First we demonstrate that the principle of general rel-ativity, the Lorentz and gauge invariance are basic symmetries, dictating the Lagrangian actions of the four fundamental interactions , and the field equations are then derived with the principle of interaction dynamics (PID) and the principle of representation invariance (PRI). Second, we identify that each individual interaction possesses two basic attributes: 1) field particles and their radiation, and 2) the interaction potential and force formulas. In particular, due to the presence of dark matter and dark energy, the Einstein general theory of relativity can be uniquely modified using PID to take into account the effect of dark energy and dark matter phenomena, and to preserve the Einstein's two fundamental principles: the principle of equivalence and the principle of general relativity. The gravitational field particle is described by the dual field $\Phi_\mu$, which is a spin-1 massless particle. This field particle can be regarded as the dark matter, and the energy it carries is the dark energy.