# magnitude calc conversion short[] to double[]

can someone please explain the theory behind this calculation? i know this a conversion back and forth from short[] to double[] while doing some sort of noise cancellation. but what is floatscale ? what does it mean? float offset i guess is for reconstructing the signal/

``````public class SampleBufferFromToShort extends SampleBuffer {
private final double floatOffset, floatScale;

public SampleBufferFromToShort(NoiseCanceller nc, int validBits) {
super(nc);

if (validBits > 8) {
// If more than 8 validBits, data is signed
// Conversion required multiplying by magnitude of max positive value
floatOffset = 0;
floatScale = Long.MAX_VALUE >> (64 - validBits);
} else {
// Else if 8 or less validBits, data is unsigned
// Conversion required dividing by max positive value
floatOffset = 1;
floatScale = 0.5 * ((1 << validBits) - 1);
}
}

public void process(short[] sample, int pos) {
// where to copy our current sample to
double[] buffer = getCurrentInputSampleBuffer();

// copy sample to current sample buffer
convertFromShort(sample, pos, buffer);

// process sample and return product (delay of 1 sample)
double[] product = process();

// overwrite original sample with product
convertToShort(sample, pos, product);
}

private void convertFromShort(short[] sample, int pos, double[] buffer) {
for (int f = pos; f < buffer.length; f++) {
buffer[f-pos] = floatOffset + (double) sample[pos] / floatScale;
}
}

private void convertToShort(short[] sample, int pos, double[] buffer) {
for (int f = pos; f < buffer.length; f++) {
sample[pos] = (short)((buffer[f-pos] - floatOffset) * floatScale);
}
}
}
``````
-
`floatScale` is needed when converting between fixed- and floating-point representations of the samples. For example, if `floatScale` is `32767`, then `0.8` will be mapped to the `short` value `26213`. –  oldrinb Sep 10 '12 at 18:44
i get it thanks a lot. –  Androidy Sep 10 '12 at 18:45
when using floating-point numbers to represent samples, the amplitudes are contained in the interval [0,1]; if you just tried to cast to `short`, there is much information lost, and all of the samples would either be `0` or `1`. Instead, the whole and fractional parts are stored in the `short` using a fixed-point representation. Essentially, this allows them to still retain the whole and fractional parts of the amplitudes using a predetermined precision; this fixed precision is the purpose of floatScale. –  oldrinb Sep 10 '12 at 18:52
glad you figured it out :-) –  oldrinb Sep 10 '12 at 19:01