In this study, a zwitterionic polymer/liquid crystals composite film with programming shape-morphing behavior and humidityresponsive self-healing performance was prepared by blending a zwitterionic polymer and liquid crystalline azobenzene compound in solution, followed by film-forming in a mold without tedious or multistep synthetic route. The as-obtained zwitterionic polymer/liquid crystal composite film exhibited programming shape-morphing behavior under different stimuli. In this process, the temporary shape of the composite film was memorized after the removal of the stimuli. Such characteristics would fit the requirements of intelligence and energy-saving for stimuliresponsive shape-changing materials. Moreover, the composite film showed humidity-responsive self-healing performances under wet conditions at room temperature. In summary, the simple design and preparation route of the zwitterionic polymer/liquid crystal composite film with programming shape-morphing behavior and mild condition-responsive self-healing performance look promising for the fabrication and practical application of novel photo-driven devices and soft robotics. [ABSTRACT FROM AUTHOR]