The orientation-dependence of the interference/diffraction patterns of the 1D-double slit/1D- grating and 2D-cross-double slit/2D-cross-grating experiments have been studied experimentally and theoretically. However, the above experiments were limited to certain orientations, namely rotating around either one axis or two axes. In this article, the 3-axis-rotation apparatus is introduced, which can rotate CW and CCW the 1D-double slit/2D-cross-double slit and 1D-grating/2D-cross-grating, respectively, 00-3600 around three axes independently and sequentially. By this apparatus, the orientation-dependence of the diffraction patterns is systematically studied. The experiments are performed straightforwardly and intuitively. We show the mirror-symmetry of the diffraction patterns of the 2D-cross-grating for certain orientations. Then we show that the photons, before landing on the detector/screen, behave as particles. The above observed phenomena provide the comprehensive information to theoretical study of the double slit/cross-grating experiments. We suggest that the complete mathematical model should contain three rotation angles as parameters. Furthermore, the phenomena have potential applications.