const char* file; bool ok; pred4(GrepFileCallback c, RegEx* i, const char* f) : cb(c), pe(i), file(f), ok(true) {} bool operator()(const match_results& m) { pe->pdata->t = RegExData::type_pf; pe->pdata->fm = m; pe->pdata->update(); ok = cb(file, *pe); return ok; } }; } namespace{ void BuildFileList(std::list* pl, const char* files, bool recurse) { file_iterator start(files); file_iterator end; if(recurse) { // go through sub directories: char buf[MAX_PATH]; BOOST_REGEX_DETAIL_NS::overflow_error_if_not_zero(BOOST_REGEX_DETAIL_NS::strcpy_s(buf, MAX_PATH, start.root())); if(*buf == 0) { BOOST_REGEX_DETAIL_NS::overflow_error_if_not_zero(BOOST_REGEX_DETAIL_NS::strcpy_s(buf, MAX_PATH, ".")); BOOST_REGEX_DETAIL_NS::overflow_error_if_not_zero(BOOST_REGEX_DETAIL_NS::strcat_s(buf, MAX_PATH, directory_iterator::separator())); BOOST_REGEX_DETAIL_NS::overflow_error_if_not_zero(BOOST_REGEX_DETAIL_NS::strcat_s(buf, MAX_PATH, "*")); } else { BOOST_REGEX_DETAIL_NS::overflow_error_if_not_zero(BOOST_REGEX_DETAIL_NS::strcat_s(buf, MAX_PATH, directory_iterator::separator())); BOOST_REGEX_DETAIL_NS::overflow_error_if_not_zero(BOOST_REGEX_DETAIL_NS::strcat_s(buf, MAX_PATH, "*")); } directory_iterator dstart(buf); directory_iterator dend; // now get the file mask bit of "files": const char* ptr = files; while(*ptr) ++ptr; while((ptr != files) && (*ptr != *directory_iterator::separator()) && (*ptr != '/'))--ptr; if(ptr != files) ++ptr; while(dstart != dend) { // Verify that sprintf will not overflow: if(std::strlen(dstart.path()) + std::strlen(directory_iterator::separator()) + std::strlen(ptr) >= MAX_PATH) { // Oops overflow, skip this item: ++dstart; continue; } #if BOOST_WORKAROUND(BOOST_MSVC, >= 1400) && !defined(_WIN32_WCE) && !defined(UNDER_CE) int r = (::sprintf_s)(buf, sizeof(buf), "%s%s%s", dstart.path(), directory_iterator::separator(), ptr); #else int r = (std::sprintf)(buf, "%s%s%s", dstart.path(), directory_iterator::separator(), ptr); #endif if(r < 0) { // sprintf failed, skip this item: ++dstart; continue; } BuildFileList(pl, buf, recurse); ++dstart; } } while(start != end) { pl->push_back(*start); ++start; } } } unsigned int RegEx::GrepFiles(GrepFileCallback cb, const char* files, bool recurse, match_flag_type flags) { unsigned int result = 0; std::list file_list; BuildFileList(&file_list, files, recurse); std::list::iterator start, end; start = file_list.begin(); end = file_list.end(); while(start != end) { mapfile map((*start).c_str()); pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pf; pdata->fbase = map.begin(); BOOST_REGEX_DETAIL_NS::pred4 pred(cb, this, (*start).c_str()); int r = regex_grep(pred, map.begin(), map.end(), pdata->e, flags); result += r; ++start; pdata->clean(); if(pred.ok == false) return result; } return result; } unsigned int RegEx::FindFiles(FindFilesCallback cb, const char* files, bool recurse, match_flag_type flags) { unsigned int result = 0; std::list file_list; BuildFileList(&file_list, files, recurse); std::list::iterator start, end; start = file_list.begin(); end = file_list.end(); while(start != end) { mapfile map((*start).c_str()); pdata->t = BOOST_REGEX_DETAIL_NS::RegExData::type_pf; pdata->fbase = map.begin(); if(regex_search(map.begin(), map.end(), pdata->fm, pdata->e, flags)) { ++result; if(false == cb((*start).c_str())) return result; } //pdata->update(); ++start; //pdata->clean(); } return result; } #endif #ifdef BOOST_REGEX_V3 #define regex_replace regex_merge #endif std::string RegEx::Merge(const std::string& in, const std::string& fmt, bool copy, match_flag_type flags) { std::string result; BOOST_REGEX_DETAIL_NS::string_out_iterator i(result); if(!copy) flags |= format_no_copy; regex_replace(i, in.begin(), in.end(), pdata->e, fmt.c_str(), flags); return result; } std::string RegEx::Merge(const char* in, const char* fmt, bool copy, match_flag_type flags) { std::string result; if(!copy) flags |= format_no_copy; BOOST_REGEX_DETAIL_NS::string_out_iterator i(result); regex_replace(i, in, in + std::strlen(in), pdata->e, fmt, flags); return result; } std::size_t RegEx::Split(std::vector& v, std::string& s, match_flag_type flags, unsigned max_count) { return regex_split(std::back_inserter(v), s, pdata->e, flags, max_count); } // // now operators for returning what matched in more detail: // std::size_t RegEx::Position(int i)const { switch(pdata->t) { case BOOST_REGEX_DETAIL_NS::RegExData::type_pc: return pdata->m[i].matched ? pdata->m[i].first - pdata->pbase : RegEx::npos; case BOOST_REGEX_DETAIL_NS::RegExData::type_pf: #ifndef BOOST_REGEX_NO_FILEITER return pdata->fm[i].matched ? pdata->fm[i].first - pdata->fbase : RegEx::npos; #endif case BOOST_REGEX_DETAIL_NS::RegExData::type_copy: { std::map >::iterator pos = pdata->positions.find(i); if(pos == pdata->positions.end()) return RegEx::npos; return (*pos).second; } } return RegEx::npos; } std::size_t RegEx::Marks()const { return pdata->e.mark_count(); } std::size_t RegEx::Length(int i)const { switch(pdata->t) { case BOOST_REGEX_DETAIL_NS::RegExData::type_pc: return pdata->m[i].matched ? pdata->m[i].second - pdata->m[i].first : RegEx::npos; case BOOST_REGEX_DETAIL_NS::RegExData::type_pf: #ifndef BOOST_REGEX_NO_FILEITER return pdata->fm[i].matched ? pdata->fm[i].second - pdata->fm[i].first : RegEx::npos; #endif case BOOST_REGEX_DETAIL_NS::RegExData::type_copy: { std::map >::iterator pos = pdata->strings.find(i); if(pos == pdata->strings.end()) return RegEx::npos; return (*pos).second.size(); } } return RegEx::npos; } bool RegEx::Matched(int i)const { switch(pdata->t) { case BOOST_REGEX_DETAIL_NS::RegExData::type_pc: return pdata->m[i].matched; case BOOST_REGEX_DETAIL_NS::RegExData::type_pf: #ifndef BOOST_REGEX_NO_FILEITER return pdata->fm[i].matched; #endif case BOOST_REGEX_DETAIL_NS::RegExData::type_copy: { std::map >::iterator pos = pdata->strings.find(i); if(pos == pdata->strings.end()) return false; return true; } } return false; } std::string RegEx::What(int i)const { std::string result; switch(pdata->t) { case BOOST_REGEX_DETAIL_NS::RegExData::type_pc: if(pdata->m[i].matched) result.assign(pdata->m[i].first, pdata->m[i].second); break; case BOOST_REGEX_DETAIL_NS::RegExData::type_pf: if(pdata->m[i].matched) result.assign(to_string(pdata->m[i].first, pdata->m[i].second)); break; case BOOST_REGEX_DETAIL_NS::RegExData::type_copy: { std::map >::iterator pos = pdata->strings.find(i); if(pos != pdata->strings.end()) result = (*pos).second; break; } } return result; } const std::size_t RegEx::npos = ~static_cast(0); } // namespace boost #if defined(BOOST_BORLANDC) && (BOOST_BORLANDC >= 0x550) && (BOOST_BORLANDC <= 0x551) && !defined(_RWSTD_COMPILE_INSTANTIATE) // // this is an ugly hack to work around an ugly problem: // by default this file will produce unresolved externals during // linking unless _RWSTD_COMPILE_INSTANTIATE is defined (Borland bug). // However if _RWSTD_COMPILE_INSTANTIATE is defined then we get separate // copies of basic_string's static data in the RTL and this DLL, this messes // with basic_string's memory management and results in run-time crashes, // Oh sweet joy of Catch 22.... // namespace std{ template<> template<> basic_string& BOOST_REGEX_DECL basic_string::replace(char* f1, char* f2, const char* i1, const char* i2) { unsigned insert_pos = f1 - begin(); unsigned remove_len = f2 - f1; unsigned insert_len = i2 - i1; unsigned org_size = size(); if(insert_len > remove_len) { append(insert_len-remove_len, ' '); std::copy_backward(begin() + insert_pos + remove_len, begin() + org_size, end()); std::copy(i1, i2, begin() + insert_pos); } else { std::copy(begin() + insert_pos + remove_len, begin() + org_size, begin() + insert_pos + insert_len); std::copy(i1, i2, begin() + insert_pos); erase(size() + insert_len - remove_len); } return *this; } template<> template<> basic_string& BOOST_REGEX_DECL basic_string::replace(wchar_t* f1, wchar_t* f2, const wchar_t* i1, const wchar_t* i2) { unsigned insert_pos = f1 - begin(); unsigned remove_len = f2 - f1; unsigned insert_len = i2 - i1; unsigned org_size = size(); if(insert_len > remove_len) { append(insert_len-remove_len, ' '); std::copy_backward(begin() + insert_pos + remove_len, begin() + org_size, end()); std::copy(i1, i2, begin() + insert_pos); } else { std::copy(begin() + insert_pos + remove_len, begin() + org_size, begin() + insert_pos + insert_len); std::copy(i1, i2, begin() + insert_pos); erase(size() + insert_len - remove_len); } return *this; } } // namespace std #endif #endif