Exemplo n.º 1
0
void
printPluginCategoryList()
{
    PluginLoader *loader = PluginLoader::getInstance();

    vector<PluginLoader::PluginKey> plugins = loader->listPlugins();

    set<string> printedcats;

    for (size_t i = 0; i < plugins.size(); ++i) {

        PluginLoader::PluginKey key = plugins[i];
        
        PluginLoader::PluginCategoryHierarchy category =
            loader->getPluginCategory(key);

        Plugin *plugin = loader->loadPlugin(key, 48000);
        if (!plugin) continue;

        string catstr = "";

        if (category.empty()) catstr = '|';
        else {
            for (size_t j = 0; j < category.size(); ++j) {
                catstr += category[j];
                catstr += '|';
                if (printedcats.find(catstr) == printedcats.end()) {
                    std::cout << catstr << std::endl;
                    printedcats.insert(catstr);
                }
            }
        }

        std::cout << catstr << key << ":::" << plugin->getName() << ":::" << plugin->getMaker() << ":::" << plugin->getDescription() << std::endl;
    }
}
Exemplo n.º 2
0
void
enumeratePlugins(Verbosity verbosity)
{
    PluginLoader *loader = PluginLoader::getInstance();

    if (verbosity == PluginInformation) {
        cout << "\nVamp plugin libraries found in search path:" << endl;
    }

    vector<PluginLoader::PluginKey> plugins = loader->listPlugins();
    typedef multimap<string, PluginLoader::PluginKey>
        LibraryMap;
    LibraryMap libraryMap;

    for (size_t i = 0; i < plugins.size(); ++i) {
        string path = loader->getLibraryPathForPlugin(plugins[i]);
        libraryMap.insert(LibraryMap::value_type(path, plugins[i]));
    }

    string prevPath = "";
    int index = 0;

    for (LibraryMap::iterator i = libraryMap.begin();
         i != libraryMap.end(); ++i) {
        
        string path = i->first;
        PluginLoader::PluginKey key = i->second;

        if (path != prevPath) {
            prevPath = path;
            index = 0;
            if (verbosity == PluginInformation) {
                cout << "\n  " << path << ":" << endl;
            } else if (verbosity == PluginInformationDetailed) {
                string::size_type ki = i->second.find(':');
                string text = "Library \"" + i->second.substr(0, ki) + "\"";
                cout << "\n" << header(text, 1);
            }
        }

        Plugin *plugin = loader->loadPlugin(key, 48000);
        if (plugin) {

            char c = char('A' + index);
            if (c > 'Z') c = char('a' + (index - 26));

            PluginLoader::PluginCategoryHierarchy category =
                loader->getPluginCategory(key);
            string catstr;
            if (!category.empty()) {
                for (size_t ci = 0; ci < category.size(); ++ci) {
                    if (ci > 0) catstr += " > ";
                        catstr += category[ci];
                }
            }

            if (verbosity == PluginInformation) {

                cout << "    [" << c << "] [v"
                     << plugin->getVampApiVersion() << "] "
                     << plugin->getName() << ", \""
                     << plugin->getIdentifier() << "\"" << " ["
                     << plugin->getMaker() << "]" << endl;
                
                if (catstr != "") {
                    cout << "       > " << catstr << endl;
                }

                if (plugin->getDescription() != "") {
                    cout << "        - " << plugin->getDescription() << endl;
                }

            } else if (verbosity == PluginInformationDetailed) {

                cout << header(plugin->getName(), 2);
                cout << " - Identifier:         "
                     << key << endl;
                cout << " - Plugin Version:     " 
                     << plugin->getPluginVersion() << endl;
                cout << " - Vamp API Version:   "
                     << plugin->getVampApiVersion() << endl;
                cout << " - Maker:              \""
                     << plugin->getMaker() << "\"" << endl;
                cout << " - Copyright:          \""
                     << plugin->getCopyright() << "\"" << endl;
                cout << " - Description:        \""
                     << plugin->getDescription() << "\"" << endl;
                cout << " - Input Domain:       "
                     << (plugin->getInputDomain() == Vamp::Plugin::TimeDomain ?
                         "Time Domain" : "Frequency Domain") << endl;
                cout << " - Default Step Size:  " 
                     << plugin->getPreferredStepSize() << endl;
                cout << " - Default Block Size: " 
                     << plugin->getPreferredBlockSize() << endl;
                cout << " - Minimum Channels:   " 
                     << plugin->getMinChannelCount() << endl;
                cout << " - Maximum Channels:   " 
                     << plugin->getMaxChannelCount() << endl;

            } else if (verbosity == PluginIds) {
                cout << "vamp:" << key << endl;
            }
            
            Plugin::OutputList outputs =
                plugin->getOutputDescriptors();

            if (verbosity == PluginInformationDetailed) {

                Plugin::ParameterList params = plugin->getParameterDescriptors();
                for (size_t j = 0; j < params.size(); ++j) {
                    Plugin::ParameterDescriptor &pd(params[j]);
                    cout << "\nParameter " << j+1 << ": \"" << pd.name << "\"" << endl;
                    cout << " - Identifier:         " << pd.identifier << endl;
                    cout << " - Description:        \"" << pd.description << "\"" << endl;
                    if (pd.unit != "") {
                        cout << " - Unit:               " << pd.unit << endl;
                    }
                    cout << " - Range:              ";
                    cout << pd.minValue << " -> " << pd.maxValue << endl;
                    cout << " - Default:            ";
                    cout << pd.defaultValue << endl;
                    if (pd.isQuantized) {
                        cout << " - Quantize Step:      "
                             << pd.quantizeStep << endl;
                    }
                    if (!pd.valueNames.empty()) {
                        cout << " - Value Names:        ";
                        for (size_t k = 0; k < pd.valueNames.size(); ++k) {
                            if (k > 0) cout << ", ";
                            cout << "\"" << pd.valueNames[k] << "\"";
                        }
                        cout << endl;
                    }
                }

                if (outputs.empty()) {
                    cout << "\n** Note: This plugin reports no outputs!" << endl;
                }
                for (size_t j = 0; j < outputs.size(); ++j) {
                    Plugin::OutputDescriptor &od(outputs[j]);
                    cout << "\nOutput " << j+1 << ": \"" << od.name << "\"" << endl;
                    cout << " - Identifier:         " << od.identifier << endl;
                    cout << " - Description:        \"" << od.description << "\"" << endl;
                    if (od.unit != "") {
                        cout << " - Unit:               " << od.unit << endl;
                    }
                    if (od.hasFixedBinCount) {
                        cout << " - Default Bin Count:  " << od.binCount << endl;
                    }
                    if (!od.binNames.empty()) {
                        bool have = false;
                        for (size_t k = 0; k < od.binNames.size(); ++k) {
                            if (od.binNames[k] != "") {
                                have = true; break;
                            }
                        }
                        if (have) {
                            cout << " - Bin Names:          ";
                            for (size_t k = 0; k < od.binNames.size(); ++k) {
                                if (k > 0) cout << ", ";
                                cout << "\"" << od.binNames[k] << "\"";
                            }
                            cout << endl;
                        }
                    }
                    if (od.hasKnownExtents) {
                        cout << " - Default Extents:    ";
                        cout << od.minValue << " -> " << od.maxValue << endl;
                    }
                    if (od.isQuantized) {
                        cout << " - Quantize Step:      "
                             << od.quantizeStep << endl;
                    }
                    cout << " - Sample Type:        "
                         << (od.sampleType ==
                             Plugin::OutputDescriptor::OneSamplePerStep ?
                             "One Sample Per Step" :
                             od.sampleType ==
                             Plugin::OutputDescriptor::FixedSampleRate ?
                             "Fixed Sample Rate" :
                             "Variable Sample Rate") << endl;
                    if (od.sampleType !=
                        Plugin::OutputDescriptor::OneSamplePerStep) {
                        cout << " - Default Rate:       "
                             << od.sampleRate << endl;
                    }
                    cout << " - Has Duration:       "
                         << (od.hasDuration ? "Yes" : "No") << endl;
                }
            }

            if (outputs.size() > 1 || verbosity == PluginOutputIds) {
                for (size_t j = 0; j < outputs.size(); ++j) {
                    if (verbosity == PluginInformation) {
                        cout << "         (" << j << ") "
                             << outputs[j].name << ", \""
                             << outputs[j].identifier << "\"" << endl;
                        if (outputs[j].description != "") {
                            cout << "             - " 
                                 << outputs[j].description << endl;
                        }
                    } else if (verbosity == PluginOutputIds) {
                        cout << "vamp:" << key << ":" << outputs[j].identifier << endl;
                    }
                }
            }

            ++index;

            delete plugin;
        }
    }

    if (verbosity == PluginInformation ||
        verbosity == PluginInformationDetailed) {
        cout << endl;
    }
}
Exemplo n.º 3
0
int runPlugin(string myname, string soname, string id,
              string output, int outputNo, bool useFrames, PaStreamParameters inputParameters)
{
    float				*recordedSamples;
    float				*fifo;
    PaStream*           stream;
    PaError             err = paNoError;
    int					elapsed = 0;
    int					returnValue = 1;
    RealTime			rt;
    PluginWrapper		*wrapper = 0;
    RealTime			adjustment = RealTime::zeroTime;
    PluginLoader		*loader = PluginLoader::getInstance();
    PluginLoader::PluginKey key = loader->composePluginKey(soname, id);

    // load plugin
    Plugin *plugin = loader->loadPlugin(key, SAMPLE_RATE, PluginLoader::ADAPT_ALL_SAFE);
    if (!plugin) {
        cerr << myname << ": ERROR: Failed to load plugin \"" << id
             << "\" from library \"" << soname << "\"" << endl;
        return 1;
    }

    // Find block/step size
    int blockSize = plugin->getPreferredBlockSize();
    int stepSize = plugin->getPreferredStepSize();

    if (blockSize == 0) {
        blockSize = 1024;
    }
    if (stepSize == 0) {
        if (plugin->getInputDomain() == Plugin::FrequencyDomain) {
            stepSize = blockSize/2;
        } else {
            stepSize = blockSize;
        }
    } else if (stepSize > blockSize) {
        cerr << "WARNING: stepSize " << stepSize << " > blockSize " << blockSize << ", resetting blockSize to ";
        if (plugin->getInputDomain() == Plugin::FrequencyDomain) {
            blockSize = stepSize * 2;
        } else {
            blockSize = stepSize;
        }
        cerr << blockSize << endl;
    }

    // set up port audio
    fifo = new float[blockSize]();
    recordedSamples = new float[stepSize]();

    ofstream *out = 0;
    cerr << "Running plugin: \"" << plugin->getIdentifier() << "\"..." << endl;
    cerr << "Using block size = " << blockSize << ", step size = " << stepSize << endl;

    // display output name
    Plugin::OutputList outputs = plugin->getOutputDescriptors();
    Plugin::OutputDescriptor od;

    if (outputs.empty()) {
    	cerr << "ERROR: Plugin has no outputs!" << endl;
    	goto done;
    }

    if (outputNo < 0) {

        for (size_t oi = 0; oi < outputs.size(); ++oi) {
            if (outputs[oi].identifier == output) {
                outputNo = oi;
                break;
            }
        }

        if (outputNo < 0) {
            cerr << "ERROR: Non-existent output \"" << output << "\" requested" << endl;
            goto done;
        }

    } else {

        if (int(outputs.size()) <= outputNo) {
            cerr << "ERROR: Output " << outputNo << " requested, but plugin has only " << outputs.size() << " output(s)" << endl;
            goto done;
        }
    }

    od = outputs[outputNo];
    cerr << "Output is: \"" << od.identifier << "\"" << endl;

    // Initialise plugin
    if (!plugin->initialise(1, stepSize, blockSize)) {
        cerr << "ERROR: Plugin initialise (stepSize = " << stepSize << ", blockSize = "
             << blockSize << ") failed." << endl;
        goto done;
    }

    // Compensate timestamp if in freq domain
    wrapper = dynamic_cast<PluginWrapper *>(plugin);
    if (wrapper) {
        PluginInputDomainAdapter *ida =  wrapper->getWrapper<PluginInputDomainAdapter>();
        if (ida) adjustment = ida->getTimestampAdjustment();
    }

    // Open portaudio stream
    err = Pa_OpenStream(
    		&stream,
    		&inputParameters,
    		NULL,
    		SAMPLE_RATE,
    		stepSize,
    		paClipOff,
    		NULL,
    		NULL );
    if( err != paNoError ) throwError(err);

    // Start the audio stream
    err = Pa_StartStream( stream );
    if( err != paNoError ) throwError(err);
//    printf("Now recording!!\n"); fflush(stdout);

    // do until interruptFlag is true
    while (1)
    {
    	// read step of audio data
    	err = Pa_ReadStream( stream, recordedSamples, stepSize );
    	if( err != paNoError ) throwError(err);

    	// shift buffer along a step size
    	for (int i=stepSize; i<blockSize; i++) fifo[i-stepSize] = fifo[i];

    	// add new step onto end
    	for (int i=0; i<stepSize; i++) fifo[blockSize-stepSize+i] = recordedSamples[i];

    	// process and print features
    	rt = RealTime::frame2RealTime(elapsed*stepSize, SAMPLE_RATE);
    	printFeatures(RealTime::realTime2Frame(rt + adjustment, SAMPLE_RATE), SAMPLE_RATE, outputNo, plugin->process(&fifo, rt), out, useFrames);

    	// note number of blocks processed
    	elapsed++;

    	// break out of loop
    	if (interruptFlag) break;
    }

    // stop the audio stream
    err = Pa_CloseStream( stream );
    if( err != paNoError ) throwError(err);

    // clean up variables
    delete [] recordedSamples;
    delete [] fifo;

    returnValue = 0;

done:
    delete plugin;
    return returnValue;
}
Exemplo n.º 4
0
int main(int argc, char* argv[]) {
	if (argc < 4) {
		cerr << "Invalid number of arguments." << endl;
		cout << "Usage: " << argv[0] << " <input_video_file_path> <analytic_plugin_dir_path> <analytic_plugin_filename>" << endl;
		cout << "Example: " << argv[0] << "input.mp4 ~/analytic/ analytic_plugin.so" << endl;
		return -1;
	}
	string input_video_file_path = argv[1];
	string analytic_plugin_dir_path = argv[2];
	string analytic_plugin_filename = argv[3];

	ConcurrentQueue<api::Image_t>* pImageInputQueue = new ConcurrentQueue<api::Image_t>(10);
	ConcurrentQueue<api::Image_t>* pResultsOutputQueue = new ConcurrentQueue<api::Image_t>(10);

	// Load Analytic
	api::Analytic* pAnalytic = NULL;
	PluginLoader<api::Analytic> loader;
	string sPathToAnalyticPlugin = analytic_plugin_dir_path;
	if(*sPathToAnalyticPlugin.rbegin() != '/') // last char
	{
		sPathToAnalyticPlugin.append("/");
	}
	sPathToAnalyticPlugin.append(analytic_plugin_filename);
	try
	{
		loader.loadPlugin(sPathToAnalyticPlugin);
		pAnalytic = loader.createPluginInstance();
	}
	catch(opencctv::Exception &e)
	{
		cerr << "Failed to load the Analytic plugin: " << sPathToAnalyticPlugin << endl;
		return -1;
	}

	// Create Consumer thread to write results into a txt file
	string sOutputFilename = analytic_plugin_dir_path;
	if(*sOutputFilename.rbegin() != '/') // last char
	{
		sOutputFilename.append("/");
	}
	sOutputFilename.append(currentDateTime());
	sOutputFilename.append(".txt");
	ConsumerThread resultsConsumer(sOutputFilename, pResultsOutputQueue);
	boost::thread* pConsumerThread = new boost::thread(resultsConsumer);

	// Create Producer thread to read frames from input video files
	ProducerThread imageProducer(input_video_file_path, pImageInputQueue);
	boost::thread* pProducerThread = new boost::thread(imageProducer);

	// Run analytic
	try
	{
		if(pAnalytic->init(analytic_plugin_dir_path))
		{
			pAnalytic->process(pImageInputQueue, pResultsOutputQueue);
		}
		else
		{
			cerr << "Failed to initialize the Analytic. init() failed.";
		}
	}
	catch(exception &e)
	{
		cerr << "Exception in Analytic: " << e.what() << endl;
	}

	return 0;
}
Exemplo n.º 5
0
int runPlugin(string myname, string soname, string id,
              string output, int outputNo, string wavname,
              string outfilename, bool useFrames,
              map<string,float> parameters)
{
    PluginLoader *loader = PluginLoader::getInstance();

    PluginLoader::PluginKey key = loader->composePluginKey(soname, id);
    
    SNDFILE *sndfile;
    SF_INFO sfinfo;
    memset(&sfinfo, 0, sizeof(SF_INFO));

    if (wavname == "") 
        sndfile = sf_open_fd(0, SFM_READ, &sfinfo, true);
    else
        sndfile = sf_open(wavname.c_str(), SFM_READ, &sfinfo);
    if (!sndfile) {
        cerr << myname << ": ERROR: Failed to open input file \""
             << wavname << "\": " << sf_strerror(sndfile) << endl;
        return 1;
    }

    ofstream *out = 0;
    if (outfilename != "") {
        out = new ofstream(outfilename.c_str(), ios::out);
        if (!*out) {
            cerr << myname << ": ERROR: Failed to open output file \""
                 << outfilename << "\" for writing" << endl;
            delete out;
            return 1;
        }
    }

    Plugin *plugin = loader->loadPlugin
        (key, sfinfo.samplerate, PluginLoader::ADAPT_ALL_SAFE);
    if (!plugin) {
        cerr << myname << ": ERROR: Failed to load plugin \"" << id
             << "\" from library \"" << soname << "\"" << endl;
        sf_close(sndfile);
        if (out) {
            out->close();
            delete out;
        }
        return 1;
    }

    cerr << "Running plugin: \"" << plugin->getIdentifier() << "\"..." << endl;

    // parameters
    for (map<string,float>::iterator iter = parameters.begin(); iter!=parameters.end(); iter++) {
        plugin->setParameter(iter->first, iter->second);
        cerr << "Set parameter " << iter->first << " = " << iter->second << endl;
    }
  
    // Note that the following would be much simpler if we used a
    // PluginBufferingAdapter as well -- i.e. if we had passed
    // PluginLoader::ADAPT_ALL to loader->loadPlugin() above, instead
    // of ADAPT_ALL_SAFE.  Then we could simply specify our own block
    // size, keep the step size equal to the block size, and ignore
    // the plugin's bleatings.  However, there are some issues with
    // using a PluginBufferingAdapter that make the results sometimes
    // technically different from (if effectively the same as) the
    // un-adapted plugin, so we aren't doing that here.  See the
    // PluginBufferingAdapter documentation for details.

    int blockSize = plugin->getPreferredBlockSize();
    int stepSize = plugin->getPreferredStepSize();

    if (blockSize == 0) {
        blockSize = 1024;
    }
    if (stepSize == 0) {
        if (plugin->getInputDomain() == Plugin::FrequencyDomain) {
            stepSize = blockSize/2;
        } else {
            stepSize = blockSize;
        }
    } else if (stepSize > blockSize) {
        cerr << "WARNING: stepSize " << stepSize << " > blockSize " << blockSize << ", resetting blockSize to ";
        if (plugin->getInputDomain() == Plugin::FrequencyDomain) {
            blockSize = stepSize * 2;
        } else {
            blockSize = stepSize;
        }
        cerr << blockSize << endl;
    }
    int overlapSize = blockSize - stepSize;
    sf_count_t currentStep = 0;
    int finalStepsRemaining = max(1, (blockSize / stepSize) - 1); // at end of file, this many part-silent frames needed after we hit EOF

    int channels = sfinfo.channels;

    float *filebuf = new float[blockSize * channels];
    float **plugbuf = new float*[channels];
    for (int c = 0; c < channels; ++c) plugbuf[c] = new float[blockSize + 2];

    cerr << "Using block size = " << blockSize << ", step size = "
              << stepSize << endl;

    // The channel queries here are for informational purposes only --
    // a PluginChannelAdapter is being used automatically behind the
    // scenes, and it will take case of any channel mismatch

    int minch = plugin->getMinChannelCount();
    int maxch = plugin->getMaxChannelCount();
    cerr << "Plugin accepts " << minch << " -> " << maxch << " channel(s)" << endl;
    cerr << "Sound file has " << channels << " (will mix/augment if necessary)" << endl;

    Plugin::OutputList outputs = plugin->getOutputDescriptors();
    Plugin::OutputDescriptor od;

    int returnValue = 1;
    int progress = 0;

    RealTime rt;
    PluginWrapper *wrapper = 0;
    RealTime adjustment = RealTime::zeroTime;

    if (outputs.empty()) {
        cerr << "ERROR: Plugin has no outputs!" << endl;
        goto done;
    }

    if (outputNo < 0) {

        for (size_t oi = 0; oi < outputs.size(); ++oi) {
            if (outputs[oi].identifier == output) {
                outputNo = oi;
                break;
            }
        }

        if (outputNo < 0) {
            cerr << "ERROR: Non-existent output \"" << output << "\" requested" << endl;
            goto done;
        }

    } else {

        if (int(outputs.size()) <= outputNo) {
            cerr << "ERROR: Output " << outputNo << " requested, but plugin has only " << outputs.size() << " output(s)" << endl;
            goto done;
        }        
    }

    od = outputs[outputNo];
    cerr << "Output is: \"" << od.identifier << "\"" << endl;

    if (!plugin->initialise(channels, stepSize, blockSize)) {
        cerr << "ERROR: Plugin initialise (channels = " << channels
             << ", stepSize = " << stepSize << ", blockSize = "
             << blockSize << ") failed." << endl;
        goto done;
    }

    wrapper = dynamic_cast<PluginWrapper *>(plugin);
    if (wrapper) {
        // See documentation for
        // PluginInputDomainAdapter::getTimestampAdjustment
        PluginInputDomainAdapter *ida =
            wrapper->getWrapper<PluginInputDomainAdapter>();
        if (ida) adjustment = ida->getTimestampAdjustment();
    }
    
    // Here we iterate over the frames, avoiding asking the numframes in case it's streaming input.
    do {

        int count;

        if ((blockSize==stepSize) || (currentStep==0)) {
            // read a full fresh block
            if ((count = sf_readf_float(sndfile, filebuf, blockSize)) < 0) {
                cerr << "ERROR: sf_readf_float failed: " << sf_strerror(sndfile) << endl;
                break;
            }
            if (count != blockSize) --finalStepsRemaining;
        } else {
            //  otherwise shunt the existing data down and read the remainder.
            memmove(filebuf, filebuf + (stepSize * channels), overlapSize * channels * sizeof(float));
            if ((count = sf_readf_float(sndfile, filebuf + (overlapSize * channels), stepSize)) < 0) {
                cerr << "ERROR: sf_readf_float failed: " << sf_strerror(sndfile) << endl;
                break;
            }
            if (count != stepSize) --finalStepsRemaining;
            count += overlapSize;
        }

        for (int c = 0; c < channels; ++c) {
            int j = 0;
            while (j < count) {
                plugbuf[c][j] = filebuf[j * sfinfo.channels + c];
                ++j;
            }
            while (j < blockSize) {
                plugbuf[c][j] = 0.0f;
                ++j;
            }
        }

        rt = RealTime::frame2RealTime(currentStep * stepSize, sfinfo.samplerate);

        printFeatures
            (RealTime::realTime2Frame(rt + adjustment, sfinfo.samplerate),
             sfinfo.samplerate, outputNo, plugin->process(plugbuf, rt),
             out, useFrames);

        if (sfinfo.frames > 0){
            int pp = progress;
            progress = (int)((float(currentStep * stepSize) / sfinfo.frames) * 100.f + 0.5f);
            if (progress != pp && out) {
                cerr << "\r" << progress << "%";
            }
        }

        ++currentStep;

    } while (finalStepsRemaining > 0);

    if (out) cerr << "\rDone" << endl;

    rt = RealTime::frame2RealTime(currentStep * stepSize, sfinfo.samplerate);

    printFeatures(RealTime::realTime2Frame(rt + adjustment, sfinfo.samplerate),
                  sfinfo.samplerate, outputNo,
                  plugin->getRemainingFeatures(), out, useFrames);

    returnValue = 0;

done:
    delete plugin;
    if (out) {
        out->close();
        delete out;
    }
    sf_close(sndfile);
    return returnValue;
}
Exemplo n.º 6
0
bool VampEffectsModule::AutoRegisterPlugins(PluginManagerInterface & pm)
{
#ifdef EFFECT_CATEGORIES
   InitCategoryMap();
#endif

   PluginLoader *loader = PluginLoader::getInstance();

   EffectManager& em = EffectManager::Get();

   PluginLoader::PluginKeyList keys = loader->listPlugins();

   for (PluginLoader::PluginKeyList::iterator i = keys.begin();
        i != keys.end(); ++i) {

      Plugin *vp = loader->loadPlugin(*i, 48000); // rate doesn't matter here
      if (!vp) continue;

#ifdef EFFECT_CATEGORIES

      PluginLoader::PluginCategoryHierarchy category =
         loader->getPluginCategory(*i);
      wxString vampCategory = VampHierarchyToUri(category);

#endif

      // We limit the listed plugin outputs to those whose results can
      // readily be displayed in an Audacity label track.
      //
      // - Any output whose features have no values (time instants only),
      //   with or without duration, is fine
      //
      // - Any output whose features have more than one value, or an
      //   unknown or variable number of values, is right out
      //
      // - Any output whose features have exactly one value, with
      //   variable sample rate or with duration, should be OK --
      //   this implies a sparse feature, of which the time and/or
      //   duration are significant aspects worth displaying
      //
      // - An output whose features have exactly one value, with
      //   fixed sample rate and no duration, cannot be usefully
      //   displayed -- the value is the only significant piece of
      //   data there and we have no good value plot

      Plugin::OutputList outputs = vp->getOutputDescriptors();

      int n = 0;

      bool hasParameters = !vp->getParameterDescriptors().empty();

      for (Plugin::OutputList::iterator j = outputs.begin();
           j != outputs.end(); ++j) {

         if (j->sampleType == Plugin::OutputDescriptor::FixedSampleRate ||
             j->sampleType == Plugin::OutputDescriptor::OneSamplePerStep ||
             !j->hasFixedBinCount ||
             (j->hasFixedBinCount && j->binCount > 1)) {

            // All of these qualities disqualify (see notes above)

            ++n;
            continue;
         }

         wxString name = LAT1CTOWX(vp->getName().c_str());

         if (outputs.size() > 1) {
            // This is not the plugin's only output.
            // Use "plugin name: output name" as the effect name,
            // unless the output name is the same as the plugin name
            wxString outputName = LAT1CTOWX(j->name.c_str());
            if (outputName != name) {
               name = wxString::Format(wxT("%s: %s"),
                                       name.c_str(), outputName.c_str());
            }
         }

#ifdef EFFECT_CATEGORIES
         VampEffect *effect = new VampEffect(*i, n, hasParameters, name,
                                                vampCategory);
#else
         VampEffect *effect = new VampEffect(*i, n, hasParameters, name);
#endif
         em.RegisterEffect(this, effect);

         ++n;
      }

      delete vp;
   }

   return true;
}