/** * \file ispell.C * Copyright 2002 the LyX Team * Read the file COPYING * * \author unknown * \author John Levon */ #include #include "LString.h" #include "lyxrc.h" #include "language.h" #include "debug.h" #include "encoding.h" #include "ispell.h" #include "WordLangTuple.h" #include "gettext.h" #include "support/forkedcall.h" #include "support/lstrings.h" // HP-UX 11.x doesn't have this header #ifdef HAVE_SYS_SELECT_H #include #endif #include #ifndef CXX_GLOBAL_CSTD using std::strcpy; using std::strlen; using std::strpbrk; using std::strstr; #endif using std::endl; using std::max; namespace { class LaunchIspell : public ForkedProcess { public: /// LaunchIspell(BufferParams const & p, string const & l, int * in, int * out, int * err) : params(p), lang(l), pipein(in), pipeout(out), pipeerr(err) {} /// virtual ForkedProcess * clone() const { return new LaunchIspell(*this); } /// int start(); private: /// virtual int generateChild(); /// BufferParams const & params; string const & lang; int * const pipein; int * const pipeout; int * const pipeerr; }; int LaunchIspell::start() { command_ = "ispell"; return runNonBlocking(); } int LaunchIspell::generateChild() { pid_t isp_pid = fork(); if (isp_pid != 0) { // failed (-1) or parent process (>0) return isp_pid; } // child process dup2(pipein[0], STDIN_FILENO); dup2(pipeout[1], STDOUT_FILENO); dup2(pipeerr[1], STDERR_FILENO); close(pipein[0]); close(pipein[1]); close(pipeout[0]); close(pipeout[1]); close(pipeerr[0]); close(pipeerr[1]); char * argv[14]; int argc = 0; char * tmp = new char[lyxrc.isp_command.length() + 1]; lyxrc.isp_command.copy(tmp, lyxrc.isp_command.length()); tmp[lyxrc.isp_command.length()] = '\0'; argv[argc++] = tmp; tmp = new char[3]; string("-a").copy(tmp, 2); tmp[2] = '\0'; // pipe mode argv[argc++] = tmp; if (lang != "default") { tmp = new char[3]; string("-d").copy(tmp, 2); tmp[2] = '\0'; // Dictionary file argv[argc++] = tmp; tmp = new char[lang.length() + 1]; lang.copy(tmp, lang.length()); tmp[lang.length()] = '\0'; argv[argc++] = tmp; } if (lyxrc.isp_accept_compound) { // Consider run-together words as legal compounds tmp = new char[3]; string("-C").copy(tmp, 2); tmp[2] = '\0'; argv[argc++] = tmp; } else { // Report run-together words with // missing blanks as errors tmp = new char[3]; string("-B").copy(tmp, 2); tmp[2] = '\0'; argv[argc++] = tmp; } if (lyxrc.isp_use_esc_chars) { // Specify additional characters that // can be part of a word tmp = new char[3]; string("-w").copy(tmp, 2); tmp[2] = '\0'; argv[argc++] = tmp; // Put the escape chars in ""s string tms = '"' + lyxrc.isp_esc_chars + '"'; tmp = new char[tms.length() + 1]; tms.copy(tmp, tms.length()); tmp[tms.length()] = '\0'; argv[argc++] = tmp; } if (lyxrc.isp_use_pers_dict) { // Specify an alternate personal dictionary tmp = new char[3]; string("-p").copy(tmp, 2); tmp[2]= '\0'; argv[argc++] = tmp; tmp = new char[lyxrc.isp_pers_dict.length() + 1]; lyxrc.isp_pers_dict.copy(tmp, lyxrc.isp_pers_dict.length()); tmp[lyxrc.isp_pers_dict.length()] = '\0'; argv[argc++] = tmp; } if (lyxrc.isp_use_input_encoding && params.inputenc != "default") { string enc = (params.inputenc == "auto") ? params.language->encoding()->LatexName() : params.inputenc; string::size_type n = enc.length(); tmp = new char[3]; string("-T").copy(tmp, 2); tmp[2] = '\0'; argv[argc++] = tmp; // Input encoding tmp = new char[n + 1]; enc.copy(tmp, n); tmp[n] = '\0'; argv[argc++] = tmp; } argv[argc++] = 0; execvp(argv[0], const_cast(argv)); // free the memory used by string::copy in the // setup of argv for (int i = 0; i < argc - 1; ++i) delete[] argv[i]; lyxerr << "LyX: Failed to start ispell!" << endl; _exit(0); } } // namespace anon ISpell::ISpell(BufferParams const & params, string const & lang) : in(0), out(0), inerr(0), str(0) { lyxerr[Debug::GUI] << "Created ispell" << endl; // static due to the setvbuf. Ugly. static char o_buf[BUFSIZ]; // We need to throw an exception not do this pipein[0] = pipein[1] = pipeout[0] = pipeout[1] = pipeerr[0] = pipeerr[1] = -1; // This is what happens when goto gets banned. if (pipe(pipein) == -1) { error_ = _("Can't create pipe for spellchecker."); return; } if (pipe(pipeout) == -1) { close(pipein[0]); close(pipein[1]); error_ = _("Can't create pipe for spellchecker."); return; } if (pipe(pipeerr) == -1) { close(pipein[0]); close(pipein[1]); close(pipeout[0]); close(pipeout[1]); error_ = _("Can't create pipe for spellchecker."); return; } if ((out = fdopen(pipein[1], "w")) == 0) { error_ = _("Can't open pipe for spellchecker."); return; } if ((in = fdopen(pipeout[0], "r")) == 0) { error_ = _("Can't open pipe for spellchecker."); return; } if ((inerr = fdopen(pipeerr[0], "r")) == 0) { error_ = _("Can't open pipe for spellchecker."); return; } setvbuf(out, o_buf, _IOLBF, BUFSIZ); LaunchIspell * li = new LaunchIspell(params, lang, pipein, pipeout, pipeerr); child_.reset(li); if (li->start() == -1) { error_ = _("Could not create an ispell process.\nYou may not have " "the right languages installed."); child_.reset(0); return; } /* Parent process: Read ispells identification message */ bool err_read; bool error = select(err_read); if (!error) { if (!err_read) { // Set terse mode (silently accept correct words) fputs("!\n", out); return; } /* must have read something from stderr */ error_ = buf; } else { // select returned error error_ = _("The spell process returned an error.\nPerhaps " "it has been configured wrongly ?"); } close(pipein[0]); close(pipein[1]); close(pipeout[0]); close(pipeout[1]); close(pipeerr[0]); close(pipeerr[1]); child_->kill(); child_.reset(0); } ISpell::~ISpell() { lyxerr[Debug::GUI] << "Killing ispell" << endl; if (in) fclose(in); if (inerr) fclose(inerr); if (out) { fputs("#\n", out); // Save personal dictionary fflush(out); fclose(out); } close(pipein[0]); close(pipein[1]); close(pipeout[0]); close(pipeout[1]); close(pipeerr[0]); close(pipeerr[1]); delete [] str; } bool ISpell::select(bool & err_read) { fd_set infds; struct timeval tv; int retval = 0; FD_ZERO(&infds); FD_SET(pipeout[0], &infds); FD_SET(pipeerr[0], &infds); tv.tv_sec = 2; tv.tv_usec = 0; retval = ::select(SELECT_TYPE_ARG1 (max(pipeout[0], pipeerr[0]) + 1), SELECT_TYPE_ARG234 (&infds), 0, 0, SELECT_TYPE_ARG5 (&tv)); // error if (retval <= 0) return true; if (FD_ISSET(pipeerr[0], &infds)) { fgets(buf, BUFSIZ, inerr); err_read = true; return false; } fgets(buf, BUFSIZ, in); err_read = false; return false; } string const ISpell::nextMiss() { // Well, somebody is a sick fuck. if (str == 0 || *(e+1) == '\0') return ""; char * b = e + 2; e = strpbrk(b, ",\n"); *e = '\0'; if (b) return b; return ""; } bool ISpell::alive() { return child_.get() && child_->running(); } enum ISpell::Result ISpell::check(WordLangTuple const & word) { // FIXME Please rewrite to use string. Result res; ::fputs(word.word().c_str(), out); ::fputc('\n', out); bool err_read; bool error = select(err_read); if (error) { error_ = _("Could not communicate with the spell-checker program."); return UNKNOWN; } if (err_read) { error_ = buf; return UNKNOWN; } // I think we have to check if ispell is still alive here because // the signal-handler could have disabled blocking on the fd if (!alive()) return UNKNOWN; switch (*buf) { case '*': res = OK; break; case '+': res = ROOT; break; case '-': res = COMPOUNDWORD; break; case '\n': res = IGNORE; break; case '#': // Not found, no near misses and guesses res = UNKNOWN; break; case '?': // Not found, and no near misses, but guesses (guesses are ignored) case '&': // Not found, but we have near misses { res = MISSED; char * p = strpbrk(buf, ":"); str = new char[strlen(p) + 1]; e = str; strcpy(str, p); break; } default: // This shouldn't happen, but you know Murphy res = UNKNOWN; } *buf = 0; if (res != IGNORE) { /* wait for ispell to finish */ while (*buf!= '\n') fgets(buf, 255, in); } return res; } void ISpell::insert(WordLangTuple const & word) { ::fputc('*', out); // Insert word in personal dictionary ::fputs(word.word().c_str(), out); ::fputc('\n', out); } void ISpell::accept(WordLangTuple const & word) { ::fputc('@', out); // Accept in this session ::fputs(word.word().c_str(), out); ::fputc('\n', out); } string const ISpell::error() { return error_; }