namespace lyx {
+int const Encoding::any = -1;
+
Encodings encodings;
Encodings::MathCommandSet Encodings::mathcmd;
bool const mathmode = cmdtype & MATH_CMD;
bool const textmode = cmdtype & TEXT_CMD;
docstring symbols;
- size_t i = 0;
size_t const cmdend = cmd.size();
+ size_t prefix = 0;
CharInfoMap::const_iterator const uniend = unicodesymbols.end();
- for (size_t j = 0; j < cmdend; ++j) {
+ for (size_t i = 0, j = 0; j < cmdend; ++j) {
// Also get the char after a backslash
- if (j + 1 < cmdend && cmd[j] == '\\')
+ if (j + 1 < cmdend && cmd[j] == '\\') {
++j;
+ prefix = 1;
+ // Detect things like \=*{e} as well
+ if (j + 3 < cmdend && cmd[j+1] == '*' &&
+ cmd[j+2] == '{') {
+ ++j;
+ prefix = 2;
+ }
+ }
+ // position of the last character before a possible macro
+ // argument
+ size_t m = j;
// If a macro argument follows, get it, too
+ // Do it here only for single character commands. Other
+ // combining commands need this too, but they are handled in
+ // the loop below for performance reasons.
if (j + 1 < cmdend && cmd[j + 1] == '{') {
size_t k = j + 1;
int count = 1;
}
if (k != docstring::npos)
j = k;
+ } else if (m + 1 < cmdend && isAlphaASCII(cmd[m])) {
+ while (m + 2 < cmdend && isAlphaASCII(cmd[m+1]))
+ m++;
}
// Start with this substring and try augmenting it when it is
// the prefix of some command in the unicodesymbols file
- docstring const subcmd = cmd.substr(i, j - i + 1);
+ docstring subcmd = cmd.substr(i, j - i + 1);
CharInfoMap::const_iterator it = unicodesymbols.begin();
+ // First part of subcmd which might be a combining character
+ docstring combcmd = (m == j) ? docstring() : cmd.substr(i, m - i + 1);
+ // The combining character of combcmd if it exists
+ CharInfoMap::const_iterator combining = uniend;
size_t unicmd_size = 0;
char_type c = 0;
for (; it != uniend; ++it) {
: docstring();
docstring const text = textmode ? it->second.textcommand
: docstring();
+ if (!combcmd.empty() && it->second.combining() &&
+ (math == combcmd || text == combcmd))
+ combining = it;
size_t cur_size = max(math.size(), text.size());
// The current math or text unicode command cannot
// match, or we already matched a longer one
// If this is an exact match, we found a (longer)
// matching entry in the unicodesymbols file.
+ if (math != tmp && text != tmp)
+ continue;
+ // If we found a combining command, we need to append
+ // the macro argument if this has not been done above.
+ if (tmp == combcmd && combining != uniend &&
+ k < cmdend && cmd[k] == '{') {
+ size_t l = k;
+ int count = 1;
+ while (l < cmdend && count && l != docstring::npos) {
+ l = cmd.find_first_of(from_ascii("{}"), l + 1);
+ if (cmd[l] == '{')
+ ++count;
+ else
+ --count;
+ }
+ if (l != docstring::npos) {
+ j = l;
+ subcmd = cmd.substr(i, j - i + 1);
+ }
+ }
// If the entry doesn't start with '\', we take note
// of the match and continue (this is not a ultimate
// acceptance, as some other entry may match a longer
// (nonletter) char macro, or nothing else follows,
// or what follows is a nonletter char, or the last
// character is a }.
- if ((math == tmp || text == tmp)
- && (tmp[0] != '\\'
- || (tmp.size() == 2 && !isAlphaASCII(tmp[1]))
+ else if (tmp[0] != '\\'
+ || (tmp.size() == prefix + 1 &&
+ !isAlphaASCII(tmp[1]) &&
+ (prefix == 1 || !isAlphaASCII(tmp[2])))
|| k == cmdend
|| !isAlphaASCII(cmd[k])
- || tmp[tmp.size() - 1] == '}')
+ || tmp[tmp.size() - 1] == '}'
) {
c = it->first;
j = k - 1;
}
if (unicmd_size)
symbols += c;
- else if (j + 1 == cmdend) {
+ else if (combining != uniend &&
+ prefixIs(subcmd, combcmd + '{')) {
+ // We know that subcmd starts with combcmd and
+ // contains an argument in braces.
+ docstring const arg = subcmd.substr(
+ combcmd.length() + 1,
+ subcmd.length() - combcmd.length() - 2);
+ // If arg is a single character we can construct a
+ // combining sequence.
+ char_type a;
+ bool argcomb = false;
+ if (arg.size() == 1 && isAlnumASCII(arg[0]))
+ a = arg[0];
+ else {
+ // Use the version of fromLaTeXCommand() that
+ // parses only one command, since we cannot
+ // use more than one character.
+ bool dummy = false;
+ set<string> r;
+ a = fromLaTeXCommand(arg, cmdtype, argcomb,
+ dummy, &r);
+ if (a && req && !argcomb)
+ req->insert(r.begin(), r.end());
+ }
+ if (a && !argcomb) {
+ // In unicode the combining character comes
+ // after its base
+ symbols += a;
+ symbols += combining->first;
+ i = j + 1;
+ unicmd_size = 2;
+ }
+ }
+ if (j + 1 == cmdend && !unicmd_size) {
// No luck. Return what remains
rem = cmd.substr(i);
if (needsTermination && !rem.empty()) {
{
// We must read the symbolsfile first, because the Encoding
// constructor depends on it.
+ CharSetMap forcednotselected;
Lexer symbolslex;
symbolslex.setFile(symbolsfile);
bool getNextToken = true;
forced.insert(symbol);
} else if (prefixIs(flag, "force=")) {
vector<string> encodings =
- getVectorFromString(flag.substr(6));
+ getVectorFromString(flag.substr(6), ";");
for (size_t i = 0; i < encodings.size(); ++i)
forcedselected[encodings[i]].insert(symbol);
info.flags |= CharInfoForceSelected;
+ } else if (prefixIs(flag, "force!=")) {
+ vector<string> encodings =
+ getVectorFromString(flag.substr(7), ";");
+ for (size_t i = 0; i < encodings.size(); ++i)
+ forcednotselected[encodings[i]].insert(symbol);
+ info.flags |= CharInfoForceSelected;
} else if (flag == "mathalpha") {
mathalpha.insert(symbol);
} else if (flag == "notermination=text") {
break;
}
}
+
+ // Move all information from forcednotselected to forcedselected
+ for (CharSetMap::const_iterator it1 = forcednotselected.begin(); it1 != forcednotselected.end(); ++it1) {
+ for (CharSetMap::iterator it2 = forcedselected.begin(); it2 != forcedselected.end(); ++it2) {
+ if (it2->first != it1->first)
+ it2->second.insert(it1->second.begin(), it1->second.end());
+ }
+ }
+
}