public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dct2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dst2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).idht2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).idct2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).idst2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dct2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dst2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dht2(); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).idct2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).idst2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dht2(); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).idht2(scale); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { C.viewSlice(s).assign(((DenseDoubleMatrix2D) viewSlice(s)).getFft2()); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { C.viewSlice(s).assign(((DenseDoubleMatrix2D) viewSlice(s)).getIfft2(scale)); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { C.viewSlice(s).assign(((DenseDoubleMatrix2D) viewSlice(s)).getIfft2(scale)); } } });
public void run() { for (int s = firstSlice; s < lastSlice; s++) { C.viewSlice(s).assign(((DenseDoubleMatrix2D) viewSlice(s)).getFft2()); } } });
public DoubleMatrix1D vectorize() { DoubleMatrix1D v = new DenseDoubleMatrix1D((int) size()); int length = rows * columns; for (int s = 0; s < slices; s++) { v.viewPart(s * length, length).assign(viewSlice(s).vectorize()); } return v; }
public DoubleMatrix1D vectorize() { DoubleMatrix1D v = new DenseDoubleMatrix1D((int) size()); int length = rows * columns; for (int s = 0; s < slices; s++) { v.viewPart(s * length, length).assign(viewSlice(s).vectorize()); } return v; }
} else { for (int s = 0; s < slices; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dht2();
} else { for (int s = 0; s < slices; s++) { ((DenseDoubleMatrix2D) viewSlice(s)).dct2(scale);