1// XFree86 special keysyms. 2 3default partial xkb_compatibility "basic" { 4 5 interpret.repeat= True; 6 7 interpret XF86_Switch_VT_1 { 8 action = SwitchScreen(Screen=1, !SameServer); 9 }; 10 interpret XF86_Switch_VT_2 { 11 action = SwitchScreen(Screen=2, !SameServer); 12 }; 13 interpret XF86_Switch_VT_3 { 14 action = SwitchScreen(Screen=3, !SameServer); 15 }; 16 interpret XF86_Switch_VT_4 { 17 action = SwitchScreen(Screen=4, !SameServer); 18 }; 19 interpret XF86_Switch_VT_5 { 20 action = SwitchScreen(Screen=5, !SameServer); 21 }; 22 interpret XF86_Switch_VT_6 { 23 action = SwitchScreen(Screen=6, !SameServer); 24 }; 25 interpret XF86_Switch_VT_7 { 26 action = SwitchScreen(Screen=7, !SameServer); 27 }; 28 interpret XF86_Switch_VT_8 { 29 action = SwitchScreen(Screen=8, !SameServer); 30 }; 31 interpret XF86_Switch_VT_9 { 32 action = SwitchScreen(Screen=9, !SameServer); 33 }; 34 interpret XF86_Switch_VT_10 { 35 action = SwitchScreen(Screen=10, !SameServer); 36 }; 37 interpret XF86_Switch_VT_11 { 38 action = SwitchScreen(Screen=11, !SameServer); 39 }; 40 interpret XF86_Switch_VT_12 { 41 action = SwitchScreen(Screen=12, !SameServer); 42 }; 43 44 interpret XF86LogGrabInfo { 45 action = Private(type=0x86, data="PrGrbs"); 46 }; 47 interpret XF86LogWindowTree { 48 action = Private(type=0x86, data="PrWins"); 49 }; 50 51 interpret XF86_Next_VMode { 52 action = Private(type=0x86, data="+VMode"); 53 }; 54 interpret XF86_Prev_VMode { 55 action = Private(type=0x86, data="-VMode"); 56 }; 57}; 58 59partial xkb_compatibility "grab_break" { 60 interpret XF86_Ungrab { 61 action = Private(type=0x86, data="Ungrab"); 62 }; 63 interpret XF86_ClearGrab { 64 action = Private(type=0x86, data="ClsGrb"); 65 }; 66}; 67