lyx_mirror/src/tex2lyx/tex2lyx.cpp
Jean-Marc Lasgouttes e4fe294bdc Make builds reproducible
We do not really need to use __TIME__ and __DATE__, which prevent from making LyX builds reproducible.

Fixes bug #9415.
2015-03-26 18:14:45 +01:00

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/**
* \file tex2lyx.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author André Pönitz
*
* Full author contact details are available in file CREDITS.
*/
// {[(
#include <config.h>
#include <version.h>
#include "tex2lyx.h"
#include "Context.h"
#include "Encoding.h"
#include "Layout.h"
#include "LayoutFile.h"
#include "LayoutModuleList.h"
#include "ModuleList.h"
#include "Preamble.h"
#include "TextClass.h"
#include "support/ConsoleApplication.h"
#include "support/convert.h"
#include "support/ExceptionMessage.h"
#include "support/filetools.h"
#include "support/lassert.h"
#include "support/lstrings.h"
#include "support/os.h"
#include "support/Package.h"
#include "support/Systemcall.h"
#include <cstdlib>
#include <algorithm>
#include <exception>
#include <iostream>
#include <string>
#include <sstream>
#include <vector>
#include <map>
using namespace std;
using namespace lyx::support;
using namespace lyx::support::os;
namespace lyx {
string const trimSpaceAndEol(string const & a)
{
return trim(a, " \t\n\r");
}
void split(string const & s, vector<string> & result, char delim)
{
//cerr << "split 1: '" << s << "'\n";
istringstream is(s);
string t;
while (getline(is, t, delim))
result.push_back(t);
//cerr << "split 2\n";
}
string join(vector<string> const & input, char const * delim)
{
ostringstream os;
for (size_t i = 0; i != input.size(); ++i) {
if (i)
os << delim;
os << input[i];
}
return os.str();
}
char const * const * is_known(string const & str, char const * const * what)
{
for ( ; *what; ++what)
if (str == *what)
return what;
return 0;
}
// current stack of nested environments
vector<string> active_environments;
string active_environment()
{
return active_environments.empty() ? string() : active_environments.back();
}
TeX2LyXDocClass textclass;
CommandMap known_commands;
CommandMap known_environments;
CommandMap known_math_environments;
FullCommandMap possible_textclass_commands;
FullEnvironmentMap possible_textclass_environments;
FullCommandMap possible_textclass_theorems;
int const LYX_FORMAT = LYX_FORMAT_TEX2LYX;
/// used modules
LayoutModuleList used_modules;
vector<string> preloaded_modules;
void convertArgs(string const & o1, bool o2, vector<ArgumentType> & arguments)
{
// We have to handle the following cases:
// definition o1 o2 invocation result
// \newcommand{\foo}{bar} "" false \foo bar
// \newcommand{\foo}[1]{bar #1} "[1]" false \foo{x} bar x
// \newcommand{\foo}[1][]{bar #1} "[1]" true \foo bar
// \newcommand{\foo}[1][]{bar #1} "[1]" true \foo[x] bar x
// \newcommand{\foo}[1][x]{bar #1} "[1]" true \foo[x] bar x
unsigned int nargs = 0;
string const opt1 = rtrim(ltrim(o1, "["), "]");
if (isStrUnsignedInt(opt1)) {
// The command has arguments
nargs = convert<unsigned int>(opt1);
if (nargs > 0 && o2) {
// The first argument is optional
arguments.push_back(optional);
--nargs;
}
}
for (unsigned int i = 0; i < nargs; ++i)
arguments.push_back(required);
}
void add_known_command(string const & command, string const & o1,
bool o2, docstring const & definition)
{
vector<ArgumentType> arguments;
convertArgs(o1, o2, arguments);
known_commands[command] = arguments;
if (!definition.empty())
possible_textclass_commands[command] =
FullCommand(arguments, definition);
}
void add_known_environment(string const & environment, string const & o1,
bool o2, docstring const & beg, docstring const &end)
{
vector<ArgumentType> arguments;
convertArgs(o1, o2, arguments);
known_environments[environment] = arguments;
if (!beg.empty() || ! end.empty())
possible_textclass_environments[environment] =
FullEnvironment(arguments, beg, end);
}
void add_known_theorem(string const & theorem, string const & o1,
bool o2, docstring const & definition)
{
vector<ArgumentType> arguments;
convertArgs(o1, o2, arguments);
if (!definition.empty())
possible_textclass_theorems[theorem] =
FullCommand(arguments, definition);
}
Layout const * findLayoutWithoutModule(TextClass const & textclass,
string const & name, bool command)
{
DocumentClass::const_iterator it = textclass.begin();
DocumentClass::const_iterator en = textclass.end();
for (; it != en; ++it) {
if (it->latexname() == name &&
((command && it->isCommand()) || (!command && it->isEnvironment())))
return &*it;
}
return 0;
}
InsetLayout const * findInsetLayoutWithoutModule(TextClass const & textclass,
string const & name, bool command)
{
DocumentClass::InsetLayouts::const_iterator it = textclass.insetLayouts().begin();
DocumentClass::InsetLayouts::const_iterator en = textclass.insetLayouts().end();
for (; it != en; ++it) {
if (it->second.latexname() == name &&
((command && it->second.latextype() == InsetLayout::COMMAND) ||
(!command && it->second.latextype() == InsetLayout::ENVIRONMENT)))
return &(it->second);
}
return 0;
}
namespace {
typedef map<string, DocumentClassPtr> ModuleMap;
ModuleMap modules;
bool addModule(string const & module, LayoutFile const & baseClass, LayoutModuleList & m, vector<string> & visited)
{
// avoid endless loop for circular dependency
vector<string>::const_iterator const vb = visited.begin();
vector<string>::const_iterator const ve = visited.end();
if (find(vb, ve, module) != ve) {
cerr << "Circular dependency detected for module " << module << '\n';
return false;
}
LyXModule const * const lm = theModuleList[module];
if (!lm) {
cerr << "Could not find module " << module << " in module list.\n";
return false;
}
bool foundone = false;
LayoutModuleList::const_iterator const exclmodstart = baseClass.excludedModules().begin();
LayoutModuleList::const_iterator const exclmodend = baseClass.excludedModules().end();
LayoutModuleList::const_iterator const provmodstart = baseClass.providedModules().begin();
LayoutModuleList::const_iterator const provmodend = baseClass.providedModules().end();
vector<string> const reqs = lm->getRequiredModules();
if (reqs.empty())
foundone = true;
else {
LayoutModuleList::const_iterator mit = m.begin();
LayoutModuleList::const_iterator men = m.end();
vector<string>::const_iterator rit = reqs.begin();
vector<string>::const_iterator ren = reqs.end();
for (; rit != ren; ++rit) {
if (find(mit, men, *rit) != men) {
foundone = true;
break;
}
if (find(provmodstart, provmodend, *rit) != provmodend) {
foundone = true;
break;
}
}
if (!foundone) {
visited.push_back(module);
for (rit = reqs.begin(); rit != ren; ++rit) {
if (find(exclmodstart, exclmodend, *rit) == exclmodend) {
if (addModule(*rit, baseClass, m, visited)) {
foundone = true;
break;
}
}
}
visited.pop_back();
}
}
if (!foundone) {
cerr << "Could not add required modules for " << module << ".\n";
return false;
}
if (!m.moduleCanBeAdded(module, &baseClass))
return false;
m.push_back(module);
return true;
}
void initModules()
{
// Create list of dummy document classes if not already done.
// This is needed since a module cannot be read on its own, only as
// part of a document class.
LayoutFile const & baseClass = LayoutFileList::get()[textclass.name()];
static bool init = true;
if (init) {
baseClass.load();
LyXModuleList::const_iterator const end = theModuleList.end();
LyXModuleList::const_iterator it = theModuleList.begin();
for (; it != end; ++it) {
string const module = it->getID();
LayoutModuleList m;
vector<string> v;
if (!addModule(module, baseClass, m, v))
continue;
modules[module] = getDocumentClass(baseClass, m);
}
init = false;
}
}
bool addModule(string const & module)
{
initModules();
LayoutFile const & baseClass = LayoutFileList::get()[textclass.name()];
if (!used_modules.moduleCanBeAdded(module, &baseClass))
return false;
FileName layout_file = libFileSearch("layouts", module, "module");
if (textclass.read(layout_file, TextClass::MODULE)) {
used_modules.push_back(module);
// speed up further searches:
// the module does not need to be checked anymore.
ModuleMap::iterator const it = modules.find(module);
if (it != modules.end())
modules.erase(it);
return true;
}
return false;
}
}
bool checkModule(string const & name, bool command)
{
// Cache to avoid slowdown by repated searches
static set<string> failed[2];
// Only add the module if the command was actually defined in the LyX preamble
bool theorem = false;
if (command) {
if (possible_textclass_commands.find('\\' + name) == possible_textclass_commands.end())
return false;
} else {
if (possible_textclass_environments.find(name) == possible_textclass_environments.end()) {
if (possible_textclass_theorems.find(name) != possible_textclass_theorems.end())
theorem = true;
else
return false;
}
}
if (failed[command].find(name) != failed[command].end())
return false;
initModules();
LayoutFile const & baseClass = LayoutFileList::get()[textclass.name()];
// Try to find a module that defines the command.
// Only add it if the definition can be found in the preamble of the
// style that corresponds to the command. This is a heuristic and
// different from the way how we parse the builtin commands of the
// text class (in that case we only compare the name), but it is
// needed since it is not unlikely that two different modules define a
// command with the same name.
ModuleMap::iterator const end = modules.end();
for (ModuleMap::iterator it = modules.begin(); it != end; ++it) {
string const module = it->first;
if (used_modules.moduleConflicts(module, &baseClass))
continue;
if (findLayoutWithoutModule(textclass, name, command))
continue;
if (findInsetLayoutWithoutModule(textclass, name, command))
continue;
DocumentClassConstPtr c = it->second;
Layout const * layout = findLayoutWithoutModule(*c, name, command);
InsetLayout const * insetlayout = layout ? 0 :
findInsetLayoutWithoutModule(*c, name, command);
docstring preamble;
if (layout)
preamble = layout->preamble();
else if (insetlayout)
preamble = insetlayout->preamble();
if (preamble.empty())
continue;
bool add = false;
if (command) {
FullCommand const & cmd =
possible_textclass_commands['\\' + name];
if (preamble.find(cmd.def) != docstring::npos)
add = true;
} else if (theorem) {
FullCommand const & thm =
possible_textclass_theorems[name];
if (preamble.find(thm.def) != docstring::npos)
add = true;
} else {
FullEnvironment const & env =
possible_textclass_environments[name];
if (preamble.find(env.beg) != docstring::npos &&
preamble.find(env.end) != docstring::npos)
add = true;
}
if (add) {
FileName layout_file = libFileSearch("layouts", module, "module");
if (textclass.read(layout_file, TextClass::MODULE)) {
used_modules.push_back(module);
// speed up further searches:
// the module does not need to be checked anymore.
modules.erase(it);
return true;
}
}
}
failed[command].insert(name);
return false;
}
bool isProvided(string const & name)
{
// This works only for features that are named like the LaTeX packages
return textclass.provides(name) || preamble.isPackageUsed(name);
}
bool noweb_mode = false;
bool pdflatex = false;
bool xetex = false;
bool is_nonCJKJapanese = false;
bool roundtrip = false;
namespace {
/*!
* Read one command definition from the syntax file
*/
void read_command(Parser & p, string command, CommandMap & commands)
{
if (p.next_token().asInput() == "*") {
p.get_token();
command += '*';
}
vector<ArgumentType> arguments;
while (p.next_token().cat() == catBegin ||
p.next_token().asInput() == "[") {
if (p.next_token().cat() == catBegin) {
string const arg = p.getArg('{', '}');
if (arg == "translate")
arguments.push_back(required);
else if (arg == "group")
arguments.push_back(req_group);
else if (arg == "item")
arguments.push_back(item);
else if (arg == "displaymath")
arguments.push_back(displaymath);
else
arguments.push_back(verbatim);
} else {
string const arg = p.getArg('[', ']');
if (arg == "group")
arguments.push_back(opt_group);
else
arguments.push_back(optional);
}
}
commands[command] = arguments;
}
/*!
* Read a class of environments from the syntax file
*/
void read_environment(Parser & p, string const & begin,
CommandMap & environments)
{
string environment;
while (p.good()) {
Token const & t = p.get_token();
if (t.cat() == catLetter)
environment += t.asInput();
else if (!environment.empty()) {
p.putback();
read_command(p, environment, environments);
environment.erase();
}
if (t.cat() == catEscape && t.asInput() == "\\end") {
string const end = p.getArg('{', '}');
if (end == begin)
return;
}
}
}
/*!
* Read a list of TeX commands from a reLyX compatible syntax file.
* Since this list is used after all commands that have a LyX counterpart
* are handled, it does not matter that the "syntax.default" file
* has almost all of them listed. For the same reason the reLyX-specific
* reLyXre environment is ignored.
*/
bool read_syntaxfile(FileName const & file_name)
{
ifdocstream is(file_name.toFilesystemEncoding().c_str());
if (!is.good()) {
cerr << "Could not open syntax file \"" << file_name
<< "\" for reading." << endl;
return false;
}
// We can use our TeX parser, since the syntax of the layout file is
// modeled after TeX.
// Unknown tokens are just silently ignored, this helps us to skip some
// reLyX specific things.
Parser p(is, string());
while (p.good()) {
Token const & t = p.get_token();
if (t.cat() == catEscape) {
string const command = t.asInput();
if (command == "\\begin") {
string const name = p.getArg('{', '}');
if (name == "environments" || name == "reLyXre")
// We understand "reLyXre", but it is
// not as powerful as "environments".
read_environment(p, name,
known_environments);
else if (name == "mathenvironments")
read_environment(p, name,
known_math_environments);
} else {
read_command(p, command, known_commands);
}
}
}
return true;
}
string documentclass;
string default_encoding;
bool fixed_encoding = false;
string syntaxfile;
bool copy_files = false;
bool overwrite_files = false;
bool skip_children = false;
int error_code = 0;
/// return the number of arguments consumed
typedef int (*cmd_helper)(string const &, string const &);
class StopException : public exception
{
public:
StopException(int status) : status_(status) {}
int status() const { return status_; }
private:
int status_;
};
/// The main application class
class TeX2LyXApp : public ConsoleApplication
{
public:
TeX2LyXApp(int & argc, char * argv[])
: ConsoleApplication("tex2lyx" PROGRAM_SUFFIX, argc, argv),
argc_(argc), argv_(argv)
{
}
void doExec()
{
try {
int const exit_status = run();
exit(exit_status);
}
catch (StopException & e) {
exit(e.status());
}
}
private:
void easyParse();
/// Do the real work
int run();
int & argc_;
char ** argv_;
};
int parse_help(string const &, string const &)
{
cout << "Usage: tex2lyx [options] infile.tex [outfile.lyx]\n"
"Options:\n"
"\t-c textclass Declare the textclass.\n"
"\t-m mod1[,mod2...] Load the given modules.\n"
"\t-copyfiles Copy all included files to the directory of outfile.lyx.\n"
"\t-e encoding Set the default encoding (latex name).\n"
"\t-fixedenc encoding Like -e, but ignore encoding changing commands while parsing.\n"
"\t-f Force overwrite of .lyx files.\n"
"\t-help Print this message and quit.\n"
"\t-n translate literate programming (noweb, sweave,... ) file.\n"
"\t-skipchildren Do not translate included child documents.\n"
"\t-roundtrip re-export created .lyx file infile.lyx.lyx to infile.lyx.tex.\n"
"\t-s syntaxfile read additional syntax file.\n"
"\t-sysdir SYSDIR Set system directory to SYSDIR.\n"
"\t Default: " << package().system_support() << "\n"
"\t-userdir USERDIR Set user directory to USERDIR.\n"
"\t Default: " << package().user_support() << "\n"
"\t-version Summarize version and build info.\n"
"Paths:\n"
"\tThe program searches for the files \"encodings\", \"lyxmodules.lst\",\n"
"\t\"textclass.lst\", \"syntax.default\", and \"unicodesymbols\", first in\n"
"\t\"USERDIR\", then in \"SYSDIR\". The subdirectories \"USERDIR/layouts\"\n"
"\tand \"SYSDIR/layouts\" are searched for layout and module files.\n"
"Check the tex2lyx man page for more details."
<< endl;
throw StopException(error_code);
}
int parse_version(string const &, string const &)
{
cout << "tex2lyx " << lyx_version
<< " (" << lyx_release_date << ")" << endl;
cout << lyx_version_info << endl;
throw StopException(error_code);
}
void error_message(string const & message)
{
cerr << "tex2lyx: " << message << "\n\n";
error_code = EXIT_FAILURE;
parse_help(string(), string());
}
int parse_class(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing textclass string after -c switch");
documentclass = arg;
return 1;
}
int parse_module(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing modules string after -m switch");
split(arg, preloaded_modules, ',');
return 1;
}
int parse_encoding(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing encoding string after -e switch");
default_encoding = arg;
return 1;
}
int parse_fixed_encoding(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing encoding string after -fixedenc switch");
default_encoding = arg;
fixed_encoding = true;
return 1;
}
int parse_syntaxfile(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing syntaxfile string after -s switch");
syntaxfile = internal_path(arg);
return 1;
}
// Filled with the command line arguments "foo" of "-sysdir foo" or
// "-userdir foo".
string cl_system_support;
string cl_user_support;
int parse_sysdir(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing directory for -sysdir switch");
cl_system_support = internal_path(arg);
return 1;
}
int parse_userdir(string const & arg, string const &)
{
if (arg.empty())
error_message("Missing directory for -userdir switch");
cl_user_support = internal_path(arg);
return 1;
}
int parse_force(string const &, string const &)
{
overwrite_files = true;
return 0;
}
int parse_noweb(string const &, string const &)
{
noweb_mode = true;
return 0;
}
int parse_skipchildren(string const &, string const &)
{
skip_children = true;
return 0;
}
int parse_roundtrip(string const &, string const &)
{
roundtrip = true;
return 0;
}
int parse_copyfiles(string const &, string const &)
{
copy_files = true;
return 0;
}
void TeX2LyXApp::easyParse()
{
map<string, cmd_helper> cmdmap;
cmdmap["-h"] = parse_help;
cmdmap["-help"] = parse_help;
cmdmap["--help"] = parse_help;
cmdmap["-v"] = parse_version;
cmdmap["-version"] = parse_version;
cmdmap["--version"] = parse_version;
cmdmap["-c"] = parse_class;
cmdmap["-m"] = parse_module;
cmdmap["-e"] = parse_encoding;
cmdmap["-fixedenc"] = parse_fixed_encoding;
cmdmap["-f"] = parse_force;
cmdmap["-s"] = parse_syntaxfile;
cmdmap["-n"] = parse_noweb;
cmdmap["-skipchildren"] = parse_skipchildren;
cmdmap["-sysdir"] = parse_sysdir;
cmdmap["-userdir"] = parse_userdir;
cmdmap["-roundtrip"] = parse_roundtrip;
cmdmap["-copyfiles"] = parse_copyfiles;
for (int i = 1; i < argc_; ++i) {
map<string, cmd_helper>::const_iterator it
= cmdmap.find(argv_[i]);
// don't complain if not found - may be parsed later
if (it == cmdmap.end()) {
if (argv_[i][0] == '-')
error_message(string("Unknown option `") + argv_[i] + "'.");
else
continue;
}
string arg = (i + 1 < argc_) ? os::utf8_argv(i + 1) : string();
string arg2 = (i + 2 < argc_) ? os::utf8_argv(i + 2) : string();
int const remove = 1 + it->second(arg, arg2);
// Now, remove used arguments by shifting
// the following ones remove places down.
os::remove_internal_args(i, remove);
argc_ -= remove;
for (int j = i; j < argc_; ++j)
argv_[j] = argv_[j + remove];
--i;
}
}
// path of the first parsed file
string masterFilePathLyX;
string masterFilePathTeX;
// path of the currently parsed file
string parentFilePathTeX;
} // anonymous namespace
string getMasterFilePath(bool input)
{
return input ? masterFilePathTeX : masterFilePathLyX;
}
string getParentFilePath(bool input)
{
if (input)
return parentFilePathTeX;
string const rel = to_utf8(makeRelPath(from_utf8(masterFilePathTeX),
from_utf8(parentFilePathTeX)));
if (rel.substr(0, 3) == "../") {
// The parent is not below the master - keep the path
return parentFilePathTeX;
}
return makeAbsPath(rel, masterFilePathLyX).absFileName();
}
bool copyFiles()
{
return copy_files;
}
bool overwriteFiles()
{
return overwrite_files;
}
bool skipChildren()
{
return skip_children;
}
bool roundtripMode()
{
return roundtrip;
}
namespace {
/*!
* Reads tex input from \a is and writes lyx output to \a os.
* Uses some common settings for the preamble, so this should only
* be used more than once for included documents.
* Caution: Overwrites the existing preamble settings if the new document
* contains a preamble.
* You must ensure that \p parentFilePathTeX is properly set before calling
* this function!
*/
bool tex2lyx(idocstream & is, ostream & os, string encoding)
{
// Set a sensible default encoding.
// This is used until an encoding command is found.
// For child documents use the encoding of the master, else ISO8859-1,
// (formerly known by its latex name latin1), since ISO8859-1 does not
// cause an iconv error if the actual encoding is different (bug 7509).
if (encoding.empty()) {
if (preamble.inputencoding() == "auto")
encoding = "ISO8859-1";
else {
Encoding const * const enc = encodings.fromLyXName(
preamble.inputencoding(), true);
encoding = enc->iconvName();
}
}
Parser p(is, fixed_encoding ? default_encoding : string());
p.setEncoding(encoding);
//p.dump();
preamble.parse(p, documentclass, textclass);
list<string> removed_modules;
LayoutFile const & baseClass = LayoutFileList::get()[textclass.name()];
if (!used_modules.adaptToBaseClass(&baseClass, removed_modules)) {
cerr << "Could not load default modules for text class." << endl;
return false;
}
// Load preloaded modules.
// This needs to be done after the preamble is parsed, since the text
// class may not be known before. It neds to be done before parsing
// body, since otherwise the commands/environments provided by the
// modules would be parsed as ERT.
for (size_t i = 0; i < preloaded_modules.size(); ++i) {
if (!addModule(preloaded_modules[i])) {
cerr << "Error: Could not load module \""
<< preloaded_modules[i] << "\"." << endl;
return false;
}
}
// Ensure that the modules are not loaded again for included files
preloaded_modules.clear();
active_environments.push_back("document");
Context context(true, textclass);
stringstream ss;
// store the document language in the context to be able to handle the
// commands like \foreignlanguage and \textenglish etc.
context.font.language = preamble.defaultLanguage();
// parse the main text
parse_text(p, ss, FLAG_END, true, context);
if (Context::empty)
// Empty document body. LyX needs at least one paragraph.
context.check_layout(ss);
context.check_end_layout(ss);
ss << "\n\\end_body\n\\end_document\n";
active_environments.pop_back();
// We know the used modules only after parsing the full text
if (!used_modules.empty()) {
LayoutModuleList::const_iterator const end = used_modules.end();
LayoutModuleList::const_iterator it = used_modules.begin();
for (; it != end; ++it)
preamble.addModule(*it);
}
if (!preamble.writeLyXHeader(os, !active_environments.empty())) {
cerr << "Could not write LyX file header." << endl;
return false;
}
ss.seekg(0);
os << ss.str();
#ifdef TEST_PARSER
p.reset();
ofdocstream parsertest("parsertest.tex");
while (p.good())
parsertest << p.get_token().asInput();
// <origfile> and parsertest.tex should now have identical content
#endif
return true;
}
/// convert TeX from \p infilename to LyX and write it to \p os
bool tex2lyx(FileName const & infilename, ostream & os, string const & encoding)
{
ifdocstream is;
// forbid buffering on this stream
is.rdbuf()->pubsetbuf(0,0);
is.open(infilename.toFilesystemEncoding().c_str());
if (!is.good()) {
cerr << "Could not open input file \"" << infilename
<< "\" for reading." << endl;
return false;
}
string const oldParentFilePath = parentFilePathTeX;
parentFilePathTeX = onlyPath(infilename.absFileName());
bool retval = tex2lyx(is, os, encoding);
parentFilePathTeX = oldParentFilePath;
return retval;
}
} // anonymous namespace
bool tex2lyx(string const & infilename, FileName const & outfilename,
string const & encoding)
{
if (outfilename.isReadableFile()) {
if (overwrite_files) {
cerr << "Overwriting existing file "
<< outfilename << endl;
} else {
cerr << "Not overwriting existing file "
<< outfilename << endl;
return false;
}
} else {
cerr << "Creating file " << outfilename << endl;
}
ofstream os(outfilename.toFilesystemEncoding().c_str());
if (!os.good()) {
cerr << "Could not open output file \"" << outfilename
<< "\" for writing." << endl;
return false;
}
#ifdef FILEDEBUG
cerr << "Input file: " << infilename << "\n";
cerr << "Output file: " << outfilename << "\n";
#endif
return tex2lyx(FileName(infilename), os, encoding);
}
bool tex2tex(string const & infilename, FileName const & outfilename,
string const & encoding)
{
if (!tex2lyx(infilename, outfilename, encoding))
return false;
string command = quoteName(package().lyx_binary().toFilesystemEncoding());
if (overwrite_files)
command += " -f main";
else
command += " -f none";
if (pdflatex)
command += " -e pdflatex ";
else if (xetex)
command += " -e xetex ";
else
command += " -e latex ";
command += quoteName(outfilename.toFilesystemEncoding());
Systemcall one;
if (one.startscript(Systemcall::Wait, command) == 0)
return true;
cerr << "Error: Running '" << command << "' failed." << endl;
return false;
}
namespace {
int TeX2LyXApp::run()
{
// qt changes this, and our numeric conversions require the C locale
setlocale(LC_NUMERIC, "C");
try {
init_package(internal_path(os::utf8_argv(0)), string(), string());
} catch (ExceptionMessage const & message) {
cerr << to_utf8(message.title_) << ":\n"
<< to_utf8(message.details_) << endl;
if (message.type_ == ErrorException)
return EXIT_FAILURE;
}
easyParse();
if (argc_ <= 1)
error_message("Not enough arguments.");
try {
init_package(internal_path(os::utf8_argv(0)),
cl_system_support, cl_user_support);
} catch (ExceptionMessage const & message) {
cerr << to_utf8(message.title_) << ":\n"
<< to_utf8(message.details_) << endl;
if (message.type_ == ErrorException)
return EXIT_FAILURE;
}
// Check that user LyX directory is ok.
FileName const sup = package().user_support();
if (sup.exists() && sup.isDirectory()) {
string const lock_file = package().getConfigureLockName();
int fd = fileLock(lock_file.c_str());
if (configFileNeedsUpdate("lyxrc.defaults") ||
configFileNeedsUpdate("lyxmodules.lst") ||
configFileNeedsUpdate("textclass.lst") ||
configFileNeedsUpdate("packages.lst"))
package().reconfigureUserLyXDir("");
fileUnlock(fd, lock_file.c_str());
} else
error_message("User directory does not exist.");
// Now every known option is parsed. Look for input and output
// file name (the latter is optional).
string infilename = internal_path(os::utf8_argv(1));
infilename = makeAbsPath(infilename).absFileName();
string outfilename;
if (argc_ > 2) {
outfilename = internal_path(os::utf8_argv(2));
if (outfilename != "-")
outfilename = makeAbsPath(outfilename).absFileName();
if (roundtrip) {
if (outfilename == "-") {
cerr << "Error: Writing to standard output is "
"not supported in roundtrip mode."
<< endl;
return EXIT_FAILURE;
}
string texfilename = changeExtension(outfilename, ".tex");
if (equivalent(FileName(infilename), FileName(texfilename))) {
cerr << "Error: The input file `" << infilename
<< "´ would be overwritten by the TeX file exported from `"
<< outfilename << "´ in roundtrip mode." << endl;
return EXIT_FAILURE;
}
}
} else if (roundtrip) {
// avoid overwriting the input file
outfilename = changeExtension(infilename, ".lyx.lyx");
} else
outfilename = changeExtension(infilename, ".lyx");
// Read the syntax tables
FileName const system_syntaxfile = libFileSearch("", "syntax.default");
if (system_syntaxfile.empty()) {
cerr << "Error: Could not find syntax file \"syntax.default\"." << endl;
return EXIT_FAILURE;
}
if (!read_syntaxfile(system_syntaxfile))
return 2;
if (!syntaxfile.empty())
if (!read_syntaxfile(makeAbsPath(syntaxfile)))
return 2;
// Read the encodings table.
FileName const symbols_path = libFileSearch(string(), "unicodesymbols");
if (symbols_path.empty()) {
cerr << "Error: Could not find file \"unicodesymbols\"."
<< endl;
return EXIT_FAILURE;
}
FileName const enc_path = libFileSearch(string(), "encodings");
if (enc_path.empty()) {
cerr << "Error: Could not find file \"encodings\"."
<< endl;
return EXIT_FAILURE;
}
encodings.read(enc_path, symbols_path);
if (!default_encoding.empty()) {
Encoding const * const enc = encodings.fromLaTeXName(
default_encoding, Encoding::any, true);
if (!enc)
error_message("Unknown LaTeX encoding `" + default_encoding + "'");
default_encoding = enc->iconvName();
if (fixed_encoding)
preamble.setInputencoding(enc->name());
}
// Load the layouts
LayoutFileList::get().read();
//...and the modules
theModuleList.read();
// The real work now.
masterFilePathTeX = onlyPath(infilename);
parentFilePathTeX = masterFilePathTeX;
if (outfilename == "-") {
// assume same directory as input file
masterFilePathLyX = masterFilePathTeX;
if (tex2lyx(FileName(infilename), cout, default_encoding))
return EXIT_SUCCESS;
} else {
masterFilePathLyX = onlyPath(outfilename);
if (copy_files) {
FileName const path(masterFilePathLyX);
if (!path.isDirectory()) {
if (!path.createPath()) {
cerr << "Warning: Could not create directory for file `"
<< masterFilePathLyX << "´." << endl;
return EXIT_FAILURE;
}
}
}
if (roundtrip) {
if (tex2tex(infilename, FileName(outfilename), default_encoding))
return EXIT_SUCCESS;
} else {
if (lyx::tex2lyx(infilename, FileName(outfilename), default_encoding))
return EXIT_SUCCESS;
}
}
return EXIT_FAILURE;
}
} // anonymous namespace
} // namespace lyx
int main(int argc, char * argv[])
{
//setlocale(LC_CTYPE, "");
lyx::lyxerr.setStream(cerr);
os::init(argc, argv);
lyx::TeX2LyXApp app(argc, argv);
return app.exec();
}
// }])