/** Collection of some useful xform helper functions */ #include #include FORMS_H_LOCATION #include // ofstream #include #ifdef __GNUG_ #pragma implementation #endif #include "xforms_helpers.h" #include "lyxlex.h" #include "support/FileInfo.h" #include "support/filetools.h" #include "support/lstrings.h" // frontStrip, strip #include "gettext.h" #include "support/LAssert.h" using std::ofstream; using std::pair; using std::vector; // Extract shortcut from | string char const * flyx_shortcut_extract(char const * sc) { // Find '|' in the sc and return the string after that. register char const * sd = sc; while(sd[0]!= 0 && sd[0] != '|') ++sd; if (sd[0] == '|') { ++sd; //lyxerr << sd << endl; return sd; } return ""; } // Extract identifier from | string char const * flyx_ident_extract(char const * sc) { register char const * se = sc; while(se[0]!= 0 && se[0] != '|') ++se; if (se[0] == 0) return sc; char * sb = new char[se - sc + 1]; int index = 0; register char const * sd = sc; while (sd != se) { sb[index] = sd[0]; ++index; ++sd; } sb[index] = 0; return sb; } // Set an FL_OBJECT to activated or deactivated void setEnabled(FL_OBJECT * ob, bool enable) { if (enable) { fl_activate_object(ob); fl_set_object_lcol(ob, FL_BLACK); } else { fl_deactivate_object(ob); fl_set_object_lcol(ob, FL_INACTIVE); } } // Given an fl_choice, create a vector of its entries vector const getVectorFromChoice(FL_OBJECT * ob) { vector vec; if (!ob || ob->objclass != FL_CHOICE) return vec; for(int i = 0; i < fl_get_choice_maxitems(ob); ++i) { string const text = fl_get_choice_item_text(ob, i+1); vec.push_back(strip(frontStrip(text))); } return vec; } // Given an fl_browser, create a vector of its entries vector const getVectorFromBrowser(FL_OBJECT * ob) { vector vec; if (!ob || ob->objclass != FL_BROWSER) return vec; for(int i = 0; i < fl_get_browser_maxline(ob); ++i) { string const text = fl_get_browser_line(ob, i+1); vec.push_back(strip(frontStrip(text))); } return vec; } string getLengthFromWidgets(FL_OBJECT * input, FL_OBJECT * choice) { // Paranoia check lyx::Assert(input && input->objclass == FL_INPUT && choice && choice->objclass == FL_CHOICE); string const length = strip(frontStrip(fl_get_input(input))); if (length.empty()) return string(); string unit = strip(frontStrip(fl_get_choice_text(choice))); unit = subst(unit, "%%", "%"); return length + unit; } void updateWidgetsFromLengthString(FL_OBJECT * input, FL_OBJECT * choice, string const & str, string const & default_unit) { // Paranoia check lyx::Assert(input && input->objclass == FL_INPUT && choice && choice->objclass == FL_CHOICE); if (str.empty()) { fl_set_input(input, ""); int unitpos = 1; // xforms has Fortran-style indexing for(int i = 0; i < fl_get_choice_maxitems(choice); ++i) { string const text = fl_get_choice_item_text(choice,i+1); if (default_unit == lowercase(strip(frontStrip(text)))) { unitpos = i+1; break; } } fl_set_choice(choice, unitpos); return; } // The unit is presumed to begin at the first char a-z string const tmp = lowercase(strip(frontStrip(str))); string::const_iterator p = tmp.begin(); for (; p != tmp.end(); ++p) { if (*p >= 'a' && *p <= 'z') break; } string len = "0"; int unitpos = 1; // xforms has Fortran-style indexing if (p == tmp.end()) { if (isStrDbl(tmp)) len = tmp; } else { string tmplen = string(tmp.begin(), p); if (isStrDbl(tmplen)) len = tmplen; string unit = string(p, tmp.end()); unit = subst(unit, "%", "%%"); for(int i = 0; i < fl_get_choice_maxitems(choice); ++i) { string const text = fl_get_choice_item_text(choice,i+1); if (unit == lowercase(strip(frontStrip(text)))) { unitpos = i+1; break; } } } fl_set_input(input, len.c_str()); fl_set_choice(choice, unitpos); } // Take a string and add breaks so that it fits into a desired label width, w string formatted(string const & sin, int w, int size, int style) { // FIX: Q: Why cant this be done by a one pass algo? (Lgb) string sout; if (sin.empty()) return sout; // breaks in up into a vector of individual words vector sentence; string word; for (string::const_iterator sit = sin.begin(); sit != sin.end(); ++sit) { if ((*sit) == ' ' || (*sit) == '\n') { if (!word.empty()) { sentence.push_back(word); word.erase(); } if ((*sit) == '\n') word += '\n'; } else { word += (*sit); } } // Flush remaining contents of word if (!word.empty() ) sentence.push_back(word); string line; string line_plus_word; for (vector::const_iterator vit = sentence.begin(); vit != sentence.end(); ++vit) { string word(*vit); char c = word[0]; if (c == '\n') { sout += line + '\n'; word.erase(0,1); line_plus_word.erase(); line.erase(); } if (!line_plus_word.empty() ) line_plus_word += ' '; line_plus_word += word; int const length = fl_get_string_width(style, size, line_plus_word.c_str(), int(line_plus_word.length())); if (length >= w) { sout += line + '\n'; line_plus_word = word; } line = line_plus_word; } // Flush remaining contents of line if (!line.empty()) { sout += line; } if (sout[sout.length() - 1] == '\n') sout.erase(sout.length() - 1); return sout; } namespace { // sorted by hand to prevent LyXLex from complaining on read(). keyword_item xformTags[] = { { "\\gui_background", FL_COL1 }, { "\\gui_buttonbottom", FL_BOTTOM_BCOL }, { "\\gui_buttonleft", FL_LEFT_BCOL }, { "\\gui_buttonright", FL_RIGHT_BCOL }, { "\\gui_buttontop", FL_TOP_BCOL }, { "\\gui_inactive", FL_INACTIVE }, { "\\gui_push_button", FL_YELLOW }, { "\\gui_selected", FL_MCOL }, { "\\gui_text", FL_BLACK } }; const int xformCount = sizeof(xformTags) / sizeof(keyword_item); } // namespace anon bool XformsColor::read(string const & filename) { LyXLex lexrc(xformTags, xformCount); if (!lexrc.setFile(filename)) return false; while (lexrc.isOK()) { int const le = lexrc.lex(); switch (le) { case LyXLex::LEX_UNDEF: lexrc.printError("Unknown tag `$$Token'"); continue; case LyXLex::LEX_FEOF: continue; default: break; } RGBColor col; if (!lexrc.next()) break; col.r = lexrc.getInteger(); if (!lexrc.next()) break; col.g = lexrc.getInteger(); if (!lexrc.next()) break; col.b = lexrc.getInteger(); fl_mapcolor(le, col.r, col.g, col.b); } return true; } bool XformsColor::write(string const & filename) { ofstream os(filename.c_str()); if (!os) return false; os << "### This file is part of\n" << "### ========================================================\n" << "### LyX, The Document Processor\n" << "###\n" << "### Copyright 1995 Matthias Ettrich\n" << "### Copyright 1995-2001 The LyX Team.\n" << "###\n" << "### ========================================================\n" << "\n" << "# This file is written by LyX, if you want to make your own\n" << "# modifications you should do them from inside LyX and save\n" << "\n"; for (int i = 0; i < xformCount; ++i) { string const tag = xformTags[i].tag; int const colorID = xformTags[i].code; RGBColor color; fl_getmcolor(colorID, &color.r, &color.g, &color.b); os << tag << " " << color.r << " " << color.g << " " << color.b << "\n"; } return true; } string RWInfo::error_message; bool RWInfo::WriteableDir(string const & name) { error_message.erase(); if (!AbsolutePath(name)) { error_message = N_("The absolute path is required."); return false; } FileInfo const tp(name); if (!tp.isDir()) { error_message = N_("Directory does not exist."); return false; } if (!tp.writable()) { error_message = N_("Cannot write to this directory."); return false; } return true; } bool RWInfo::ReadableDir(string const & name) { error_message.erase(); if (!AbsolutePath(name)) { error_message = N_("The absolute path is required."); return false; } FileInfo const tp(name); if (!tp.isDir()) { error_message = N_("Directory does not exist."); return false; } if (!tp.readable()) { error_message = N_("Cannot read this directory."); return false; } return true; } bool RWInfo::WriteableFile(string const & name) { // A writeable file is either: // * An existing file to which we have write access, or // * A file that doesn't yet exist but that would exist in a writeable // directory. error_message.erase(); if (name.empty()) { error_message = N_("No file input."); return false; } string const dir = OnlyPath(name); if (!AbsolutePath(dir)) { error_message = N_("The absolute path is required."); return false; } FileInfo d(name); if (!d.isDir()) { d.newFile(dir); } if (!d.isDir()) { error_message = N_("Directory does not exist."); return false; } if (!d.writable()) { error_message = N_("Cannot write to this directory."); return false; } FileInfo f(name); if (dir == name || f.isDir()) { error_message = N_("A file is required, not a directory."); return false; } if (f.exist() && !f.writable()) { error_message = N_("Cannot write to this file."); return false; } return true; } bool RWInfo::ReadableFile(string const & name) { error_message.erase(); if (name.empty()) { error_message = N_("No file input."); return false; } string const dir = OnlyPath(name); if (!AbsolutePath(dir)) { error_message = N_("The absolute path is required."); return false; } FileInfo d(name); if (!d.isDir()) { d.newFile(dir); } if (!d.isDir()) { error_message = N_("Directory does not exist."); return false; } if (!d.readable()) { error_message = N_("Cannot read from this directory."); return false; } FileInfo f(name); if (dir == name || f.isDir()) { error_message = N_("A file is required, not a directory."); return false; } if (!f.exist()) { error_message = N_("File does not exist."); return false; } if (!f.readable()) { error_message = N_("Cannot read from this file."); return false; } return true; }