An ophthalmologic imaging apparatus includes: an optical system that divides light into measurement light and reference light, causes the measurement light returning from a subject's eye to interfere with the reference light, and detects interference light resulting therefrom; a processor that processes a detection result of the interference light to generate test data indicating the state of the subject's eye; an output unit that outputs the test data; an interface used to make the setting of a predetermined item related to the optical system and the processor; a storage that stores setting information indicating the content of the setting made through the interface; and a controller that controls the optical system and the processor based on the content of the setting indicated by the setting information in each of a plurality of tests performed until the setting information is changed or deleted.