tomwalters@509: /* tomwalters@509: oscpack -- Open Sound Control packet manipulation library tomwalters@509: http://www.audiomulch.com/~rossb/oscpack tomwalters@509: tomwalters@509: Copyright (c) 2004-2005 Ross Bencina tomwalters@509: tomwalters@509: Permission is hereby granted, free of charge, to any person obtaining tomwalters@509: a copy of this software and associated documentation files tomwalters@509: (the "Software"), to deal in the Software without restriction, tomwalters@509: including without limitation the rights to use, copy, modify, merge, tomwalters@509: publish, distribute, sublicense, and/or sell copies of the Software, tomwalters@509: and to permit persons to whom the Software is furnished to do so, tomwalters@509: subject to the following conditions: tomwalters@509: tomwalters@509: The above copyright notice and this permission notice shall be tomwalters@509: included in all copies or substantial portions of the Software. tomwalters@509: tomwalters@509: Any person wishing to distribute modifications to the Software is tomwalters@509: requested to send the modifications to the original developer so that tomwalters@509: they can be incorporated into the canonical version. tomwalters@509: tomwalters@509: THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, tomwalters@509: EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF tomwalters@509: MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. tomwalters@509: IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR tomwalters@509: ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF tomwalters@509: CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION tomwalters@509: WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. tomwalters@509: */ tomwalters@509: #include "OscReceiveTest.h" tomwalters@509: tomwalters@509: #include tomwalters@509: #include tomwalters@509: tomwalters@509: #include "osc/OscReceivedElements.h" tomwalters@509: tomwalters@509: #include "ip/UdpSocket.h" tomwalters@509: #include "osc/OscPacketListener.h" tomwalters@509: tomwalters@509: tomwalters@509: namespace osc{ tomwalters@509: tomwalters@509: class OscReceiveTestPacketListener : public OscPacketListener{ tomwalters@509: protected: tomwalters@509: tomwalters@509: void ProcessMessage( const osc::ReceivedMessage& m, const IpEndpointName& remoteEndpoint ) tomwalters@509: { tomwalters@509: // a more complex scheme involving std::map or some other method of tomwalters@509: // processing address patterns could be used here tomwalters@509: // (see MessageMappingOscPacketListener.h for example). however, the main tomwalters@509: // purpose of this example is to illustrate and test different argument tomwalters@509: // parsing methods tomwalters@509: tomwalters@509: try { tomwalters@509: // argument stream, and argument iterator, used in different tomwalters@509: // examples below. tomwalters@509: ReceivedMessageArgumentStream args = m.ArgumentStream(); tomwalters@509: ReceivedMessage::const_iterator arg = m.ArgumentsBegin(); tomwalters@509: tomwalters@509: if( strcmp( m.AddressPattern(), "/test1" ) == 0 ){ tomwalters@509: tomwalters@509: // example #1: tomwalters@509: // parse an expected format using the argument stream interface: tomwalters@509: bool a1; tomwalters@509: osc::int32 a2; tomwalters@509: float a3; tomwalters@509: const char *a4; tomwalters@509: args >> a1 >> a2 >> a3 >> a4 >> osc::EndMessage; tomwalters@509: tomwalters@509: std::cout << "received '/test1' message with arguments: " tomwalters@509: << a1 << " " << a2 << " " << a3 << " " << a4 << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/test2" ) == 0 ){ tomwalters@509: tomwalters@509: // example #2: tomwalters@509: // parse an expected format using the argument iterator interface tomwalters@509: // this is a more complicated example of doing the same thing tomwalters@509: // as above. tomwalters@509: bool a1 = (arg++)->AsBool(); tomwalters@509: int a2 = (arg++)->AsInt32(); tomwalters@509: float a3 = (arg++)->AsFloat(); tomwalters@509: const char *a4 = (arg++)->AsString(); tomwalters@509: if( arg != m.ArgumentsEnd() ) tomwalters@509: throw ExcessArgumentException(); tomwalters@509: tomwalters@509: std::cout << "received '/test2' message with arguments: " tomwalters@509: << a1 << " " << a2 << " " << a3 << " " << a4 << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/test3" ) == 0 ){ tomwalters@509: tomwalters@509: // example #3: tomwalters@509: // parse a variable argument format using the argument iterator tomwalters@509: // interface. this is where it is necessary to use tomwalters@509: // argument iterators instead of streams. tomwalters@509: // When messages may contain arguments of varying type, you can tomwalters@509: // use the argument iterator interface to query the types at tomwalters@509: // runtime. this is more flexible that the argument stream tomwalters@509: // interface, which requires each argument to have a fixed type tomwalters@509: tomwalters@509: if( arg->IsBool() ){ tomwalters@509: bool a = (arg++)->AsBoolUnchecked(); tomwalters@509: std::cout << "received '/test3' message with bool argument: " tomwalters@509: << a << "\n"; tomwalters@509: }else if( arg->IsInt32() ){ tomwalters@509: int a = (arg++)->AsInt32Unchecked(); tomwalters@509: std::cout << "received '/test3' message with int32 argument: " tomwalters@509: << a << "\n"; tomwalters@509: }else if( arg->IsFloat() ){ tomwalters@509: float a = (arg++)->AsFloatUnchecked(); tomwalters@509: std::cout << "received '/test3' message with float argument: " tomwalters@509: << a << "\n"; tomwalters@509: }else if( arg->IsString() ){ tomwalters@509: const char *a = (arg++)->AsStringUnchecked(); tomwalters@509: std::cout << "received '/test3' message with string argument: '" tomwalters@509: << a << "'\n"; tomwalters@509: }else{ tomwalters@509: std::cout << "received '/test3' message with unexpected argument type\n"; tomwalters@509: } tomwalters@509: tomwalters@509: if( arg != m.ArgumentsEnd() ) tomwalters@509: throw ExcessArgumentException(); tomwalters@509: tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/no_arguments" ) == 0 ){ tomwalters@509: tomwalters@509: args >> osc::EndMessage; tomwalters@509: std::cout << "received '/no_arguments' message\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_bool" ) == 0 ){ tomwalters@509: tomwalters@509: bool a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_bool' message: " << a << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/nil" ) == 0 ){ tomwalters@509: tomwalters@509: std::cout << "received '/nil' message\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/inf" ) == 0 ){ tomwalters@509: tomwalters@509: std::cout << "received '/inf' message\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/an_int" ) == 0 ){ tomwalters@509: tomwalters@509: osc::int32 a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/an_int' message: " << a << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_float" ) == 0 ){ tomwalters@509: tomwalters@509: float a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_float' message: " << a << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_char" ) == 0 ){ tomwalters@509: tomwalters@509: char a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: char s[2] = {0}; tomwalters@509: s[0] = a; tomwalters@509: std::cout << "received '/a_char' message: '" << s << "'\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/an_rgba_color" ) == 0 ){ tomwalters@509: tomwalters@509: osc::RgbaColor a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/an_rgba_color' message: " << a.value << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_midi_message" ) == 0 ){ tomwalters@509: tomwalters@509: osc::MidiMessage a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_midi_message' message: " << a.value << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/an_int64" ) == 0 ){ tomwalters@509: tomwalters@509: osc::int64 a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/an_int64' message: " << a << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_time_tag" ) == 0 ){ tomwalters@509: tomwalters@509: osc::TimeTag a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_time_tag' message: " << a.value << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_double" ) == 0 ){ tomwalters@509: tomwalters@509: double a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_double' message: " << a << "\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_string" ) == 0 ){ tomwalters@509: tomwalters@509: const char *a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_string' message: '" << a << "'\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_symbol" ) == 0 ){ tomwalters@509: tomwalters@509: osc::Symbol a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_symbol' message: '" << a.value << "'\n"; tomwalters@509: tomwalters@509: }else if( strcmp( m.AddressPattern(), "/a_blob" ) == 0 ){ tomwalters@509: tomwalters@509: osc::Blob a; tomwalters@509: args >> a >> osc::EndMessage; tomwalters@509: std::cout << "received '/a_blob' message\n"; tomwalters@509: tomwalters@509: }else{ tomwalters@509: std::cout << "unrecognised address pattern: " tomwalters@509: << m.AddressPattern() << "\n"; tomwalters@509: } tomwalters@509: tomwalters@509: }catch( Exception& e ){ tomwalters@509: std::cout << "error while parsing message: " tomwalters@509: << m.AddressPattern() << ": " << e.what() << "\n"; tomwalters@509: } tomwalters@509: } tomwalters@509: }; tomwalters@509: tomwalters@509: tomwalters@509: void RunReceiveTest( int port ) tomwalters@509: { tomwalters@509: osc::OscReceiveTestPacketListener listener; tomwalters@509: UdpListeningReceiveSocket s( tomwalters@509: IpEndpointName( IpEndpointName::ANY_ADDRESS, port ), tomwalters@509: &listener ); tomwalters@509: tomwalters@509: std::cout << "listening for input on port " << port << "...\n"; tomwalters@509: std::cout << "press ctrl-c to end\n"; tomwalters@509: tomwalters@509: s.RunUntilSigInt(); tomwalters@509: tomwalters@509: std::cout << "finishing.\n"; tomwalters@509: } tomwalters@509: tomwalters@509: } // namespace osc tomwalters@509: tomwalters@509: #ifndef NO_OSC_TEST_MAIN tomwalters@509: tomwalters@509: int main(int argc, char* argv[]) tomwalters@509: { tomwalters@509: if( argc >= 2 && strcmp( argv[1], "-h" ) == 0 ){ tomwalters@509: std::cout << "usage: OscReceiveTest [port]\n"; tomwalters@509: return 0; tomwalters@509: } tomwalters@509: tomwalters@509: int port = 7000; tomwalters@509: tomwalters@509: if( argc >= 2 ) tomwalters@509: port = atoi( argv[1] ); tomwalters@509: tomwalters@509: osc::RunReceiveTest( port ); tomwalters@509: tomwalters@509: return 0; tomwalters@509: } tomwalters@509: tomwalters@509: #endif /* NO_OSC_TEST_MAIN */ tomwalters@509: