Example #1
0
// Initialize intervals, one for each unique attribute value
void initialize_intervals(int dimIndex)
{
	g_intervals.clear();

	IntervalSet interval;

	TupleVec::iterator it = g_data.begin(), end = g_data.end(), next;
	int index = 0;
	for ( ; it != end; ++it, ++index) {
		next = it+1;

		// Add element (index) to interval
		interval.insert(index);

		bool insertInterval = (next == end) ||
			( (next->first)[dimIndex] != (it->first)[dimIndex] );

		if (insertInterval) {
			// Insert interval into list if
			//  (a) end of sequence or
			//  (b) next element is not the same as current element
			g_intervals.push_back(interval);
			interval.clear();
		}
	}

	// Debug
	print_all_intervals();
}
Example #2
0
std::vector<Tuning*> *Tuning::getTunings() {
    
    // if already have tunings, return them
    // TODO: It would be polite to check the mtime on the tunings file
    //       and to re-read it if it's been changed. For now, you need
    //       to restart Rosegarden.
    if (!m_tunings.empty())
        return &m_tunings;
    
    QString tuningsPath =
        ResourceFinder().getResourcePath("pitches", "tunings.xml");
    if (tuningsPath == "") return NULL;
    #   if (TUNING_DEBUG > 1)
    qDebug() << "Path to tunings file:" << tuningsPath;
    #   endif
    QFile infile(tuningsPath);
    
    IntervalList *intervals = new IntervalList;
    SpellingList *spellings = new SpellingList;
    
    if (infile.open(QIODevice::ReadOnly) ) {
        QXmlStreamReader stream(&infile);
        QString tuningName, intervalRatio;
        
        stream.readNextStartElement();
        if (stream.name() != "rosegarden_scales") {
            qDebug()  << "Tunings configuration file " << tuningsPath
                      << " is not a valid rosegarden scales file. "
                      << "(Root element is " << stream.name() << ")";
            return NULL;
        }
        
        enum {needTuning, needName, needInterval, needSpellings} state;
#       if (TUNING_DEBUG > 2)
        static const char * stateNames[] = {
            "expecting <tuning>", "expecting <name>", 
            "expecting <interval>", "expecting <spelling>"
        };
#       endif
        state = needTuning;
        
        while(!stream.atEnd()) {

            // Read to the next element delimiter
            do {
                stream.readNext();
            } while(!stream.isStartElement() &&
                    !stream.isEndElement() &&
                    !stream.atEnd());
            
            if (stream.atEnd()) break;
                        
            // Perform state transistions at end elements
            if (stream.isEndElement()) {
                if (stream.name() == "tuning") {
                    // Save the tuning and prepare for a new one
                    saveTuning(tuningName, intervals, spellings);
                    intervals = new IntervalList;
                    spellings = new SpellingList;       
                    state = needTuning;
                } else if (stream.name() == "name") {
                    // End of tuning name: expect intervals
                    state = needInterval;
                } else if (stream.name() == "interval") {
                    // After an </interval>, we're expecting another interval
                    state = needInterval;
                } else if (stream.name() == "rosegarden_scales") {
                    // XML's fininshed. Don't need the current tuning
                    // or spelling lists created when the last tuning ended
                    // so let's not leak memory.
                    delete intervals;
                    delete spellings;
                    // Don't bother reading any more of the file
                    break;
                }
                
#               if (TUNING_DEBUG > 2)
                qDebug() << "End of XML element " << stream.name()
                         << "New state: " << state
                         << " (" << stateNames[state] << ")";
#               endif
                continue;
            }
            
            // So it's a start element. Parse it.
            
            // If we are in the needSpellings state but hit a new interval,
            // we need to process that. So force a state-change here.
            if (state == needSpellings && stream.name() == "interval") {
                state = needInterval;
            }
            
#           if (TUNING_DEBUG > 2)
            qDebug() << "XML Element: " << stream.name()
            << " Current XML parser state: " << state
            << " (" << stateNames[state] << ")";
#           endif
            
            switch (state) {
            case needTuning:
                if (stream.name() != "tuning") {
                    qDebug() << "Reading Tunings. Expected tuning element, "
                             << "found " << stream.name();
                    stream.skipCurrentElement();
                } else {                
                    // Require a name element
                    state = needName;
                }
                break;
                
            case needName:
                if (stream.name() != "name") {
                    qDebug() << "Tuning must start with a <name> element, "
                             << "found <" << stream.name() << ">";
                    stream.skipCurrentElement();
                } else {
                    tuningName = stream.readElementText();
                    state = needInterval;
#                   if (TUNING_DEBUG > 1)
                    qDebug() << "\nNew Tuning: " << tuningName;
#                   endif
                }
                break;
                
            case needInterval:
                if (stream.name() != "interval") {
                    qDebug() << "Expecting an <interval> element, "
                             << "found <" << stream.name() << ">";
                    // Bail out
                    stream.skipCurrentElement();
                } else {
                    intervalRatio =
                        stream.attributes().value("ratio").toString();
#                   if (TUNING_DEBUG > 1)
                    qDebug() << "New Ratio: " << intervalRatio;
#                   endif
                    const double cents =
                        scalaIntervalToCents(intervalRatio,
                                             stream.lineNumber());
                    intervals->push_back(cents);
                    state = needSpellings;
                }
                break;
            
            case needSpellings:
                if (stream.name() != "spelling") {
                    qDebug() << "Intervals may contain only spellings. "
                             << "Found <" << stream.name() << ">";
                    // Keep looking for spellings
                    stream.skipCurrentElement();
                } else {
                    // Parse this spelling
                    parseSpelling(stream.readElementText(),
                                  intervals, spellings);
                }
                break;
            
            default:
                // Illegal state (can't happen: it's an enumerated type!)
                qDebug() << "Something nasty happened reading tunings. "
                            "Illegal state at line " << stream.lineNumber();
                stream.skipCurrentElement();
                break;
            } // end switch(state)
        } // end while(!stream.atEnd())
#       if (TUNING_DEBUG > 1)
        qDebug() << "Closing tunings file";
#       endif
        infile.close();
    } // end if (m_infile.open(...
    
    return &m_tunings;
}
Example #3
0
/**
 * 2DO extend to support non default references
 * If no tuning present, will default to 12ET
 */
Tuning *PMLDocument::getTuning(){

    DOMElement *perf = getSingleElement(m_doc->getDocumentElement(), "performance");

    if( !perf ){
//cerr << "No performance element! Defaulting to 12ET\n";
    }
    else{

        DOMElement *tuningEl = getSingleElement(perf, "tuning");


        if( !tuningEl ){
            cout << "No tuning element! Defaulting to 12ET\n";
        }
        else{
            string tuningName = XS( tuningEl->getAttribute(XS("name")) );

            IntervalList *intervals = new IntervalList;
            SpellingList *spellingList = new SpellingList;

            /* Get intervals */
            DOMElement* intList = getSingleElement(tuningEl,"intervallist");

            DOMNodeList *intervalEls = intList->getElementsByTagName(XS("interval"));
            for( int i=0; i<intervalEls->getLength(); i++ ){
                string is = getText((DOMElement*)intervalEls->item(i));
	//cout << "Interval " << is << endl;
                intervals->push_back( atof(is.c_str())  );
            }

            /* Get enharmonic equivalent spellings */
            DOMElement *spellingListEl = getSingleElement( tuningEl, "spellinglist" );
            DOMNodeList *equivs = spellingListEl->getElementsByTagName(XS("enharmequiv"));

            for( int e=0; e<equivs->getLength(); e++ ){

                DOMElement *equiv = (DOMElement*)equivs->item(e);
                DOMNodeList *spellings = equiv->getElementsByTagName(XS("spelling"));

                for( int i=0; i<spellings->getLength(); i++ ){

                    DOMElement* spEl = (DOMElement*)spellings->item(i);

                    Accidental acc;
                    if( spEl->getAttributeNode(XS("acc")) == NULL )  
                        acc = Accidentals::NoAccidental;
                    else
                        acc = XS( spEl->getAttribute(XS("acc")) );
	//cout << "Acc " << acc << endl;
	
                    string notest = XS(spEl->getAttribute(XS("note")));
                    char note = notest[0];
	
                    PitchSpelling ps(note,acc);
                    SpellingListItem spi( e, ps );
                    spellingList->insert( spi);
                }
            }

            Tuning *tuning = new Tuning( tuningName, intervals, spellingList);
            return tuning;
        }      
    }



    std::vector<Tuning*>* tunings = Tuning::getTunings( "/usr/local/lib/tunings" );
    Tuning *tuning = tunings->at(0);
    return tuning;
}