The direction of the fast horizontal shear wave velocity is frequently used as an indication of the direction of the maximum horizontal principal stress. However, together with the stress induced anisotropy, the wave velocity anisotropy will also be dominated by the inherent anisotropy including the effects of sedimentary and tectonic structures. This study carefully evaluates the influence factors of wave velocity anisotropy in Taiwan Chelungpu-Fault Drilling Project (TCDP) borehole. The anisotropic stiffness tensors of sandstones and mudrocks were derived from the laboratory wave measurement. The equivalently continue model was used to evaluate the stiffness tensor of jointed rocks, which considered the anisotropic distribution of discontinuities. The lithology was identified as the most influential factor on the wave velocity anisotropy. The dip angle of the bedding plan is also a dominating factor. Surprisingly, the joint orientation is not a significant factor influencing the wave velocity anisotropy. Accordingly, determining the direction of the maximum horizontal principal stress from the direction of the fast horizontal shear wave velocity should consider the influence of inherent anisotropy of rock mass base on the TCDP borehole data.