/** * \file lstrings.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjønnes * \author Jean-Marc Lasgouttes * \author Dekel Tsur * * Full author contact details are available in file CREDITS. */ #include #include "support/lstrings.h" #include "support/convert.h" #include "support/qstring_helpers.h" #include "support/textutils.h" #include #include "support/lassert.h" #include #include #include #include using namespace std; namespace lyx { // Using this allows us to have docstring default arguments in headers // without #include "support/docstring" there. docstring const & empty_docstring() { static docstring s; return s; } // Using this allows us to have string default arguments in headers // without #include string const & empty_string() { static string s; return s; } namespace { /** * Convert a QChar into a UCS4 character. * This is a hack (it does only make sense for the common part of the UCS4 * and UTF16 encodings) and should not be used. * This does only exist because of performance reasons (a real conversion * using iconv is too slow on windows). */ inline char_type qchar_to_ucs4(QChar const & qchar) { LASSERT(is_utf16(static_cast(qchar.unicode())), /**/); return static_cast(qchar.unicode()); } /** * Convert a UCS4 character into a QChar. * This is a hack (it does only make sense for the common part of the UCS4 * and UTF16 encodings) and should not be used. * This does only exist because of performance reasons (a real conversion * using iconv is too slow on windows). */ inline QChar const ucs4_to_qchar(char_type const ucs4) { LASSERT(is_utf16(ucs4), /**/); return QChar(static_cast(ucs4)); } /// Maximum valid UCS4 code point char_type const ucs4_max = 0x10ffff; } // anon namespace bool isLetterChar(char_type c) { if (!is_utf16(c)) { if (c > ucs4_max) // outside the UCS4 range return false; // assume that all non-utf16 characters are letters return true; } return ucs4_to_qchar(c).isLetter(); } bool isLower(char_type c) { if (!is_utf16(c)) return false; return ucs4_to_qchar(c).isLower(); } bool isAlphaASCII(char_type c) { return ('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z'); } bool isPrintable(char_type c) { if (!is_utf16(c)) { if (c > ucs4_max) // outside the UCS4 range return false; // assume that all non-utf16 characters are printable return true; } return ucs4_to_qchar(c).isPrint(); } bool isPrintableNonspace(char_type c) { if (!is_utf16(c)) { if (c > ucs4_max) // outside the UCS4 range return false; // assume that all non-utf16 characters are printable and // no space return true; } QChar const qc = ucs4_to_qchar(c); return qc.isPrint() && !qc.isSpace(); } bool isSpace(char_type c) { if (!is_utf16(c)) { // assume that no non-utf16 character is a space // c outside the UCS4 range is catched as well return false; } QChar const qc = ucs4_to_qchar(c); return qc.isSpace(); } bool isDigit(char_type c) { if (!is_utf16(c)) // assume that no non-utf16 character is a digit // c outside the UCS4 range is catched as well return false; return ucs4_to_qchar(c).isDigit(); } bool isDigitASCII(char_type c) { return '0' <= c && c <= '9'; } bool isAlnumASCII(char_type c) { return ('0' <= c && c <= '9') || ('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z'); } namespace support { int compare_no_case(docstring const & s, docstring const & s2) { docstring::const_iterator p = s.begin(); docstring::const_iterator p2 = s2.begin(); while (p != s.end() && p2 != s2.end()) { char_type const lc1 = lowercase(*p); char_type const lc2 = lowercase(*p2); if (lc1 != lc2) return (lc1 < lc2) ? -1 : 1; ++p; ++p2; } if (s.size() == s2.size()) return 0; if (s.size() < s2.size()) return -1; return 1; } namespace { template Char ascii_tolower(Char c) { if (c >= 'A' && c <= 'Z') return c - 'A' + 'a'; return c; } } int compare_ascii_no_case(string const & s, string const & s2) { string::const_iterator p = s.begin(); string::const_iterator p2 = s2.begin(); while (p != s.end() && p2 != s2.end()) { int const lc1 = ascii_tolower(*p); int const lc2 = ascii_tolower(*p2); if (lc1 != lc2) return (lc1 < lc2) ? -1 : 1; ++p; ++p2; } if (s.size() == s2.size()) return 0; if (s.size() < s2.size()) return -1; return 1; } int compare_ascii_no_case(docstring const & s, docstring const & s2) { docstring::const_iterator p = s.begin(); docstring::const_iterator p2 = s2.begin(); while (p != s.end() && p2 != s2.end()) { char_type const lc1 = ascii_tolower(*p); char_type const lc2 = ascii_tolower(*p2); if (lc1 != lc2) return (lc1 < lc2) ? -1 : 1; ++p; ++p2; } if (s.size() == s2.size()) return 0; if (s.size() < s2.size()) return -1; return 1; } bool isStrInt(string const & str) { if (str.empty()) return false; // Remove leading and trailing white space chars. string const tmpstr = trim(str); if (tmpstr.empty()) return false; string::const_iterator cit = tmpstr.begin(); if ((*cit) == '-') ++cit; string::const_iterator end = tmpstr.end(); for (; cit != end; ++cit) if (!isdigit((*cit))) return false; return true; } bool isStrUnsignedInt(string const & str) { if (str.empty()) return false; // Remove leading and trailing white space chars. string const tmpstr = trim(str); if (tmpstr.empty()) return false; string::const_iterator cit = tmpstr.begin(); string::const_iterator end = tmpstr.end(); for (; cit != end; ++cit) if (!isdigit((*cit))) return false; return true; } bool isStrDbl(string const & str) { if (str.empty()) return false; // Remove leading and trailing white space chars. string const tmpstr = trim(str); if (tmpstr.empty()) return false; // if (tmpstr.count('.') > 1) return false; string::const_iterator cit = tmpstr.begin(); bool found_dot = false; if (*cit == '-') ++cit; string::const_iterator end = tmpstr.end(); for (; cit != end; ++cit) { if (!isdigit(*cit) && *cit != '.') return false; if ('.' == (*cit)) { if (found_dot) return false; found_dot = true; } } return true; } bool hasDigit(docstring const & str) { if (str.empty()) return false; docstring::const_iterator cit = str.begin(); docstring::const_iterator const end = str.end(); for (; cit != end; ++cit) { if (*cit == ' ') continue; if (isdigit((*cit))) return true; } return false; } static bool isHexChar(char_type c) { return c == '0' || c == '1' || c == '2' || c == '3' || c == '4' || c == '5' || c == '6' || c == '7' || c == '8' || c == '9' || c == 'a' || c == 'A' || c == 'b' || c == 'B' || c == 'c' || c == 'C' || c == 'd' || c == 'D' || c == 'e' || c == 'E' || c == 'f' || c == 'F'; } bool isHex(docstring const & str) { int index = 0; if (str.length() > 2 && str[0] == '0' && (str[1] == 'x' || str[1] == 'X')) index = 2; int const len = str.length(); for (; index < len; ++index) { if (!isHexChar(str[index])) return false; } return true; } int hexToInt(docstring const & str) { string s = to_ascii(str); int h; sscanf(s.c_str(), "%x", &h); return h; } bool isAscii(docstring const & str) { int const len = str.length(); for (int i = 0; i < len; ++i) if (str[i] >= 0x80) return false; return true; } bool isAscii(string const & str) { int const len = str.length(); for (int i = 0; i < len; ++i) if (static_cast(str[i]) >= 0x80) return false; return true; } char lowercase(char c) { LASSERT(static_cast(c) < 0x80, /**/); return char(tolower(c)); } char uppercase(char c) { LASSERT(static_cast(c) < 0x80, /**/); return char(toupper(c)); } char_type lowercase(char_type c) { if (!is_utf16(c)) // We don't know how to lowercase a non-utf16 char return c; return qchar_to_ucs4(ucs4_to_qchar(c).toLower()); } char_type uppercase(char_type c) { if (!is_utf16(c)) // We don't know how to uppercase a non-utf16 char return c; return qchar_to_ucs4(ucs4_to_qchar(c).toUpper()); } bool isLowerCase(char_type ch) { return lowercase(ch) == ch; } bool isUpperCase(char_type ch) { return uppercase(ch) == ch; } namespace { // since we cannot use tolower and toupper directly in the // calls to transform yet, we use these helper clases. (Lgb) struct local_lowercase { char_type operator()(char_type c) const { return lowercase(c); } }; struct local_uppercase { char_type operator()(char_type c) const { return uppercase(c); } }; template struct local_ascii_lowercase { Char operator()(Char c) const { return ascii_tolower(c); } }; } // end of anon namespace docstring const lowercase(docstring const & a) { docstring tmp(a); transform(tmp.begin(), tmp.end(), tmp.begin(), local_lowercase()); return tmp; } docstring const uppercase(docstring const & a) { docstring tmp(a); transform(tmp.begin(), tmp.end(), tmp.begin(), local_uppercase()); return tmp; } string const ascii_lowercase(string const & a) { string tmp(a); transform(tmp.begin(), tmp.end(), tmp.begin(), local_ascii_lowercase()); return tmp; } docstring const ascii_lowercase(docstring const & a) { docstring tmp(a); transform(tmp.begin(), tmp.end(), tmp.begin(), local_ascii_lowercase()); return tmp; } bool prefixIs(docstring const & a, char_type c) { if (a.empty()) return false; return a[0] == c; } bool prefixIs(string const & a, string const & pre) { size_t const prelen = pre.length(); size_t const alen = a.length(); return prelen <= alen && !a.empty() && a.compare(0, prelen, pre) == 0; } bool prefixIs(docstring const & a, docstring const & pre) { size_t const prelen = pre.length(); size_t const alen = a.length(); return prelen <= alen && !a.empty() && a.compare(0, prelen, pre) == 0; } bool suffixIs(string const & a, char c) { if (a.empty()) return false; return a[a.length() - 1] == c; } bool suffixIs(docstring const & a, char_type c) { if (a.empty()) return false; return a[a.length() - 1] == c; } bool suffixIs(string const & a, string const & suf) { size_t const suflen = suf.length(); size_t const alen = a.length(); return suflen <= alen && a.compare(alen - suflen, suflen, suf) == 0; } bool suffixIs(docstring const & a, docstring const & suf) { size_t const suflen = suf.length(); size_t const alen = a.length(); return suflen <= alen && a.compare(alen - suflen, suflen, suf) == 0; } bool containsOnly(string const & s, string const & cset) { return s.find_first_not_of(cset) == string::npos; } // ale970405+lasgoutt-970425 // rewritten to use new string (Lgb) string const token(string const & a, char delim, int n) { if (a.empty()) return string(); size_t k = 0; size_t i = 0; // Find delimiter or end of string for (; n--;) { if ((i = a.find(delim, i)) == string::npos) break; else ++i; // step delim } // i is now the n'th delim (or string::npos) if (i == string::npos) return string(); k = a.find(delim, i); // k is now the n'th + 1 delim (or string::npos) return a.substr(i, k - i); } docstring const token(docstring const & a, char_type delim, int n) { if (a.empty()) return docstring(); size_t k = 0; size_t i = 0; // Find delimiter or end of string for (; n--;) { if ((i = a.find(delim, i)) == docstring::npos) break; else ++i; // step delim } // i is now the n'th delim (or string::npos) if (i == docstring::npos) return docstring(); k = a.find(delim, i); // k is now the n'th + 1 delim (or string::npos) return a.substr(i, k - i); } // this could probably be faster and/or cleaner, but it seems to work (JMarc) // rewritten to use new string (Lgb) int tokenPos(string const & a, char delim, string const & tok) { int i = 0; string str = a; string tmptok; while (!str.empty()) { str = split(str, tmptok, delim); if (tok == tmptok) return i; ++i; } return -1; } // this could probably be faster and/or cleaner, but it seems to work (JMarc) // rewritten to use new string (Lgb) int tokenPos(docstring const & a, char_type delim, docstring const & tok) { int i = 0; docstring str = a; docstring tmptok; while (!str.empty()) { str = split(str, tmptok, delim); if (tok == tmptok) return i; ++i; } return -1; } namespace { /// Substitute all \a oldchar with \a newchar template inline basic_string const subst_char(basic_string const & a, Ch oldchar, Ch newchar) { typedef basic_string String; String tmp(a); typename String::iterator lit = tmp.begin(); typename String::iterator end = tmp.end(); for (; lit != end; ++lit) if ((*lit) == oldchar) (*lit) = newchar; return tmp; } /// Substitute all \a oldchar with \a newchar docstring const subst_char(docstring const & a, docstring::value_type oldchar, docstring::value_type newchar) { docstring tmp(a); docstring::iterator lit = tmp.begin(); docstring::iterator end = tmp.end(); for (; lit != end; ++lit) if ((*lit) == oldchar) (*lit) = newchar; return tmp; } /// substitutes all instances of \a oldstr with \a newstr template inline String const subst_string(String const & a, String const & oldstr, String const & newstr) { LASSERT(!oldstr.empty(), /**/); String lstr = a; size_t i = 0; size_t const olen = oldstr.length(); while ((i = lstr.find(oldstr, i)) != string::npos) { lstr.replace(i, olen, newstr); i += newstr.length(); // We need to be sure that we dont // use the same i over and over again. } return lstr; } docstring const subst_string(docstring const & a, docstring const & oldstr, docstring const & newstr) { LASSERT(!oldstr.empty(), /**/); docstring lstr = a; size_t i = 0; size_t const olen = oldstr.length(); while ((i = lstr.find(oldstr, i)) != string::npos) { lstr.replace(i, olen, newstr); i += newstr.length(); // We need to be sure that we dont // use the same i over and over again. } return lstr; } } string const subst(string const & a, char oldchar, char newchar) { return subst_char(a, oldchar, newchar); } docstring const subst(docstring const & a, char_type oldchar, char_type newchar) { return subst_char(a, oldchar, newchar); } string const subst(string const & a, string const & oldstr, string const & newstr) { return subst_string(a, oldstr, newstr); } docstring const subst(docstring const & a, docstring const & oldstr, docstring const & newstr) { return subst_string(a, oldstr, newstr); } /// Count all occurences of char \a chr inside \a str int count_char(docstring const & str, docstring::value_type chr) { int count = 0; docstring::const_iterator lit = str.begin(); docstring::const_iterator end = str.end(); for (; lit != end; ++lit) if ((*lit) == chr) count++; return count; } docstring const trim(docstring const & a, char const * p) { LASSERT(p, /**/); if (a.empty() || !*p) return a; docstring s = from_ascii(p); size_t r = a.find_last_not_of(s); size_t l = a.find_first_not_of(s); // Is this the minimal test? (lgb) if (r == docstring::npos && l == docstring::npos) return docstring(); return a.substr(l, r - l + 1); } string const trim(string const & a, char const * p) { LASSERT(p, /**/); if (a.empty() || !*p) return a; size_t r = a.find_last_not_of(p); size_t l = a.find_first_not_of(p); // Is this the minimal test? (lgb) if (r == string::npos && l == string::npos) return string(); return a.substr(l, r - l + 1); } string const rtrim(string const & a, char const * p) { LASSERT(p, /**/); if (a.empty() || !*p) return a; size_t r = a.find_last_not_of(p); // Is this test really needed? (Lgb) if (r == string::npos) return string(); return a.substr(0, r + 1); } docstring const rtrim(docstring const & a, char const * p) { LASSERT(p, /**/); if (a.empty() || !*p) return a; size_t r = a.find_last_not_of(from_ascii(p)); // Is this test really needed? (Lgb) if (r == docstring::npos) return docstring(); return a.substr(0, r + 1); } string const ltrim(string const & a, char const * p) { LASSERT(p, /**/); if (a.empty() || !*p) return a; size_t l = a.find_first_not_of(p); if (l == string::npos) return string(); return a.substr(l, string::npos); } docstring const ltrim(docstring const & a, char const * p) { LASSERT(p, /**/); if (a.empty() || !*p) return a; size_t l = a.find_first_not_of(from_ascii(p)); if (l == docstring::npos) return docstring(); return a.substr(l, docstring::npos); } namespace { template inline String const doSplit(String const & a, String & piece, Char delim) { String tmp; size_t i = a.find(delim); if (i == a.length() - 1) { piece = a.substr(0, i); } else if (i != String::npos) { piece = a.substr(0, i); tmp = a.substr(i + 1); } else if (i == 0) { piece.erase(); tmp = a.substr(i + 1); } else { piece = a; } return tmp; } template inline docstring const doSplit(docstring const & a, docstring & piece, Char delim) { docstring tmp; size_t i = a.find(delim); if (i == a.length() - 1) { piece = a.substr(0, i); } else if (i != docstring::npos) { piece = a.substr(0, i); tmp = a.substr(i + 1); } else if (i == 0) { piece.erase(); tmp = a.substr(i + 1); } else { piece = a; } return tmp; } } // anon string const split(string const & a, string & piece, char delim) { return doSplit(a, piece, delim); } docstring const split(docstring const & a, docstring & piece, char_type delim) { return doSplit(a, piece, delim); } string const split(string const & a, char delim) { string tmp; size_t i = a.find(delim); if (i != string::npos) // found delim tmp = a.substr(i + 1); return tmp; } // ale970521 string const rsplit(string const & a, string & piece, char delim) { string tmp; size_t i = a.rfind(delim); if (i != string::npos) { // delimiter was found piece = a.substr(0, i); tmp = a.substr(i + 1); } else { // delimiter was not found piece.erase(); } return tmp; } docstring const rsplit(docstring const & a, char_type delim) { docstring tmp; size_t i = a.rfind(delim); if (i != string::npos) tmp = a.substr(i + 1); return tmp; } docstring const escape(docstring const & lab) { char_type hexdigit[16] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; docstring enc; for (size_t i = 0; i < lab.length(); ++i) { char_type c = lab[i]; if (c >= 128 || c == '=' || c == '%') { // Although char_type is a 32 bit type we know that // UCS4 occupies only 21 bits, so we don't need to // encode bigger values. Test for 2^24 because we // can encode that with the 6 hex digits that are // needed for 21 bits anyway. LASSERT(c < (1 << 24), /**/); enc += '='; enc += hexdigit[(c>>20) & 15]; enc += hexdigit[(c>>16) & 15]; enc += hexdigit[(c>>12) & 15]; enc += hexdigit[(c>> 8) & 15]; enc += hexdigit[(c>> 4) & 15]; enc += hexdigit[ c & 15]; } else { enc += c; } } return enc; } namespace { // this doesn't check whether str is empty, so do that first. vector wrapToVec(docstring const & str, int ind, size_t const width) { docstring s = trim(str); if (s.empty()) return vector(); docstring indent; if (ind < 0) { indent.insert(0, -ind, ' '); ind = 0; } else if (ind > 0) s.insert(0, ind, ' '); vector retval; while (s.size() > width) { // find the last space within the first 'width' chars size_t const i = s.find_last_of(' ', width - 1); if (i == docstring::npos || i <= size_t(ind)) { // no space found s = s.substr(0, width - 3) + "..."; break; } retval.push_back(s.substr(0, i)); s = indent + s.substr(i); ind = indent.size(); } if (!s.empty()) retval.push_back(s); return retval; } } docstring wrap(docstring const & str, int const ind, size_t const width) { docstring s = trim(str); if (s.empty()) return docstring(); vector const svec = wrapToVec(str, ind, width); return getStringFromVector(svec, from_ascii("\n")); } docstring wrapParas(docstring const & str, int const indent, size_t const width, size_t const maxlines) { if (str.empty()) return docstring(); vector const pars = getVectorFromString(str, from_ascii("\n"), true); vector retval; vector::const_iterator it = pars.begin(); vector::const_iterator const en = pars.end(); for (; it != en; ++it) { vector tmp = wrapToVec(*it, indent, width); size_t const nlines = tmp.size(); if (nlines == 0) continue; size_t const curlines = retval.size(); if (maxlines > 0 && curlines + nlines >= maxlines) { tmp.resize(maxlines - curlines - 1); tmp.push_back(from_ascii("...")); } retval.insert(retval.end(), tmp.begin(), tmp.end()); if (maxlines > 0 && retval.size() >= maxlines) break; } return getStringFromVector(retval, from_ascii("\n")); } namespace { template vector const getVectorFromStringT(String const & str, String const & delim, bool keepempty) { // Lars would like this code to go, but for now his replacement (below) // doesn't fullfil the same function. I have, therefore, reactivated the // old code for now. Angus 11 Nov 2002. #if 1 vector vec; if (str.empty()) return vec; String keys = rtrim(str); while (true) { size_t const idx = keys.find(delim); if (idx == String::npos) { vec.push_back(ltrim(keys)); break; } String const key = trim(keys.substr(0, idx)); if (!key.empty() || keepempty) vec.push_back(key); size_t const start = idx + delim.size(); keys = keys.substr(start); } return vec; #else typedef boost::char_separator Separator; typedef boost::tokenizer Tokenizer; Separator sep(delim.c_str()); Tokenizer tokens(str, sep); return vector(tokens.begin(), tokens.end()); #endif } template const String getStringFromVector(vector const & vec, String const & delim) { String str; typename vector::const_iterator it = vec.begin(); typename vector::const_iterator en = vec.end(); for (; it != en; ++it) { String item = trim(*it); if (item.empty()) continue; if (!str.empty()) str += delim; str += item; } return str; } } // namespace anon vector const getVectorFromString(string const & str, string const & delim, bool keepempty) { return getVectorFromStringT(str, delim, keepempty); } vector const getVectorFromString(docstring const & str, docstring const & delim, bool keepempty) { return getVectorFromStringT(str, delim, keepempty); } string const getStringFromVector(vector const & vec, string const & delim) { return getStringFromVector(vec, delim); } docstring const getStringFromVector(vector const & vec, docstring const & delim) { return getStringFromVector(vec, delim); } int findToken(char const * const str[], string const & search_token) { int i = 0; while (str[i][0] && str[i] != search_token) ++i; if (!str[i][0]) i = -1; return i; } template<> docstring bformat(docstring const & fmt, int arg1) { LASSERT(contains(fmt, from_ascii("%1$d")), /**/); docstring const str = subst(fmt, from_ascii("%1$d"), convert(arg1)); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, long arg1) { LASSERT(contains(fmt, from_ascii("%1$d")), /**/); docstring const str = subst(fmt, from_ascii("%1$d"), convert(arg1)); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, unsigned int arg1) { LASSERT(contains(fmt, from_ascii("%1$d")), /**/); docstring const str = subst(fmt, from_ascii("%1$d"), convert(arg1)); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, docstring arg1) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); docstring const str = subst(fmt, from_ascii("%1$s"), arg1); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, char * arg1) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); docstring const str = subst(fmt, from_ascii("%1$s"), from_ascii(arg1)); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, docstring arg1, docstring arg2) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); LASSERT(contains(fmt, from_ascii("%2$s")), /**/); docstring str = subst(fmt, from_ascii("%1$s"), arg1); str = subst(str, from_ascii("%2$s"), arg2); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, docstring arg1, int arg2) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); LASSERT(contains(fmt, from_ascii("%2$d")), /**/); docstring str = subst(fmt, from_ascii("%1$s"), arg1); str = subst(str, from_ascii("%2$d"), convert(arg2)); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, char const * arg1, docstring arg2) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); LASSERT(contains(fmt, from_ascii("%2$s")), /**/); docstring str = subst(fmt, from_ascii("%1$s"), from_ascii(arg1)); str = subst(fmt, from_ascii("%2$s"), arg2); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, int arg1, int arg2) { LASSERT(contains(fmt, from_ascii("%1$d")), /**/); LASSERT(contains(fmt, from_ascii("%2$d")), /**/); docstring str = subst(fmt, from_ascii("%1$d"), convert(arg1)); str = subst(str, from_ascii("%2$d"), convert(arg2)); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, docstring arg1, docstring arg2, docstring arg3) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); LASSERT(contains(fmt, from_ascii("%2$s")), /**/); LASSERT(contains(fmt, from_ascii("%3$s")), /**/); docstring str = subst(fmt, from_ascii("%1$s"), arg1); str = subst(str, from_ascii("%2$s"), arg2); str = subst(str, from_ascii("%3$s"), arg3); return subst(str, from_ascii("%%"), from_ascii("%")); } template<> docstring bformat(docstring const & fmt, docstring arg1, docstring arg2, docstring arg3, docstring arg4) { LASSERT(contains(fmt, from_ascii("%1$s")), /**/); LASSERT(contains(fmt, from_ascii("%2$s")), /**/); LASSERT(contains(fmt, from_ascii("%3$s")), /**/); LASSERT(contains(fmt, from_ascii("%4$s")), /**/); docstring str = subst(fmt, from_ascii("%1$s"), arg1); str = subst(str, from_ascii("%2$s"), arg2); str = subst(str, from_ascii("%3$s"), arg3); str = subst(str, from_ascii("%4$s"), arg4); return subst(str, from_ascii("%%"), from_ascii("%")); } } // namespace support } // namespace lyx