lyx_mirror/src/Encoding.cpp

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/**
* \file Encoding.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 <config.h>
#include "Encoding.h"
#include "Lexer.h"
#include "support/debug.h"
#include "support/docstring.h"
#include "support/gettext.h"
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#include "support/lstrings.h"
#include "support/mutex.h"
#include "support/textutils.h"
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#include "support/unicode.h"
#include <algorithm>
#include <cstdint>
#include <iterator>
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#include <sstream>
using namespace std;
using namespace lyx::support;
namespace lyx {
int const Encoding::any = -1;
Encodings encodings;
Encodings::MathCommandSet Encodings::mathcmd;
Encodings::TextCommandSet Encodings::textcmd;
Encodings::MathSymbolSet Encodings::mathsym;
namespace {
typedef map<char_type, CharInfo> CharInfoMap;
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CharInfoMap unicodesymbols;
typedef set<char_type> CharSet;
typedef map<string, CharSet> CharSetMap;
CharSet forced;
CharSetMap forcedSelected;
typedef set<char_type> MathAlphaSet;
MathAlphaSet mathalpha;
/// The highest code point in UCS4 encoding (1<<20 + 1<<16)
char_type const max_ucs4 = 0x110000;
Bulk cleanup/fix incorrect annotation at the end of namespaces. This commit does a bulk fix of incorrect annotations (comments) at the end of namespaces. The commit was generated by initially running clang-format, and then from the diff of the result extracting the hunks corresponding to fixes of namespace comments. The changes being applied and all the results have been manually reviewed. The source code successfully builds on macOS. Further details on the steps below, in case they're of interest to someone else in the future. 1. Checkout a fresh and up to date version of src/ git pull && git checkout -- src && git status src 2. Ensure there's a suitable .clang-format in place, i.e. with options to fix the comment at the end of namespaces, including: FixNamespaceComments: true SpacesBeforeTrailingComments: 1 and that clang-format is >= 5.0.0, by doing e.g.: clang-format -dump-config | grep Comments: clang-format --version 3. Apply clang-format to the source: clang-format -i $(find src -name "*.cpp" -or -name "*.h") 4. Create and filter out hunks related to fixing the namespace git diff -U0 src > tmp.patch grepdiff '^} // namespace' --output-matching=hunk tmp.patch > fix_namespace.patch 5. Filter out hunks corresponding to simple fixes into to a separate patch: pcregrep -M -e '^diff[^\n]+\nindex[^\n]+\n--- [^\n]+\n\+\+\+ [^\n]+\n' \ -e '^@@ -[0-9]+ \+[0-9]+ @@[^\n]*\n-\}[^\n]*\n\+\}[^\n]*\n' \ fix_namespace.patch > fix_namespace_simple.patch 6. Manually review the simple patch and then apply it, after first restoring the source. git checkout -- src patch -p1 < fix_namespace_simple.path 7. Manually review the (simple) changes and then stage the changes git diff src git add src 8. Again apply clang-format and filter out hunks related to any remaining fixes to the namespace, this time filter with more context. There will be fewer hunks as all the simple cases have already been handled: clang-format -i $(find src -name "*.cpp" -or -name "*.h") git diff src > tmp.patch grepdiff '^} // namespace' --output-matching=hunk tmp.patch > fix_namespace2.patch 9. Manually review/edit the resulting patch file to remove hunks for files which need to be dealt with manually, noting the file names and line numbers. Then restore files to as before applying clang-format and apply the patch: git checkout src patch -p1 < fix_namespace2.patch 10. Manually fix the files noted in the previous step. Stage files, review changes and commit.
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} // namespace
EncodingException::EncodingException(char_type c)
: failed_char(c), par_id(0), pos(0)
{
}
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const char * EncodingException::what() const noexcept
{
return "Could not find LaTeX command for a character";
}
CharInfo::CharInfo(
docstring const & text_command, docstring const & math_command,
std::string const & text_preamble, std::string const & math_preamble,
std::string const & tipa_shortcut, unsigned int flags)
: text_commands_({text_command}), math_commands_({math_command}),
text_preamble_(text_preamble), math_preamble_(math_preamble),
tipa_shortcut_(tipa_shortcut), flags_(flags)
{
}
CharInfo::CharInfo(
std::vector<docstring> const & text_commands, std::vector<docstring> const & math_commands,
std::string const & text_preamble, std::string const & math_preamble,
std::string const & tipa_shortcut, unsigned int flags)
: text_commands_(text_commands), math_commands_(math_commands),
text_preamble_(text_preamble), math_preamble_(math_preamble),
tipa_shortcut_(tipa_shortcut), flags_(flags)
{
}
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Encoding::Encoding(string const & n, string const & l, string const & g,
string const & i, bool f, bool u, Encoding::Package p)
: name_(n), latexName_(l), guiName_(g), iconvName_(i), fixedwidth_(f),
unsafe_(u), forced_(&forcedSelected[n]), package_(p)
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{
if (n == "ascii") {
// ASCII can encode 128 code points and nothing else
start_encodable_ = 128;
complete_ = true;
} else if (i == "UTF-8") {
// UTF8 can encode all UCS4 code points
start_encodable_ = max_ucs4;
complete_ = true;
} else {
start_encodable_ = 0;
complete_ = false;
}
}
void Encoding::init() const
{
// Since the the constructor is the only method which sets complete_
// to false the test for complete_ is thread-safe without mutex.
if (complete_)
return;
static Mutex mutex;
Mutex::Locker lock(&mutex);
// We need to test again for complete_, since another thread could
// have set it to true while we were waiting for the lock and we must
// not modify an encoding which is already complete.
if (complete_)
return;
// We do not make any member mutable so that it can be easily verified
// that all const methods are thread-safe: init() is the only const
// method which changes complete_, encodable_ and start_encodable_, and
// it uses a mutex to ensure thread-safety.
CharSet & encodable = const_cast<Encoding *>(this)->encodable_;
char_type & start_encodable = const_cast<Encoding *>(this)->start_encodable_;
start_encodable = 0;
// temporarily switch off lyxerr, since we will generate iconv errors
lyxerr.disable();
if (fixedwidth_) {
// We do not need to check all UCS4 code points, it is enough
// if we check all 256 code points of this encoding.
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for (unsigned short j = 0; j < 256; ++j) {
char const c = char(j);
vector<char_type> const ucs4 = eightbit_to_ucs4(&c, 1, iconvName_);
if (ucs4.size() != 1)
continue;
char_type const uc = ucs4[0];
CharInfoMap::const_iterator const it = unicodesymbols.find(uc);
if (it == unicodesymbols.end())
encodable.insert(uc);
else if (!it->second.force()) {
if (forced_->empty() || forced_->find(uc) == forced_->end())
encodable.insert(uc);
}
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}
} else {
// We do not know how many code points this encoding has, and
// they do not have a direct representation as a single byte,
// therefore we need to check all UCS4 code points.
// This is expensive!
for (char_type c = 0; c < max_ucs4; ++c) {
vector<char> const eightbit = ucs4_to_eightbit(&c, 1, iconvName_);
if (!eightbit.empty()) {
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
if (it == unicodesymbols.end())
encodable.insert(c);
else if (!it->second.force()) {
if (forced_->empty() || forced_->find(c) == forced_->end())
encodable.insert(c);
}
}
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}
}
lyxerr.enable();
CharSet::iterator it = encodable.find(start_encodable);
while (it != encodable.end()) {
encodable.erase(it);
++start_encodable;
it = encodable.find(start_encodable);
}
const_cast<Encoding *>(this)->complete_ = true;
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}
bool Encoding::isForced(char_type c) const
{
if (!forced.empty() && forced.find(c) != forced.end())
return true;
return !forced_->empty() && forced_->find(c) != forced_->end();
}
bool Encoding::encodable(char_type c) const
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{
// assure the used encoding is properly initialized
init();
if (iconvName_ == "UTF-8" && package_ == none)
return true;
// platex does not load inputenc: force conversion of supported characters
if (package_ == Encoding::japanese
&& ((0xb7 <= c && c <= 0x05ff) // Latin-1 Supplement ... Hebrew
|| (0x1d00 <= c && c <= 0x218f) // Phonetic Extensions ... Number Forms
|| (0x2193 <= c && c <= 0x2aff) // Arrows ... Supplemental Mathematical Operators
|| (0xfb00 <= c && c <= 0xfb4f) // Alphabetic Presentation Forms
|| (0x1d400 <= c && c <= 0x1d7ff))) // Mathematical Alphanumeric Symbols
return false;
if (c < start_encodable_ && !isForced(c))
return true;
if (encodable_.find(c) != encodable_.end())
return true;
return false;
}
pair<docstring, bool> Encoding::latexChar(char_type c) const
{
if (encodable(c))
return make_pair(docstring(1, c), false);
// c cannot (or should not) be encoded in this encoding
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
if (it == unicodesymbols.end())
throw EncodingException(c);
// at least one of mathCommand and textCommand is nonempty
if (it->second.textCommand().empty())
return make_pair(
"\\ensuremath{" + it->second.mathCommand() + '}', false);
return make_pair(it->second.textCommand(), !it->second.textNoTermination());
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}
pair<docstring, docstring> Encoding::latexString(docstring const & input, bool dryrun) const
{
docstring result;
docstring uncodable;
bool terminate = false;
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for (char_type const c : input) {
try {
pair<docstring, bool> latex_char = latexChar(c);
docstring const latex = latex_char.first;
if (terminate && !prefixIs(latex, '\\')
&& !prefixIs(latex, '{')
&& !prefixIs(latex, '}')) {
// Prevent eating of a following
// space or command corruption by
// following characters
if (latex == " ")
result += "{}";
else
result += " ";
}
result += latex;
terminate = latex_char.second;
} catch (EncodingException & /* e */) {
LYXERR0("Uncodable character <" << docstring(1, c)
<< "> in latexString!");
if (dryrun) {
result += "<" + _("LyX Warning: ")
+ _("uncodable character") + " '";
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result += docstring(1, c);
result += "'>";
} else
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uncodable += c;
}
}
return make_pair(result, uncodable);
}
vector<char_type> Encoding::symbolsList() const
{
// assure the used encoding is properly initialized
init();
// first all those below start_encodable_
vector<char_type> symbols;
for (char_type c = 0; c < start_encodable_; ++c)
symbols.push_back(c);
// add all encodable characters
copy(encodable_.begin(), encodable_.end(), back_inserter(symbols));
// now the ones from the unicodesymbols file that are not already there
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for (auto const & elem : unicodesymbols) {
if (find(symbols.begin(), symbols.end(), elem.first) == symbols.end())
symbols.push_back(elem.first);
}
// finally, sort the vector
sort(symbols.begin(), symbols.end());
return symbols;
}
bool Encodings::latexMathChar(char_type c, bool mathmode,
Encoding const * encoding, docstring & command,
bool & needsTermination)
{
command = empty_docstring();
if (encoding)
if (encoding->encodable(c))
command = docstring(1, c);
needsTermination = false;
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
if (it == unicodesymbols.end()) {
if (!encoding || command.empty())
throw EncodingException(c);
if (mathmode)
addMathSym(c);
return false;
}
// at least one of mathCommand and textCommand is nonempty
bool use_math = (mathmode && !it->second.mathCommand().empty()) ||
(!mathmode && it->second.textCommand().empty());
if (use_math) {
command = it->second.mathCommand();
needsTermination = !it->second.mathNoTermination();
addMathCmd(c);
} else {
if (!encoding || command.empty()) {
command = it->second.textCommand();
needsTermination = !it->second.textNoTermination();
}
if (mathmode)
addMathSym(c);
else
addTextCmd(c);
}
return use_math;
}
char_type Encodings::fromLaTeXCommand(docstring const & cmd, int cmdtype,
bool & combining, bool & needsTermination, set<string> * req)
{
CharInfoMap::const_iterator const end = unicodesymbols.end();
CharInfoMap::const_iterator it = unicodesymbols.begin();
for (combining = false; it != end; ++it) {
if (it->second.deprecated())
continue;
if (cmdtype & MATH_CMD) {
for (const docstring& math : it->second.mathCommands()) {
if ((cmdtype & MATH_CMD) && math == cmd) {
combining = it->second.combining();
needsTermination = !it->second.mathNoTermination();
if (req && it->second.mathFeature() &&
!it->second.mathPreamble().empty())
req->insert(it->second.mathPreamble());
return it->first;
}
}
}
if (cmdtype & TEXT_CMD) {
for (const docstring& text : it->second.textCommands()) {
if (text == cmd) {
combining = it->second.combining();
needsTermination = !it->second.textNoTermination();
if (req && it->second.textFeature() &&
!it->second.textPreamble().empty())
req->insert(it->second.textPreamble());
return it->first;
}
}
}
}
needsTermination = false;
return 0;
}
docstring Encodings::fromLaTeXCommand(docstring const & cmd, int cmdtype,
bool & needsTermination, docstring & rem, set<string> * req)
{
needsTermination = false;
rem = empty_docstring();
bool const mathmode = cmdtype & MATH_CMD;
bool const textmode = cmdtype & TEXT_CMD;
docstring symbols;
size_t const cmdend = cmd.size();
size_t prefix = 0;
CharInfoMap::const_iterator const uniend = unicodesymbols.end();
for (size_t i = 0, j = 0; j < cmdend; ++j) {
// Also get the char after a backslash
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;
while (k < cmdend && count) {
k = cmd.find_first_of(from_ascii("{}"), k + 1);
// braces may not be balanced
if (k == docstring::npos)
break;
if (cmd[k] == '{')
++count;
else
--count;
}
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 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) {
if (it->second.deprecated())
continue;
docstring const math = mathmode ? it->second.mathCommand()
: 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 (cur_size < subcmd.size() || cur_size <= unicmd_size)
continue;
docstring tmp = subcmd;
size_t k = j;
while (prefixIs(math, tmp) || prefixIs(text, tmp)) {
++k;
if (k >= cmdend || cur_size <= tmp.size())
break;
tmp += cmd[k];
}
// No match
if (k == j)
continue;
// The last added char caused a mismatch, because
// we didn't exhaust the chars in cmd and didn't
// exceed the maximum size of the current unicmd
if (k < cmdend && cur_size > tmp.size())
tmp.resize(tmp.size() - 1);
// 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 = cmd.find_first_of(from_ascii("{}"), l + 1);
// braces may not be balanced
if (l == docstring::npos)
break;
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
// portion of the cmd string). However, if the entry
// does start with '\', we accept the match only if
// this is a valid macro, i.e., either it is a single
// (nonletter) char macro, or nothing else follows,
// or what follows is a nonletter char, or the last
// character is a }.
else if (tmp[0] != '\\'
|| (tmp.size() == prefix + 1 &&
!isAlphaASCII(tmp[1]) &&
(prefix == 1 || !isAlphaASCII(tmp[2])))
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|| k == cmdend
|| !isAlphaASCII(cmd[k])
|| tmp[tmp.size() - 1] == '}'
) {
c = it->first;
j = k - 1;
i = j + 1;
unicmd_size = cur_size;
if (math == tmp)
needsTermination = !it->second.mathNoTermination();
else
needsTermination = !it->second.textNoTermination();
if (req) {
if (math == tmp && it->second.mathFeature() &&
!it->second.mathPreamble().empty())
req->insert(it->second.mathPreamble());
if (text == tmp && it->second.textFeature() &&
!it->second.textPreamble().empty())
req->insert(it->second.textPreamble());
}
}
}
if (unicmd_size)
symbols += c;
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()) {
if (rem.substr(0, 2) == "{}") {
rem = rem.substr(2);
needsTermination = false;
} else if (rem[0] == ' ') {
needsTermination = false;
// LaTeX would swallow all spaces
rem = ltrim(rem);
}
}
}
}
return symbols;
}
CharInfo const & Encodings::unicodeCharInfo(char_type c)
{
static CharInfo empty;
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
return it != unicodesymbols.end() ? it->second : empty;
}
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bool Encodings::isCombiningChar(char_type c)
{
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
if (it != unicodesymbols.end())
return it->second.combining();
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return false;
}
string const Encodings::TIPAShortcut(char_type c)
{
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
if (it != unicodesymbols.end())
return it->second.tipaShortcut();
return string();
}
string const Encodings::isKnownScriptChar(char_type const c)
{
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
if (it == unicodesymbols.end())
return string();
// FIXME: parse complex textPreamble (may be list or alternatives,
// e.g., "subscript,textgreek" or "textcomp|textgreek")
if (it->second.textPreamble() == "textgreek"
|| it->second.textPreamble() == "textcyrillic")
return it->second.textPreamble();
return string();
}
bool Encodings::fontencSupportsScript(string const & fontenc, string const & script)
{
if (script == "textgreek")
return (fontenc == "LGR" || fontenc == "TU");
if (script == "textcyrillic")
return (fontenc == "T2A" || fontenc == "T2B" || fontenc == "T2C"
|| fontenc == "X2" || fontenc == "TU");
return false;
}
bool Encodings::isMathAlpha(char_type c)
{
return mathalpha.count(c);
}
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bool Encodings::isUnicodeTextOnly(char_type c)
{
if (isASCII(c) || isMathAlpha(c))
return false;
CharInfoMap::const_iterator const it = unicodesymbols.find(c);
return it == unicodesymbols.end() || it->second.mathCommand().empty();
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}
Encoding const *
Encodings::fromLyXName(string const & name, bool allowUnsafe) const
{
EncodingList::const_iterator const it = encodinglist.find(name);
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if (it == encodinglist.end())
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return nullptr;
if (!allowUnsafe && it->second.unsafe())
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return nullptr;
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return &it->second;
}
Encoding const *
Encodings::fromLaTeXName(string const & n, int p, bool allowUnsafe) const
{
string name = n;
// FIXME: if we have to test for too many of these synonyms,
// we should instead extend the format of lib/encodings
if (n == "ansinew")
name = "cp1252";
// We don't use find_if because it makes copies of the pairs in
// the map.
// This linear search is OK since we don't have many encodings.
// Users could even optimize it by putting the encodings they use
// most at the top of lib/encodings.
EncodingList::const_iterator const end = encodinglist.end();
for (EncodingList::const_iterator it = encodinglist.begin(); it != end; ++it)
if ((it->second.latexName() == name) && (it->second.package() & p)
&& (!it->second.unsafe() || allowUnsafe))
return &it->second;
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return nullptr;
}
Encoding const *
Encodings::fromIconvName(string const & n, int p, bool allowUnsafe) const
{
EncodingList::const_iterator const end = encodinglist.end();
for (EncodingList::const_iterator it = encodinglist.begin(); it != end; ++it)
if ((it->second.iconvName() == n) && (it->second.package() & p)
&& (!it->second.unsafe() || allowUnsafe))
return &it->second;
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return nullptr;
}
Encodings::Encodings()
{}
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void Encodings::read(FileName const & encfile, FileName const & symbolsfile)
{
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// We must read the symbolsfile first, because the Encoding
// constructor depends on it.
CharSetMap forcedNotSelected;
Lexer symbolsLex;
symbolsLex.setFile(symbolsfile);
bool getNextToken = true;
while (symbolsLex.isOK()) {
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char_type symbol;
if (getNextToken) {
if (!symbolsLex.next(true))
break;
} else
getNextToken = true;
istringstream is(symbolsLex.getString());
// reading symbol directly does not work if
// char_type == wchar_t.
uint32_t tmp;
if(!(is >> hex >> tmp))
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break;
symbol = tmp;
// Special case: more than one entry for one character (to add other LaTeX commands).
if (unicodesymbols.find(symbol) != unicodesymbols.end()) {
if (!symbolsLex.next(true))
break;
docstring textCommand = symbolsLex.getDocString();
if (!symbolsLex.next(true))
break;
string mathCommand = symbolsLex.getString();
if (!textCommand.empty())
unicodesymbols.at(symbol).addTextCommand(textCommand);
if (!mathCommand.empty())
unicodesymbols.at(symbol).addMathCommand(textCommand);
continue;
}
// If the symbol is not the same as the previous entry, consider it is a totally new symbol.
if (!symbolsLex.next(true))
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break;
docstring textCommand = symbolsLex.getDocString();
if (!symbolsLex.next(true))
break;
string textPreamble = symbolsLex.getString();
if (!symbolsLex.next(true))
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break;
string sflags = symbolsLex.getString();
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string tipaShortcut;
int flags = 0;
if (suffixIs(textCommand, '}'))
flags |= CharInfoTextNoTermination;
while (!sflags.empty()) {
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string flag;
sflags = split(sflags, flag, ',');
if (flag == "combining") {
flags |= CharInfoCombining;
} else if (flag == "force") {
flags |= CharInfoForce;
forced.insert(symbol);
} else if (prefixIs(flag, "force=")) {
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vector<string> encs =
getVectorFromString(flag.substr(6), ";");
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for (auto const & enc : encs)
forcedSelected[enc].insert(symbol);
flags |= CharInfoForceSelected;
} else if (prefixIs(flag, "force!=")) {
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vector<string> encs =
getVectorFromString(flag.substr(7), ";");
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for (auto const & enc : encs)
forcedNotSelected[enc].insert(symbol);
flags |= CharInfoForceSelected;
} else if (flag == "mathalpha") {
mathalpha.insert(symbol);
} else if (flag == "notermination=text") {
flags |= CharInfoTextNoTermination;
} else if (flag == "notermination=math") {
flags |= CharInfoMathNoTermination;
} else if (flag == "notermination=both") {
flags |= CharInfoTextNoTermination;
flags |= CharInfoMathNoTermination;
} else if (flag == "notermination=none") {
flags &= ~CharInfoTextNoTermination;
flags &= ~CharInfoMathNoTermination;
} else if (contains(flag, "tipashortcut=")) {
tipaShortcut = split(flag, '=');
} else if (flag == "deprecated") {
flags |= CharInfoDeprecated;
} else {
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lyxerr << "Ignoring unknown flag `" << flag
<< "' for symbol `0x"
<< hex << symbol << dec
<< "'." << endl;
}
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}
// mathCommand and mathPreamble have been added for 1.6.0.
// make them optional so that old files still work.
int const lineNo = symbolsLex.lineNumber();
bool breakout = false;
docstring mathCommand;
string mathPreamble;
if (symbolsLex.next(true)) {
if (symbolsLex.lineNumber() != lineNo) {
// line in old format without mathCommand and mathPreamble
getNextToken = false;
} else {
mathCommand = symbolsLex.getDocString();
if (suffixIs(mathCommand, '}'))
flags |= CharInfoMathNoTermination;
if (symbolsLex.next(true)) {
if (symbolsLex.lineNumber() != lineNo) {
// line in new format with mathCommand only
getNextToken = false;
} else {
// line in new format with mathCommand and mathPreamble
mathPreamble = symbolsLex.getString();
}
} else
breakout = true;
}
} else {
breakout = true;
}
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// backward compatibility
if (mathPreamble == "esintoramsmath")
mathPreamble = "esint|amsmath";
if (!textPreamble.empty())
if (textPreamble[0] != '\\')
flags |= CharInfoTextFeature;
if (!mathPreamble.empty())
if (mathPreamble[0] != '\\')
flags |= CharInfoMathFeature;
CharInfo info = CharInfo(
textCommand, mathCommand,
textPreamble, mathPreamble,
tipaShortcut, flags);
LYXERR(Debug::INFO, "Read unicode symbol " << symbol << " '"
<< to_utf8(info.textCommand()) << "' '" << info.textPreamble()
<< " '" << info.textFeature() << ' ' << info.textNoTermination()
<< ' ' << to_utf8(info.mathCommand()) << "' '" << info.mathPreamble()
<< "' " << info.mathFeature() << ' ' << info.mathNoTermination()
<< ' ' << info.combining() << ' ' << info.force()
<< ' ' << info.forceSelected());
// we assume that at least one command is nonempty when using unicodesymbols
if (info.isUnicodeSymbol()) {
unicodesymbols[symbol] = info;
}
if (breakout)
break;
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}
// Now read the encodings
enum {
et_encoding = 1,
et_end
};
LexerKeyword encodingTags[] = {
{ "encoding", et_encoding },
{ "end", et_end }
};
Lexer lex(encodingTags);
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lex.setFile(encfile);
lex.setContext("Encodings::read");
while (lex.isOK()) {
switch (lex.lex()) {
case et_encoding:
{
lex.next();
string const name = lex.getString();
lex.next();
string const latexName = lex.getString();
lex.next();
string const guiName = lex.getString();
lex.next();
string const iconvName = lex.getString();
lex.next();
string const width = lex.getString();
bool fixedWidth = false;
bool unsafe = false;
if (width == "fixed")
fixedWidth = true;
else if (width == "variable")
fixedWidth = false;
else if (width == "variableunsafe") {
fixedWidth = false;
unsafe = true;
}
else
lex.printError("Unknown width");
lex.next();
string const p = lex.getString();
Encoding::Package package = Encoding::none;
if (p == "none")
package = Encoding::none;
else if (p == "inputenc")
package = Encoding::inputenc;
else if (p == "CJK")
package = Encoding::CJK;
else if (p == "japanese")
package = Encoding::japanese;
else
lex.printError("Unknown package");
LYXERR(Debug::INFO, "Reading encoding " << name);
encodinglist[name] = Encoding(name, latexName,
guiName, iconvName, fixedWidth, unsafe,
package);
if (lex.lex() != et_end)
lex.printError("Missing end");
break;
}
case et_end:
lex.printError("Misplaced end");
break;
case Lexer::LEX_FEOF:
break;
default:
lex.printError("Unknown tag");
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());
}
}
}
} // namespace lyx