After the Kaohsiung-Meinong Earthquake in 2016 and the Hualien Earthquake in 2018, there were many mid- to high-rise buildings being serious-damaged in Taiwan. Most of them were residential and commercial mixed-use buildings. Due to the functional demand, the design of the partition walls on the lower stories of these buildings was often inadequate, or the height of the lower stories was designed to be higher. These two reasons might result in the discontinuity of story stiffness and strength, when the strong earthquake struck, the possibility of lower stories being collapsed would be greatly increased, which had a fatal impact on seismic performance of the building. In addition, according to the data analysis of seismic observatory, it could be found that the acceleration response spectrum of the real earthquake record was different from the design response spectrum in the “Building Seismic Design Code” in Taiwan. Therefore, two mid- to high-rise examples were selected for this study. Through the dynamic analysis of the equivalent single-degree-of-freedom structure with the 2018 Hualien earthquake record, the seismic demand (demand spectral acceleration) of the actual earthquake could be obtained. By means of the nonlinear static pushover analysis of the structural model established in the ETABS, the seismic capacity (capacity spectral acceleration) could be obtained. Then, seismic detailed evaluation could be done with the seismic demand and capacity. Also, after the pushover analysis, the soft and weak stories in the structure could be checked based on the results. According to the results of analysis and checks, the example judged as dangerous would be stage-retrofitted by the external RC frame and shear wall to reduce the risk of collapse. After the retrofit, by the pushover analysis and the related checks, it was confirmed that the retrofit design could eliminate the problem of the soft and weak layer on lower stories, and also the poor failure mode of the existing structure. It was indeed possible to achieve the goal of stage-retrofit.