bool tuioVisBase::handleMessage(ofxOscMessage m) { string address = m.getAddress(); // special cases first: if (address=="/tuio/2dcur" && m.getNumArgs()==7 && m.getArgType(0)==OFXOSC_TYPE_STRING && m.getArgAsString(0)=="set") { tuioCursor tc; tc.s = m.getArgAsInt32(1); tc.x = m.getArgAsFloat(2); tc.y = m.getArgAsFloat(3); tc.dx = m.getArgAsFloat(4); tc.dy = m.getArgAsFloat(5); tc.m = m.getArgAsFloat(6); tc.age = 0; return cursorCallback(tc); } else if (address=="/tuio/2Dcur" && m.getNumArgs()==2 && m.getArgType(0)==OFXOSC_TYPE_STRING && m.getArgAsString(0)=="fseq") { return frameCallback(m.getArgAsInt32(1)); } else if (linearCallbacks.find(address) != linearCallbacks.end() && m.getNumArgs()==1) { return linearCallback(address, m.getArgAsFloat(0)); } else if (colorCallbacks.find(address) != colorCallbacks.end() && m.getNumArgs()==3) { return colorCallback(address, m.getArgAsFloat(0), m.getArgAsFloat(1), m.getArgAsFloat(2)); } // message not handled: else return false; }
void testApp::setOscDebugMessage(ofxOscMessage message) { std::stringstream stream; stream << "OSC messages"; if (!showOscDebugPosition) { stream << " (Not showing position messages)"; } stream << " :\n"; stream << "[address]: " << message.getAddress() << ", "; for (int i = 0; i < message.getNumArgs(); ++i) { stream << "[" << (i+1) << "]: "; if (message.getArgType(i) == OFXOSC_TYPE_INT32) { stream << message.getArgAsInt32(i); } else if (message.getArgType(i) == OFXOSC_TYPE_STRING) { stream << message.getArgAsString(i); } else if (message.getArgType(i) == OFXOSC_TYPE_FLOAT) { stream << message.getArgAsFloat(i); } if (i != message.getNumArgs()-1) {stream << ", ";}; } stream << ", time: "; stream << ofGetElapsedTimef(); m_debugMessage = stream.str(); }
void ofApp::dumpOSC(ofxOscMessage m) { string msgString; msgString = m.getAddress(); for (int i=0; i<m.getNumArgs(); i++){ msgString += " "; if(m.getArgType(i) == OFXOSC_TYPE_INT32) msgString += ofToString(m.getArgAsInt32(i)); else if(m.getArgType(i) == OFXOSC_TYPE_FLOAT) msgString += ofToString(m.getArgAsFloat(i)); else if(m.getArgType(i) == OFXOSC_TYPE_STRING) msgString += m.getArgAsString(i); } cout << msgString << endl; }
string messenger::dumpOSC(ofxOscMessage m) { string msg_string; msg_string = m.getAddress(); for (int i=0; i<m.getNumArgs(); i++ ) { msg_string += " "; if(m.getArgType(i) == OFXOSC_TYPE_INT32) msg_string += ofToString( m.getArgAsInt32(i)); else if(m.getArgType(i) == OFXOSC_TYPE_FLOAT) msg_string += ofToString( m.getArgAsFloat(i)); else if(m.getArgType(i) == OFXOSC_TYPE_STRING) msg_string += m.getArgAsString(i); } return msg_string; }
string ofApp::oscMsgToString(int num, string adr, ofxOscMessage msg) { string res= adr; for(int i= 0; i<num; i++) { res= res+" "; if(msg.getArgType(i)==OFXOSC_TYPE_INT32) { res= res+ofToString(msg.getArgAsInt32(i)); } else if(msg.getArgType(i)==OFXOSC_TYPE_FLOAT) { res= res+ofToString(msg.getArgAsFloat(i)); } else if(msg.getArgType(i)==OFXOSC_TYPE_STRING) { res= res+msg.getArgAsString(i); } } return res; }
void ofxOscSender::appendMessage( ofxOscMessage& message, osc::OutboundPacketStream& p ) { p << osc::BeginMessage( message.getAddress().c_str() ); for ( int i=0; i< message.getNumArgs(); ++i ) { if ( message.getArgType(i) == OFXOSC_TYPE_INT32 ) p << message.getArgAsInt32( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_FLOAT ) p << message.getArgAsFloat( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_STRING ) p << message.getArgAsString( i ).c_str(); else { assert( false && "bad argument type" ); } } p << osc::EndMessage; }
string ofApp::getOscMsgAsString(ofxOscMessage m){ // method from the client server ofxOsc example ! string msg_string; msg_string =""; for(int i = 0; i < m.getNumArgs(); i++){ // get the argument type if(m.getArgType(i) == OFXOSC_TYPE_INT32){ msg_string += ofToString(m.getArgAsInt32(i)); } else if(m.getArgType(i) == OFXOSC_TYPE_FLOAT){ msg_string += ofToString(m.getArgAsFloat(i)); } else if(m.getArgType(i) == OFXOSC_TYPE_STRING){ msg_string += m.getArgAsString(i); } } return msg_string; }
void ofxDuration::parseInfoMessage(const ofxOscMessage& m){ ofLogVerbose("ofxDuration::parseInfoMessage") << "Received track information from Duration, #args " << m.getNumArgs(); tracks.clear(); trackNames.clear(); //pairs of two strings per track, name and type for(int i = 0; i < m.getNumArgs()-1; i+=2){ if(m.getArgType(i ) == OFXOSC_TYPE_STRING && m.getArgType(i+1) == OFXOSC_TYPE_STRING) { string trackType = m.getArgAsString(i ); string trackName = m.getArgAsString(i+1); ofxDurationTrack t; t.type = trackType; t.name = trackName; t.lastUpdatedTime = ofGetElapsedTimef(); ofLogVerbose("ofxDuration::parseInfoMessage") << "Adding track " << t.type << " : " << t.name; if(trackType == "Curves" || trackType == "LFO"){ //consume two more args for min and max if(i+3 < m.getNumArgs() && m.getArgType(i+2) == OFXOSC_TYPE_FLOAT && m.getArgType(i+3) == OFXOSC_TYPE_FLOAT) { t.range = ofRange(m.getArgAsFloat(i+2), m.getArgAsFloat(i+3)); ofLogVerbose("ofxDuration::parseInfoMessage") << " track range is " << t.range; i+=2; } } //only add unique names if(tracks.find(t.name) == tracks.end()){ trackNames.push_back(t.name); tracks[t.name] = t; } else{ ofLogNotice("ofxDuration::parseInfoMessage") << "Duplicate track name received: " << t.name; } } } ofLogVerbose("ofxDuration::parseInfoMessage") << "Created " << tracks.size() << " tracks"; }
//-------------------------------------------------------------- void oscReceiver::setParameterValue(ofAbstractParameter& param, ofxOscMessage& msg, int oscArgIndex) { ofAbstractParameter* p = ¶m; if(p->type()==typeid(ofParameter<int>).name() && msg.getArgType(oscArgIndex)==OFXOSC_TYPE_INT32) { p->cast<int>() = msg.getArgAsInt32(oscArgIndex); } else if(p->type()==typeid(ofParameter<float>).name() && msg.getArgType(oscArgIndex)==OFXOSC_TYPE_FLOAT) { p->cast<float>() = msg.getArgAsFloat(oscArgIndex); }else if(p->type()==typeid(ofParameter<bool>).name() && msg.getArgType(oscArgIndex)==OFXOSC_TYPE_INT32) { p->cast<bool>() = msg.getArgAsInt32(oscArgIndex); }else if(msg.getArgType(oscArgIndex)==OFXOSC_TYPE_STRING) { p->fromString(msg.getArgAsString(oscArgIndex)); } }
void ofxGstRTPServer::appendMessage( ofxOscMessage& message, osc::OutboundPacketStream& p ) { p << osc::BeginMessage( message.getAddress().c_str() ); for ( int i=0; i< message.getNumArgs(); ++i ) { if ( message.getArgType(i) == OFXOSC_TYPE_INT32 ) p << message.getArgAsInt32( i ); else if ( message.getArgType(i) == OFXOSC_TYPE_INT64 ) p << (osc::int64)message.getArgAsInt64( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_FLOAT ) p << message.getArgAsFloat( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_STRING ) p << message.getArgAsString( i ).c_str(); else { ofLogError("ofxOscSender") << "appendMessage(): bad argument type " << message.getArgType( i ); } //cout << i << ": " << p.Size() << endl; } p << osc::EndMessage; }
//------------------------------------------------------------- void ofApp::handleMessage(ofxOscMessage m) { string send_string; string address_string; string ip_string; ip_string = "/" + ofSplitString( ofToString(m.getRemoteIp()), ".")[3]; // check for battery message if(m.getAddress() == "/battery"){ if(m.getArgType(0) == OFXOSC_TYPE_FLOAT){ // construct OSC message to send sendBattery( ip_string, m.getArgAsFloat(0)); } } // check for blob message else if(m.getAddress() == "/inputs/serial/1") { for(int i = 0; i < m.getNumArgs(); i++){ // get the argument type if(m.getArgType(i) == OFXOSC_TYPE_BLOB){ string blob = m.getArgAsBlob(0); vector<string> parameters = ofSplitString(blob, ","); if( parameters.size() >= 5 ) { int distance = ofToInt(parameters[0]); int velocity = ofToInt(parameters[1]); int azimuth = ofToInt(parameters[2]); int elevation = ofToInt(parameters[3]); float angularRate = ofToFloat(parameters[4]); // send osc messages sendDistance(ip_string, distance); sendVelocity(ip_string, velocity); sendAzimuth(ip_string, azimuth); sendElevation(ip_string, elevation); sendAngularRate(ip_string, angularRate); } } } } }
void Ableton::displayOscMessage(ofxOscMessage &m) { cout << "address : "<< m.getAddress() << endl; for (int i = 0; i < m.getNumArgs(); i++) { if (m.getArgType(i) == OFXOSC_TYPE_INT32) { cout << " i--> "<<m.getArgAsInt32(i)<<endl; } else if (m.getArgType(i) == OFXOSC_TYPE_INT64) { cout << " j--> "<<m.getArgAsInt64(i)<<endl; } else if (m.getArgType(i) == OFXOSC_TYPE_FLOAT) { cout << " f--> "<<m.getArgAsFloat(i)<<endl; } else if (m.getArgType(i) == OFXOSC_TYPE_STRING) { cout << " s--> "<<m.getArgAsString(i)<<endl; } else if (m.getArgType(i) == OFXOSC_TYPE_BLOB) { cout << " b--> "<<m.getArgAsBlob(i)<<endl; } } }
//-------------------------------------------------------------- string ofApp::getOscMsgAsString(ofxOscMessage m){ string msg_string; msg_string = m.getAddress(); msg_string += ":"; for(int i = 0; i < m.getNumArgs(); i++){ // get the argument type msg_string += " " + m.getArgTypeName(i); msg_string += ":"; // display the argument - make sure we get the right type if(m.getArgType(i) == OFXOSC_TYPE_INT32){ msg_string += ofToString(m.getArgAsInt32(i)); } else if(m.getArgType(i) == OFXOSC_TYPE_FLOAT){ msg_string += ofToString(m.getArgAsFloat(i)); } else if(m.getArgType(i) == OFXOSC_TYPE_STRING){ msg_string += m.getArgAsString(i); } else{ msg_string += "unknown"; } } return msg_string; }
string OscManager::getMessageAsString(const ofxOscMessage& m) const { string msg_string; msg_string = m.getAddress(); for(int i = 0; i < m.getNumArgs(); i++){ // get the argument type msg_string += " "; // display the argument - make sure we get the right type if(m.getArgType(i) == OFXOSC_TYPE_INT32){ msg_string += ofToString(m.getArgAsInt32(i)); } else if(m.getArgType(i) == OFXOSC_TYPE_FLOAT){ msg_string += ofToString(m.getArgAsFloat(i)); } else if(m.getArgType(i) == OFXOSC_TYPE_STRING){ msg_string += m.getArgAsString(i); } else{ msg_string += "unknown"; } } return msg_string; }
// are this two objects compatible? bool OscController::matchTypes(string controlName, ofxOscMessage message) { ofAbstractParameter& p = controls[controlName]->getParameter(); // vezer can send these types of messages: // float, int, bool, color and... string? if(message.getNumArgs() == 3){ if(p.type() == typeid(ofParameter<ofColor>).name() && message.getArgType(0) == OFXOSC_TYPE_INT32){ return true; } else if(p.type() == typeid(ofParameter<ofFloatColor>).name() && message.getArgType(0) == OFXOSC_TYPE_FLOAT){ return true; } } else if(message.getNumArgs() == 1){ if(p.type() == typeid(ofParameter<int>).name() && message.getArgType(0) == OFXOSC_TYPE_INT32){ return true; } else if(p.type() == typeid(ofParameter<float>).name() && message.getArgType(0) == OFXOSC_TYPE_FLOAT){ return true; } else if(p.type() == typeid(ofParameter<bool>).name() && message.getArgType(0) == OFXOSC_TYPE_INT32){ return true; } //////////////////////////////////////////////////////////////// // testing: // floats will be converted to bool if parameter type is bool else if(p.type() == typeid(ofParameter<bool>).name() && message.getArgType(0) == OFXOSC_TYPE_FLOAT){ return true; } // floats will be converted to ints if parameter type is int else if(p.type() == typeid(ofParameter<int>).name() && message.getArgType(0) == OFXOSC_TYPE_FLOAT){ return true; } //////////////////////////////////////////////////////////////// } return false; }
//-------------------------------------------------------------- // OSCメッセージをコンソールに出力する関数 // string ofApp::dumpOSC(ofxOscMessage m) { string str = m.getAddress(); for (int i=0; i<m.getNumArgs(); i++ ) { str += " "; switch (m.getArgType(i)) { case OFXOSC_TYPE_INT32: str += ofToString( m.getArgAsInt32(i)); break; case OFXOSC_TYPE_FLOAT: str += ofToString( m.getArgAsFloat(i)); break; case OFXOSC_TYPE_STRING: str += m.getArgAsString(i); break; default: break; } } cout << str << endl; return str; }
static CommandArg messageArgToCommandArg(const ofxOscMessage& message, int i) { auto type = message.getArgType(i); switch (type) { case OFXOSC_TYPE_INT32: return message.getArgAsInt32(i); break; case OFXOSC_TYPE_INT64: return message.getArgAsInt64(i); case OFXOSC_TYPE_FLOAT: return message.getArgAsFloat(i); case OFXOSC_TYPE_DOUBLE: return message.getArgAsDouble(i); case OFXOSC_TYPE_STRING: case OFXOSC_TYPE_SYMBOL: return message.getArgAsString(i); case OFXOSC_TYPE_TRUE: return true; case OFXOSC_TYPE_FALSE: return false; default: break; } }
// proceed the message bool durationReceiver::handle(const ofxOscMessage &_msg) { if( !isEnabled() ) return false; // lock mutex ofScopedLock myLock(oscMutex); // get incoming track info if( _msg.getAddress().compare("/dt/info") == 0 ){ // todo: register incomming variable types // tracks and let them be synchronised automatically with inter variables + getters return true; // we're done } // incoming track data if( canHandle(_msg) ){ string track=_msg.getAddress().substr(DT_PREFIX_LEN,_msg.getAddress().npos); ofxOscArgType type = OFXOSC_TYPE_NONE; if( _msg.getNumArgs() > 0 ) type = _msg.getArgType(0); if(_msg.getNumArgs()>0 && (type == OFXOSC_TYPE_INT32 || type == OFXOSC_TYPE_FLOAT) ){ // /dt/cmd/effect-* #define cmpEffectCmd "cmd/effect-" if( track.compare(0, sizeof(cmpEffectCmd)-1, cmpEffectCmd) == 0 ) { track=track.substr(sizeof(cmpEffectCmd)-1,track.npos); // enable / disable an effect // /dt/cmd/effect-enable-effectName #define cmpEffectCmdEnable "enable-" if( track.compare(0, sizeof(cmpEffectCmdEnable)-1, cmpEffectCmdEnable) == 0 ) { effectCmdEventArgs args; args.command = "enable"; args.targetEffectName = track.substr(sizeof(cmpEffectCmdEnable)-1, track.npos); args.boolValue = _msg.getArgAsInt32(0); ofNotifyEvent(basicEffect::effectCommandEvent, args); } #define cmpEffectCmdAlpha "alpha-" else if( track.compare(0, sizeof(cmpEffectCmdAlpha)-1, cmpEffectCmdAlpha) == 0 ) { effectCmdEventArgs args; args.command = "alpha"; args.targetEffectName = track.substr(sizeof(cmpEffectCmdAlpha)-1, track.npos); args.floatValue = _msg.getArgAsFloat(0); ofNotifyEvent(basicEffect::effectCommandEvent, args); } } } else if( type == OFXOSC_TYPE_FLOAT){ float value = 0; if(_msg.getNumArgs()>0) value=_msg.getArgAsFloat(0); durationFloatEventArgs args; args.track=track; //args.type="curve"; args.value=value; ofNotifyEvent(durationFloatEvent, args); } else if(type == OFXOSC_TYPE_INT32){ } else if(type == OFXOSC_TYPE_STRING){ durationFlagEventArgs args; args.track=track; args.flag = _msg.getArgAsString(0); ofNotifyEvent(durationFlagEvent, args); } // handle bangs else if(type == OFXOSC_TYPE_NONE){ durationBangEventArgs args; args.track=track; ofNotifyEvent(durationBangEvent, args); } // - - - - - - - - - - // Notice: // The following message handling are temporary and static. // A system needs to be made for synchronising any track by automatically parsing it. #ofxOscVariable // Hence you can dynamically create new variables and bind them to effect variables // - - - - - - - - - - if( track.compare("bang") == 0 && type == OFXOSC_TYPE_NONE ){ { // send bangEvent durationBangEventArgs args; args.track=track; ofNotifyEvent(durationBangEvent, args); } } else if( track.compare("test") == 0 ){ { // send flagEvent string flag = ""; if(_msg.getNumArgs()>0 && type == OFXOSC_TYPE_STRING){ flag=_msg.getArgAsString(0); } durationFlagEventArgs args; args.track=track; args.flag=""; ofNotifyEvent(durationFlagEvent, args); } } else if( track.compare("lineEffectIntensity") == 0 ){ { // curve float value = 0; if(_msg.getNumArgs()>0) value=_msg.getArgAsFloat(0); durationFloatEventArgs args; args.track=track; args.type="curve"; args.value=value; ofNotifyEvent(durationFloatEvent, args); } } // tmp else if( track.compare("bgVendomeOpacity") == 0 ){ { // curve float value = 0; if(_msg.getNumArgs()>0) value=_msg.getArgAsFloat(0); durationFloatEventArgs args; args.track=track; args.type="curve"; args.value=value; ofNotifyEvent(durationFloatEvent, args); } } else if( track.compare("imageBeatEffectIntensity") == 0 ){ { // curve float value = 0; if(_msg.getNumArgs()>0) value=_msg.getArgAsFloat(0); durationFloatEventArgs args; args.track=track; args.type="curve"; args.value=value; ofNotifyEvent(durationFloatEvent, args); } } /*{ // send bangEvent durationBangEventArgs args; args.what="aubioTempo"; ofNotifyEvent(durationBangEvent, args); } { // send bangEvent durationTempoEventArgs args; args.bpm = mirCache.bpm; args.isTempoBis=false; ofNotifyEvent(durationTempoEventArgs, args); } */ // unknown track, could not get information else { // todo: try to add the signal here //ofLogNotice(); } return true; }/* else if( addr.compare("/aubioTempoBis") == 0 ){ { // send bangEvent durationBangEventArgs args; args.what="aubioTempoBis"; ofNotifyEvent(durationBangEvent, args); } { // send bangEvent durationTempoEventArgs args; args.bpm = mirCache.bpm; args.isTempoBis=true; ofNotifyEvent(durationTempoEventArgs, args); } return true; } else if( addr.compare("/aubioBpm") == 0 ){ if(_msg.getNumArgs()>0) mirCache.bpm = _msg.getArgTypeName(0)=="int32"?_msg.getArgAsInt32(0):_msg.getArgAsFloat(0); return true; } else if( addr.compare("/aubioPitch") == 0 ){ if(_msg.getNumArgs()>0) mirCache.pitch = _msg.getArgTypeName(0)=="int32"?_msg.getArgAsInt32(0):_msg.getArgAsFloat(0); return true; } else if( addr.compare("/aubioQuiet") == 0 ){ if(_msg.getNumArgs()>0) mirCache.silence = (_msg.getArgAsInt32(0)==0)?true:false; return true; } else if( addr.compare("/aubioIsPlaying") == 0 ){ if(_msg.getNumArgs()>0) mirCache.isPlaying = (_msg.getArgAsInt32(0)==0)?true:false; return true; } else if( addr.compare("/aubioZcr") == 0 ){ if(_msg.getNumArgs()>0) mirCache.zcr = _msg.getArgTypeName(0)=="int32"?_msg.getArgAsInt32(0):_msg.getArgAsFloat(0); return true; } else if( addr.compare("/balance") == 0 ){ if(_msg.getNumArgs()>0) mirCache.balance = _msg.getArgTypeName(0)=="int32"?_msg.getArgAsInt32(0):_msg.getArgAsFloat(0); return true; } // Fiddle FFT Equaliser else if( addr.compare(0, 16, "/fiddle_fft/band") == 0 ){ // 16 first chars int band = ofToInt(addr.substr(16)); if(addr.compare(17, 20, "rms")==0) // rms (volume) mirCache.fiddleFFT[band][0]=_msg.getArgTypeName(0)=="int32"?_msg.getArgAsInt32(0):_msg.getArgAsFloat(0); else // pitch mirCache.fiddleFFT[band][1]=_msg.getArgTypeName(0)=="int32"?_msg.getArgAsInt32(0):_msg.getArgAsFloat(0); return true; } else if( addr.compare("") == 0 ){ return true; }*/ else { //cout << "Not recognized OSC = " << _msg.getAddress() << endl; } // unrecognized messge return false; }
void OscInterface::newOscMessage(ofxOscMessage & message){ if(message.getAddress().length()>4){ string property = message.getAddress(); string command = property.substr(1,3); property = property.substr(4,property.size()-4); if(command!="set" && command!="get"){ vector<string> commands; commands = ofSplitString(message.getAddress(),"/"); if(commands[0]=="l88pH"){ int header=atoi(commands[1].c_str()); if(commands[2]=="pos"){ float pct = message.getArgAsFloat(0); videoHeaders[header]->setPct(pct); }else if(commands[2]=="speed"){ videoHeaders[header]->speed=message.getArgAsFloat(0); }else if(commands[2]=="gate"){ videoRenderers[header]->setDraw((bool)message.getArgAsFloat(0)); } }else if(commands[0]=="l88p"){ if(commands[1]=="freeze"){ if(message.getArgAsFloat(0)==0) videoBuffer->resume(); else videoBuffer->stop(); } } }else if(message.getArgType(0)==OFXOSC_TYPE_INT32){ if(integers.find(property)!=integers.end()){ int * var=integers[property]; if(command=="set"){ *var=message.getArgAsInt32(0); } if(command=="get") cout << property << ": " << *var << "\n"; }else if(intSetters.find(property)!=intSetters.end()){ pmIntDelegate * delegate=intSetters[property]; if(command=="set"){ int value=message.getArgAsInt32(0); delegate->notify(this,value); } /*if(command=="get") cout << property << ": " << *var << "\n";*/ } //TODO: send message with variable value*/ //cout << command << " " << property << ": " << *var <<"\n"; }else if(message.getArgType(0)==OFXOSC_TYPE_FLOAT){ if(floats.find(property)!=floats.end()){ float * var=floats[property]; if(command=="set"){ *var=message.getArgAsFloat(0); } if(command=="get") cout << property << ": " << message.getArgAsFloat(0) << "\n"; //TODO: send message with variable value cout << command << " " << property << ": " << message.getArgAsFloat(0) <<"\n"; }else if(floatSetters.find(property)!=floatSetters.end()){ pmFloatDelegate * delegate=floatSetters[property]; if(command=="set"){ float value=message.getArgAsFloat(0); delegate->notify(this,value); } } } } }
//-------------------------------------------------------------- void LayerTransform::processOscCommand(const string& command, const ofxOscMessage& m) { if(isMatch(command,"position") || isMatch(command,"p")) { if(validateOscSignature("([if][if]?[if]?)|([s][if])", m)) { if(m.getArgType(0) == OFXOSC_TYPE_STRING) { char c = tolower(getArgAsStringUnchecked(m,0)[0]); if(c == 'x') { setPositionX(getArgAsFloatUnchecked(m,1)); } else if(c == 'y') { setPositionY(getArgAsFloatUnchecked(m,1)); } else if(c == 'z') { setPositionZ(getArgAsFloatUnchecked(m,1)); } else if(c == 'n') { setPositionNormalized(getArgAsBoolUnchecked(m,1)); } else { ofLogError("LayerTransform") << "invalid arg type: " << c << " " << command << "."; } } else { setPositionX(getArgAsFloatUnchecked(m,0)); if(m.getNumArgs() > 1) { setPositionY(getArgAsFloatUnchecked(m,1)); if(m.getNumArgs() > 2) { setPositionZ(getArgAsFloatUnchecked(m,2)); } } } } } else if(isMatch(command,"anchorpoint") || isMatch(command,"a")) { if(validateOscSignature("([if][if]?[if]?)|([s][if])", m)) { if(m.getArgType(0) == OFXOSC_TYPE_STRING) { char c = tolower(getArgAsStringUnchecked(m,0)[0]); if(c == 'x') { setAnchorPointX(getArgAsFloatUnchecked(m,1)); } else if(c == 'y') { setAnchorPointY(getArgAsFloatUnchecked(m,1)); } else if(c == 'z') { setAnchorPointZ(getArgAsFloatUnchecked(m,1)); } else if(c == 'n') { setAnchorPointNormalized(getArgAsBoolUnchecked(m,1)); } else { ofLog(OF_LOG_ERROR, "LayerTransform: invalid arg type: " + ofToString(c) + " " + command); } } else { setAnchorPointX(getArgAsFloatUnchecked(m,0)); if(m.getNumArgs() > 1) { setAnchorPointY(getArgAsFloatUnchecked(m,1)); if(m.getNumArgs() > 2) { setAnchorPointZ(getArgAsFloatUnchecked(m,2)); } } } } } else if(isMatch(command,"rotate") || isMatch(command,"r")) { if(validateOscSignature("([if][if]?[if]?)|([s][if][if]?[if]?)", m)) { if(m.getArgType(0) == OFXOSC_TYPE_STRING) { char c = tolower(getArgAsStringUnchecked(m,0)[0]); if(c == 'x') { setRotationX(getArgAsFloatUnchecked(m,1)); } else if(c == 'y') { setRotationY(getArgAsFloatUnchecked(m,1)); } else if(c == 'z') { setRotationZ(getArgAsFloatUnchecked(m,1)); } else if(c == 'd') { setRotation(getArgsAsPoint(m, 1)); } else if(c == 'n') { setRotationNormalized(getArgAsBoolUnchecked(m,1)); } else { ofLog(OF_LOG_ERROR, "LayerTransform: invalid arg type: " + ofToString(c) + " " + command); } } else { setRotationX(getArgAsFloatUnchecked(m,0)); if(m.getNumArgs() > 1) { setRotationY(getArgAsFloatUnchecked(m,1)); if(m.getNumArgs() > 2) { setRotationZ(getArgAsFloatUnchecked(m,2)); } } } } } else if(isMatch(command,"scale") || isMatch(command,"s")) { if(validateOscSignature("([f][f]?[f]?)|([s][f])", m)) { if(m.getArgType(0) == OFXOSC_TYPE_STRING) { char c = tolower(getArgAsStringUnchecked(m,0)[0]); float val = getArgAsFloatUnchecked(m,1); if(c == 'x') { setScaleX(val); } else if(c == 'y') { setScaleY(val); } else if(c == 'z') { setScaleZ(val); } else { ofLog(OF_LOG_ERROR, "LayerTransform: invalid arg type: " + ofToString(c) + " " + command); } } else { setScaleX(getArgAsFloatUnchecked(m,0)); if(m.getNumArgs() > 1) { setScaleY(getArgAsFloatUnchecked(m,1)); if(m.getNumArgs() > 2) { setScaleZ(getArgAsFloatUnchecked(m,2)); } } } } } else if(isMatch(command,"opacity") || isMatch(command,"o")) { if(validateOscSignature("[if]", m)) { setOpacity(getArgAsFloatUnchecked(m,0)); } } else if(isMatch(command,"opacityn") || isMatch(command,"on")) { if(validateOscSignature("[if]", m)) { setOpacityNormalized(getArgAsFloatUnchecked(m,0)); } } else if(isMatch(command,"size") || isMatch(command, "sz")) { if(validateOscSignature("[if][if]", m)) { setSize(getArgAsFloatUnchecked(m,0),getArgAsFloatUnchecked(m,1)); } } else if(isMatch(command,"width") || isMatch(command, "w")) { if(validateOscSignature("[if]", m)) { setWidth(getArgAsFloatUnchecked(m,0)); } } else if(isMatch(command,"height") || isMatch(command, "h")) { if(validateOscSignature("[if]", m)) { setHeight(getArgAsFloatUnchecked(m,0)); } } }
void ofxDuration::parseTrackMessage(const ofxOscMessage& m){ for(int i = 0; i < trackNames.size(); i++){ if(trackNames[i] == m.getAddress()){ ofxDurationTrack& track = tracks[trackNames[i]]; bool updated = false; if(track.type == "Bangs"){ updated = true; } else if(track.type == "Curves" || track.type == "LFO"){ if(m.getNumArgs() == 1 && m.getArgType(0) == OFXOSC_TYPE_FLOAT){ track.value = m.getArgAsFloat(0); updated = true; } else { ofLogError("ofxDuration::parseTrackMessage") << "Incorrect arguments sent to Curves track " << track.name; } } else if(track.type == "Colors"){ if(m.getNumArgs() == 3 && m.getArgType(0) == OFXOSC_TYPE_INT32 && m.getArgType(1) == OFXOSC_TYPE_INT32 && m.getArgType(2) == OFXOSC_TYPE_INT32) { track.color = ofColor(m.getArgAsInt32(0), m.getArgAsInt32(1), m.getArgAsInt32(2)); updated = true; } else { ofLogError("ofxDuration::parseTrackMessage") << "Incorrect arguments sent to Colors track " << track.name; } } else if(track.type == "Switches"){ if(m.getNumArgs() == 1 && m.getArgType(0) == OFXOSC_TYPE_INT32){ track.on = m.getArgAsInt32(0) != 0; updated = true; } else{ ofLogError("ofxDuration::parseTrackMessage") << "Incorrect arguments sent to Switches track " << track.name; } } else if(track.type == "Flags"){ if(m.getNumArgs() == 1 && m.getArgType(0) == OFXOSC_TYPE_STRING){ track.flag = m.getArgAsString(0); updated = true; } else{ ofLogError("ofxDuration::parseTrackMessage") << "Incorrect arguments sent to Flags track " << track.name; } } else if(track.type == "Audio"){ track.fft.clear(); for(int i = 0; i < m.getNumArgs(); i++){ if(m.getArgType(i) == OFXOSC_TYPE_FLOAT){ float fftdata = m.getArgAsFloat(i); track.fft.push_back(m.getArgAsFloat(i)); track.maxBinReceived = MAX(fftdata, track.maxBinReceived); } } } if(updated){ track.lastUpdatedTime = ofGetElapsedTimef(); ofxDurationEventArgs trackEventArgs; trackEventArgs.duration = this; trackEventArgs.track = &track; ofNotifyEvent(events.trackUpdated, trackEventArgs, this); } return; } } }
void ofApp::appendMessage( ofxOscMessage& message, osc::OutboundPacketStream& p ) { p << osc::BeginMessage( message.getAddress().c_str() ); for ( int i=0; i< message.getNumArgs(); ++i ) { if ( message.getArgType(i) == OFXOSC_TYPE_INT32 ) p << message.getArgAsInt32( i ); else if ( message.getArgType(i) == OFXOSC_TYPE_INT64 ) p << (osc::int64)message.getArgAsInt64( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_FLOAT ) p << message.getArgAsFloat( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_DOUBLE ) p << message.getArgAsDouble( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_STRING || message.getArgType( i ) == OFXOSC_TYPE_SYMBOL) p << message.getArgAsString( i ).c_str(); else if ( message.getArgType( i ) == OFXOSC_TYPE_CHAR ) p << message.getArgAsChar( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_MIDI_MESSAGE ) p << message.getArgAsMidiMessage( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_TRUE || message.getArgType( i ) == OFXOSC_TYPE_FALSE ) p << message.getArgAsBool( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_TRIGGER ) p << message.getArgAsTrigger( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_TIMETAG ) p << (osc::int64)message.getArgAsTimetag( i ); //else if ( message.getArgType( i ) == OFXOSC_TYPE_RGBA_COLOR ) // p << message.getArgAsRgbaColor( i ); else if ( message.getArgType( i ) == OFXOSC_TYPE_BLOB ){ ofBuffer buff = message.getArgAsBlob(i); osc::Blob b(buff.getData(), (unsigned long)buff.size()); p << b; }else { ofLogError("ofxOscSender") << "appendMessage(): bad argument type " << message.getArgType( i ); assert( false ); } } p << osc::EndMessage; }
// proceed the message bool chladniReceiver::handle(const ofxOscMessage &_msg) { if( !isEnabled() ) return false; // lock mutex ofScopedLock myLock(oscMutex); // get incoming track info if( _msg.getAddress().compare("/dt/info") == 0 ){ // todo: register incomming variable types // tracks and let them be synchronised automatically with inter variables + getters return true; // we're done } // incoming track data if( canHandle(_msg) ){ string track=_msg.getAddress().substr(CHLADNI_PREFIX_LEN,_msg.getAddress().npos); ofxOscArgType type = OFXOSC_TYPE_NONE; if( _msg.getNumArgs() > 0 ) type = _msg.getArgType(0); if( type == OFXOSC_TYPE_FLOAT){ if(_msg.getNumArgs()==1){ float value = 0; value=_msg.getArgAsFloat(0); chladniFloatEventArgs args; args.name=track; //args.type="curve"; args.value=value; ofNotifyEvent(chladniFloatEvent, args); } else if ( _msg.getNumArgs() == 2 ){ // todo } } else if(type == OFXOSC_TYPE_INT32){ } // handle bangs else if(type == OFXOSC_TYPE_NONE){ if( track.compare("bang") == 0 ){ { // send bangEvent chladniBangEventArgs args; args.name=track; ofNotifyEvent(chladniBangEvent, args); } } else if(track.compare("ping") == 0 ){ // todo: respond to ping chladniRC::getInstance().sendPing(); } else { chladniBangEventArgs args; args.name=track; ofNotifyEvent(chladniBangEvent, args); } } // unknown track, could not get information else { // todo: try to add the signal here //ofLogNotice(); } return true; } else { //cout << "Not recognized OSC = " << _msg.getAddress() << endl; } // unrecognized messge return false; }