Manipulation　of　the　behaviour　of　gas　bubbles　in　aqueous　environment　is　of　vital　significance　in　medical　and　microfluidic　fields,　and　has　attracted　much　research　attention　in　the　past　few　years.　Making　clear　the　interrelation　between　underwater　bubbles’　wettability　and　the　solid　surfaces　topography　to　achieve　the　bubble　adhesion　regulation　is　a　crucial　factor　of　realizing　the　precise　bubble　manipulation　without　external　stimulation,　and　a　great　challenge.　Here,　by　combining　the　fish-scale-like　morphology　and　rose-petal-like　morphology　into　one　sample　and　changing　the　proportion　of　each　part,　the　underwater　bubble　adhesion　could　be　adjusted　from　ultralow　to　low,　high,　and　ultrahigh.　The　square-patterned　array　shape-memory　polymer　(SMP)　surfaces　with　various　adhesion　forces　were　fabricated　by　femtosecond　laser　ablation　and　used　to　realize　lossless　transportation　of　a　bubble　in　both　horizontal　and　vertical　direction.　The　high　adhesion　surface　could　be　used　to　form　programmable　microbubble　patterns.　By　taking　advantage　of　the　excellent　thermal　shape-memory　character　of　SMP　film,　we　realized　the　bubble　in-situ　release　and　reversely　switch　of　the　bubble　adhesion　based　on　the　macroscopic　and　microscopic　deforming-recovering　of　as-prepared　SMP　sample.　The　present　study　will　inspire　people　to　develop　novel　strategies　to　achieve　multi-manipulation　of　bubbles　in　practical　applications.　©　2021　Elsevier　B.V.