public void run() { for (int r = firstRow; r < lastRow; r++) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale); } } });
public void run() { for (int c = firstColumn; --c >= lastColumn;) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale); } } });
public void run() { for (int r = firstRow; r < lastRow; r++) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale); } } });
public void run() { for (int c = firstColumn; --c >= lastColumn;) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale); } } });
public void run() { for (int r = firstRow; --r >= lastRow;) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale); } } });
public void run() { for (int c = firstColumn; c < lastColumn; c++) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale); } } });
public void run() { for (int r = firstRow; --r >= lastRow;) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale); } } });
public void run() { for (int c = firstColumn; c < lastColumn; c++) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale); } } });
} else { for (int c = columns; --c >= 0;) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale);
} else { for (int c = columns; --c >= 0;) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale);
} else { for (int r = 0; r < rows; r++) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale);
} else { for (int c = 0; c < columns; c++) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale);
} else { for (int c = 0; c < columns; c++) { ((DenseDoubleMatrix1D) viewColumn(c)).idct(scale);
} else { for (int r = 0; r < rows; r++) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale);
} else { for (int r = 0; r < rows; r++) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale);
} else { for (int r = 0; r < rows; r++) { ((DenseDoubleMatrix1D) viewRow(r)).idct(scale);