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#ifndef ROTOR_NODES_AUDIO_ANALYSIS
#define ROTOR_NODES_AUDIO_ANALYSIS
#include "rotor.h"
#include "vampHost.h"
namespace Rotor {
#define VAMPHOST_Timeline 1
#define VAMPHOST_Timesteps 2
#define VAMPHOST_Valueline 3
#define VAMPHOST_Values 4
class Audio_analysis: public Audio_processor {
public:
Audio_analysis(){
//create_attribute("soname","Plugin library to use","Plugin library","vamp-example-plugins",{"horiz","vert","horizR","vertR"});
//create_attribute("id","ID of Plugin to use","Plugin ID","percussiononsets",{"horiz","vert","horizR","vertR"});
create_attribute("analyser","Analyser Plugin to use","Analyser plugin","barbeattracker",{"barbeattracker","segmenter"});
create_attribute("mode","Data output mode","Mode","timeline",{"timeline","timesteps","valueline","values"});
create_parameter("outputNo","number","Plugin output to use","Output number",0.0f);
title="Audio analysis";
description="Analyse audio and output";
};
Audio_analysis(map<string,string> &settings):Audio_analysis() {
base_settings(settings);
vector< pair< string, string>> sonames={
{"qm-vamp-plugins","qm-barbeattracker"}
};
soname=find_setting(settings,"soname");
id=find_setting(settings,"id");
outputNo=find_setting(settings,"outputNo",0);
};
~Audio_analysis(){};
Audio_analysis* clone(map<string,string> &_settings) { return new Audio_analysis(_settings);};
bool init(int _channels,int _bits,int _samples,int _rate);
void cleanup();
void set_parameter(const std::string &key,const std::string &value){params[key]=ofToFloat(value);};
int process_frame(uint8_t *data,int samples_in_frame);
const float output(const Time_spec &time) {
if (analyser.features.size()) {
auto i=analyser.features.upper_bound(time.time); //the first element in the container whose key is considered to go after k
if (i!=analyser.features.end()){
float uk=i->first;
float v1,v2;
v1=v2=0.0f;
if (i->second.values.size()) v2=i->second.values[0];
i--;
float lk=i->first;
int ln=i->second.number;
if (i->second.values.size()) v1=i->second.values[0];
switch (attributes["mode"]->intVal){
case VAMPHOST_Timeline:
return (((time.time-lk)/(uk-lk))+ln);
case VAMPHOST_Timesteps:
return (float)ln;
case VAMPHOST_Valueline:
return (((time.time-lk)/(v2-v1))+v1);
case VAMPHOST_Values:
return v1;
}
}
}
return 0.0f;
}
string get_features();
void print_summary(){
cerr<<"vamp plugin "<<id<<" of library "<<soname<<" found "<<analyser.features.size()<<" features "<<endl;
};
private:
string soname,id;
int outputNo;
vampHost::Analyser analyser;
map <string,float> params;
};
}
#endif
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