// wrapper.cpp // A small wrapper program around Jay Bromley's keyboard layout information class. // // Compilation: // g++ -o xkblayout-state XKeyboard.cpp wrapper.cpp -lX11 // // This program is free software; you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 of the License, or (at your option) // any later version. #include #include #include #include #include "XKeyboard.h" using namespace std; void print_usage(string progname) { cerr << endl << "xkblayout-state version 1b" << endl << endl << "Usage: " << endl << endl << "To get the current layout(s):" << endl << " " << progname << " print format" << endl << endl << "This causes the 'format' string to be printed on stdout with the following substitutions:" << endl << " %c -> current layout number" << endl << " %n -> current layout name" << endl << " %s -> current layout symbol" << endl << " %v -> current layout variant" << endl << " %e -> current layout variant (equals to %s if %v is empty)" << endl << " %C -> layout count" << endl << " %N -> layout names (one per line)" << endl << " %S -> layout symbols (one per line)" << endl << " %V -> layout variants (one per line)" << endl << " %E -> layout variants (one per line; layout symbol is used if variant is empty)" << endl << " %% -> A literal '%'" << endl << endl << "For example:" << endl << " " << progname << " print \"Current layout: %s(%e)\"" << endl << endl << "To set the current layout:" << endl << " " << progname << " set layout_number" << endl << endl << "Here 'layout_number' is the number of the layout to be set (starting from 0)" << endl << "and can be either absolute (default) or relative (if preceded with a plus or minus sign)." << endl << endl << "For example:" << endl << " " << progname << " set 1" << endl << " " << progname << " set +1" << endl << endl; } bool print_status(XKeyboard& xkb, string format) { stringstream r; // resulting string for (size_t i = 0; i < format.length(); ++i) { if (i < format.length()-2 && format[i] == '%') { switch (format[i+1]) { case 'c': r << xkb.currentGroupNum(); break; case 'n': r << xkb.currentGroupName(); break; case 's': r << xkb.currentGroupSymbol(); break; case 'v': r << xkb.currentGroupVariant(); break; case 'e': if (xkb.currentGroupVariant().empty()) r << xkb.currentGroupSymbol(); else r << xkb.currentGroupVariant(); break; case 'C': r << xkb.groupCount(); break; case 'N': for (size_t j = 0; j < xkb.groupNames().size(); ++j) r << xkb.groupNames()[j] << endl; break; case 'S': for (size_t j = 0; j < xkb.groupSymbols().size(); ++j) r << xkb.groupSymbols()[j] << endl; break; case 'V': for (size_t j = 0; j < xkb.groupVariants().size(); ++j) r << xkb.groupVariants()[j] << endl; break; case 'E': for (size_t j = 0; j < xkb.groupVariants().size(); ++j) if (xkb.groupVariants()[j].empty()) r << xkb.groupSymbols()[j] << endl; else r << xkb.groupVariants()[j] << endl; break; case '%': r << '%'; break; default: cerr << "Unknown format character: " << format[i+1] << endl; return false; break; } ++i; } else { // not '%' r << format[i]; } } cout << r.str(); return true; } bool set_group(XKeyboard& xkb, string group) { bool relative = false; // Check that 'group' is a valid integer (and whether it's relative or not) size_t i = 0; if (group[0] == '+' || group[0] == '-') { relative = true; ++i; } for (; i < group.length(); ++i) { if (!isdigit(group[i])) { cerr << group << " is not an integer" << endl; return false; } } int group_int = atoi(group.c_str()); if (relative) { if (!xkb.changeGroup(group_int)) { cerr << "Failed to change group" << endl; return false; } } else { if (group_int >= xkb.groupCount()) { cerr << "layout_number must be between 0 and " << xkb.groupCount()-1 << endl; return false; } else { if (!xkb.setGroupByNum(group_int)) { cerr << "Failed to change group" << endl; return false; } } } return true; } int main(int argc, char* argv[]) { try { XKeyboard xkb; if (argc != 3) { print_usage(string(argv[0])); return EXIT_FAILURE; } else { string command(argv[1]); if (command == "print") { if (!print_status(xkb, string(argv[2]))) return EXIT_FAILURE; } else if (command == "set") { if (!set_group(xkb, string(argv[2]))) return EXIT_FAILURE; } else { print_usage(string(argv[0])); return EXIT_FAILURE; } } } catch (const exception *e) { cerr << e->what() << endl; return EXIT_FAILURE; } return EXIT_SUCCESS; }