Manufacturing　speed　is　one　of　the　biggest　challenges　in　3D　printing.　Continuous　stereolithography　printing　can　effectively　improve　the　printing　speed.　However,　the　model　it　can　print　is　limited　to　the　hollow　out　structure　or　flake　structure.　In　the　real　application　scenario,　the　models　are　the　composition　of　multiple　kinds　of　structures　such　as　solid　structure,　hollow　out　structure,　or　flake　structure.　The　continuous　stereolithography　printing　scheme　will　not　work　for　such　models.　We　first　propose　a　concept　of　maximum　fillable　distance　(MFD)　for　a　set　of　resin　material　and　printing　settings.　And　for　a　specific　kind　of　printing　setting,　the　MFD　of　resin　material　at　different　moving　speeds　is　estimated　by　experiments.　Furthermore,　the　max-min　distance　of　each　slice　of　the　model　is　computed.　And　a　printing　control　scheme　to　combining　the　continuous　and　layer-wise　printing　is　generated　automatically　by　comparing　the　max-min　distance　and　MFD.　Using　the　printing　control　scheme,　two　real　models　are　successfully　printed.　©　2021　IEEE.