#include <iostream> using namespace std; #include "../FbTk/Signal.hh" #include "../FbTk/MemFun.hh" #include <string> struct NoArgument { void operator() () const { cout << "No Argument." << endl; } }; struct OneArgument { void operator ()( int value ) { cout << "One argument = " << value << endl; } }; struct TwoArguments { template <typename T1, typename T2> void operator ()( const T1& value, const T2& message ) { cout << "Two arguments, (1) = " << value << ", (2) = " << message << endl; } }; struct ThreeArguments { void operator ()( int value, const string& message, double value2 ) { cout << "Two arguments, (1) = " << value << ", (2) = " << message << ", (3) = " << value2 << endl; } }; struct FunctionClass { FunctionClass() { cout << "FunctionClass created." << endl; } ~FunctionClass() { cout << "FunctionClass deleted." << endl; } void print() { cout << "Printing." << endl; } void takeIt( string& str ) { cout << "FunctionClass::takeIt( " << str << " )" << endl; } void showMessage( int value, const string& message ) { cout << "(" << value << "): " << message << endl; } void showMessage2( const string& message1, const string& message2) { cout << "(" << message1 << ", " << message2 << ")" << endl; } void threeArgs( int value, const string& str, double pi ) { cout << "(" << value << "): " << str << ", pi = " << pi << endl; } }; struct Printer { void printInt(int value) { cout << "Int:" << value << endl; } void printString(string value) { cout << "string:" << value << endl; } void printFloat(float value) { cout << "Float:" << value << endl; } }; int main() { using FbTk::Signal; using FbTk::SignalTracker; Signal<> no_arg; no_arg.connect( NoArgument() ); Signal<int> one_arg; one_arg.connect( OneArgument() ); Signal<int, const string&> two_args; two_args.connect( TwoArguments() ); Signal<int, const string&, double> three_args; three_args.connect( ThreeArguments() ); // emit test no_arg.emit(); one_arg.emit( 10 ); two_args.emit( 10, "Message" ); three_args.emit( 10, "Three", 3.141592 ); // test signal tracker { cout << "---- tracker ----" << endl; SignalTracker tracker; // setup two new slots and track them SignalTracker::TrackID id_no_arg = tracker.join( no_arg, NoArgument() ); SignalTracker::TrackID id_one_arg = tracker.join( one_arg, OneArgument() ); // two outputs each from these two signals no_arg.emit(); one_arg.emit( 31 ); // stop tracking id_one_arg, which should keep the slot after this scope, // the id_no_arg connection should be destroyed after this. tracker.leave( id_one_arg ); cout << "---- tracker end ----" << endl; } // now we should have one output from no_arg and two outputs from one_arg no_arg.emit(); one_arg.emit( 2 ); using FbTk::MemFun; FunctionClass obj; no_arg.clear(); no_arg.connect(MemFun(obj, &FunctionClass::print)); no_arg.emit(); string takeThis("Take this"); Signal<string&> ref_arg; ref_arg.connect(MemFun(obj, &FunctionClass::takeIt)); ref_arg.emit( takeThis ); two_args.clear(); two_args.connect(MemFun(obj, &FunctionClass::showMessage)); two_args.emit(10, "This is a message"); three_args.clear(); three_args.connect(MemFun(obj, &FunctionClass::threeArgs)); three_args.emit(9, "nine", 3.141592); // Test ignore signals { cout << "----------- Testing ignoring arguments for signal." << endl; using FbTk::MemFunIgnoreArgs; // Create a signal that emits with three arguments, and connect // sinks that takes less than three arguments. Signal<string, string, float> more_args; more_args.connect(MemFunIgnoreArgs(obj, &FunctionClass::print)); more_args.connect(MemFunIgnoreArgs(obj, &FunctionClass::takeIt)); more_args.connect(MemFunIgnoreArgs(obj, &FunctionClass::showMessage2)); more_args.emit("This should be visible for takeIt(string)", "Visible to the two args function.", 2.9); } // Test argument selector { using namespace FbTk; Signal<int, string, float> source; Printer printer; source.connect(MemFunSelectArg0(printer, &Printer::printInt)); source.connect(MemFunSelectArg1(printer, &Printer::printString)); source.connect(MemFunSelectArg2(printer, &Printer::printFloat)); source.emit(10, "hello", 3.141592); Signal<string, int> source2; source2.connect(MemFunSelectArg0(printer, &Printer::printString)); source2.connect(MemFunSelectArg1(printer, &Printer::printInt)); source2.emit("world", 37); } }