/** * Reverse divsion (in place) * * @param other * @return */ @Override public INDArray rdivi(INDArray other) { return rdivi(other, this); }
@Override public INDArray rdivi(Number n) { return rdivi(n, this); }
@Override public INDArray rdiv(Number n, INDArray result) { return rdivi(n, result); }
@Override public INDArray rdiv(Number n) { //return dup().rdivi(n); return rdivi(n, Nd4j.createUninitialized(this.shape(), this.ordering())); }
/** * Reverse divsion (in place) * * @param other * @return */ @Override public INDArray rdivi(INDArray other) { return rdivi(other, this); }
@Override public INDArray rdivi(Number n) { return rdivi(n, this); }
@Override public INDArray rdiv(Number n, INDArray result) { return rdivi(n, result); }
@Override public IComplexNDArray rdivi(IComplexNumber n) { return rdivi(n, Nd4j.createComplex(shape())); }
@Override public INDArray rdiv(Number n) { //return dup().rdivi(n); return rdivi(n, Nd4j.createUninitialized(this.shape(), this.ordering())); }
break; case 't': rdivi(columnVector); break;
break; case 't': rdivi(rowVector); break;