File: impulsearch9ter.cpp

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#ifndef FAUSTFLOAT
#define FAUSTFLOAT double
#endif

#include "controlTools.h"

//----------------------------------------------------------------------------
//FAUST generated code
//----------------------------------------------------------------------------

<<includeIntrinsic>>

<<includeclass>>

// Wrapping C++ class for the C object

class Cdsp : public dsp {
    
    private:
        
        mydsp* fDSP;
        
    public:
        
        Cdsp()
        {
            fDSP = newmydsp();
        }
        
        virtual ~Cdsp()
        {
            deletemydsp(fDSP);
        }
        
        virtual int getNumInputs() { return getNumInputsmydsp(fDSP); }
        
        virtual int getNumOutputs() { return getNumOutputsmydsp(fDSP); }
        
        virtual void buildUserInterface(UI* ui_interface)
        {
            UIGlue glue;
            buildUIGlue(&glue, ui_interface, true);
            buildUserInterfacemydsp(fDSP, &glue);
        }
        
        virtual int getSampleRate()
        {
            return getSampleRatemydsp(fDSP);
        }
        
        virtual void init(int sample_rate)
        {
            initmydsp(fDSP, sample_rate);
        }
        
        static void classInit(int sample_rate)
        {
            classInitmydsp(sample_rate);
        }
        
        virtual void instanceInit(int sample_rate)
        {
            instanceInitmydsp(fDSP, sample_rate);
        }
        
        virtual void instanceConstants(int sample_rate)
        {
            instanceConstantsmydsp(fDSP, sample_rate);
        }
        
        virtual void instanceResetUserInterface()
        {
            instanceResetUserInterfacemydsp(fDSP);
        }
        
        virtual void instanceClear()
        {
            instanceClearmydsp(fDSP);
        }
        
        virtual dsp* clone()
        {
            return new Cdsp();
        }
        
        virtual void metadata(Meta* m)
        {
            MetaGlue glue;
            buildMetaGlue(&glue, m);
            metadatamydsp(&glue);
        }
    
        virtual void control()
        {
            controlmydsp(fDSP);
        }
    
        virtual void frame(FAUSTFLOAT* RESTRICT inputs, FAUSTFLOAT* RESTRICT outputs)
        {
            framemydsp(fDSP, inputs, outputs);
        }
        
        virtual void compute(int count, FAUSTFLOAT** input, FAUSTFLOAT** output)
        {
            computemydsp(fDSP, count, input, output);
        }
        
        virtual void compute(double /*date_usec*/, int count, FAUSTFLOAT** inputs, FAUSTFLOAT** outputs)
        {
            compute(count, inputs, outputs);
        }
        
};


struct OneSample : public decorator_dsp {
    
    FAUSTFLOAT* fInputs;
    FAUSTFLOAT* fOutputs;
    
    OneSample(dsp* dsp):decorator_dsp(dsp),fInputs(nullptr),fOutputs(nullptr)
    {}
    
    virtual ~OneSample()
    {
        delete [] fInputs;
        delete [] fOutputs;
    }
    
    // This is mandatory
    virtual OneSample* clone()
    {
        return new OneSample(fDSP->clone());
    }
    
    // The standard 'compute' expressed using the control/compute (one sample) model
    virtual void compute(int count, FAUSTFLOAT** inputs_aux, FAUSTFLOAT** outputs_aux)
    {
        // TODO : not RT safe
        if (!fInputs) {
            fInputs = new FAUSTFLOAT[getNumInputs() * 4096];
            fOutputs = new FAUSTFLOAT[getNumOutputs() * 4096];
        }
    
        // Control
        fDSP->control();
        
        // Compute
        int num_inputs = getNumInputs();
        int num_outputs = getNumOutputs();
        
        FAUSTFLOAT* inputs_ptr = &fInputs[0];
        FAUSTFLOAT* outputs_ptr = &fOutputs[0];
        
        for (int frame = 0; frame < count; frame++) {
            for (int chan = 0; chan < num_inputs; chan++) {
                inputs_ptr[chan] = inputs_aux[chan][frame];
            }
            inputs_ptr += num_inputs;
        }
    
        inputs_ptr = &fInputs[0];
        for (int frame = 0; frame < count; frame++) {
            // One sample compute
            fDSP->frame(inputs_ptr, outputs_ptr);
            inputs_ptr += num_inputs;
            outputs_ptr += num_outputs;
        }
        
        outputs_ptr = &fOutputs[0];
        for (int frame = 0; frame < count; frame++) {
            for (int chan = 0; chan < num_outputs; chan++) {
                outputs_aux[chan][frame] = outputs_ptr[chan];
            }
            outputs_ptr += num_outputs;
        }
    }
    
    virtual void compute(double date_usec, int count, FAUSTFLOAT** inputs, FAUSTFLOAT** outputs)
    {
        compute(count, inputs, outputs);
    }
    
};

int main(int argc, char* argv[])
{
    int linenum = 0;
    int nbsamples = 60000;
  
    // print general informations
    printHeader(new Cdsp(), nbsamples);
    
    // linenum is incremented in runDSP
    runDSP(new OneSample(new Cdsp()), argv[0], linenum, nbsamples/4);
    runDSP(new OneSample(new Cdsp()), argv[0], linenum, nbsamples/4, false, true);
     
    return 0;
}