// Copyright (C) 1999 Jean-Marc Valin
#include "BufferedNode.h"
#include "Buffer.h"
#include "Vector.h"
#include "kmeans.h"
using namespace std;
namespace FD {
class VQuantize;
DECLARE_NODE(VQuantize)
/*Node
*
* @name VQuantize
* @category VQ
* @require VQ
* @description No description available
*
* @input_name INPUT
* @input_description No description available
*
* @input_name VQ
* @input_description No description available
*
* @output_name OUTPUT
* @output_description No description available
*
END*/
class VQuantize : public BufferedNode {
int inputID;
int VQinputID;
int outputID;
public:
VQuantize(string nodeName, ParameterSet params)
: BufferedNode(nodeName, params)
{
inputID = addInput("INPUT");
VQinputID = addInput("VQ");
outputID = addOutput("OUTPUT");
}
void calculate(int output_id, int count, Buffer &out)
{
ObjectRef VQValue = getInput(VQinputID, count);
ObjectRef inputValue = getInput(inputID, count);
const KMeans &vq = object_cast<KMeans> (VQValue);
const Vector<float> &in = object_cast<Vector<float> > (inputValue);
int inputLength = in.size();
Vector<float> &output = *Vector<float>::alloc(inputLength);
out[count] = &output;
int classID = vq.getClassID(&in[0]);
const vector<float> &mean = vq[classID];
for (int i=0;i<inputLength;i++)
output[i]=mean[i];
if (0) {
static int count=0;
static double sse=0;
for (int i=0;i<inputLength;i++)
sse += (mean[i]-in[i]) * (mean[i]-in[i]);
count++;
if (count % 100 == 0)
cout << sse/inputLength/count << endl;
}
}
};
}//namespace FD
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