/* $Xorg: xkbLEDs.c,v 1.3 2000/08/17 19:53:47 cpqbld Exp $ */ /************************************************************ Copyright (c) 1995 by Silicon Graphics Computer Systems, Inc. Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Silicon Graphics not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. Silicon Graphics makes no representation about the suitability of this software for any purpose. It is provided "as is" without any express or implied warranty. SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ********************************************************/ #include #include #include #define NEED_EVENTS 1 #include #include #include "misc.h" #include "inputstr.h" #include "XI.h" #include "XKBsrv.h" extern InputInfo inputInfo; /***====================================================================***/ /* * unsigned * XkbIndicatorsToUpdate(dev,changed,check_devs_rtrn) * * Given a keyboard and a set of state components that have changed, * this function returns the indicators on the default keyboard * feedback that might be affected. It also reports whether or not * any extension devices might be affected in check_devs_rtrn. */ unsigned #if NeedFunctionPrototypes XkbIndicatorsToUpdate( DeviceIntPtr dev, unsigned long state_changes, Bool enable_changes) #else XkbIndicatorsToUpdate(dev,state_changes,enable_changes) DeviceIntPtr dev; unsigned long state_changes; Bool enable_changes; #endif { register unsigned update= 0; XkbSrvLedInfoPtr sli; sli= XkbFindSrvLedInfo(dev,XkbDfltXIClass,XkbDfltXIId,0); if (state_changes&(XkbModifierStateMask|XkbGroupStateMask)) update|= sli->usesEffective; if (state_changes&(XkbModifierBaseMask|XkbGroupBaseMask)) update|= sli->usesBase; if (state_changes&(XkbModifierLatchMask|XkbGroupLatchMask)) update|= sli->usesLatched; if (state_changes&(XkbModifierLockMask|XkbGroupLockMask)) update|= sli->usesLocked; if (state_changes&XkbCompatStateMask) update|= sli->usesCompat; if (enable_changes) update|= sli->usesControls; return update; } /***====================================================================***/ /* * Bool * XkbApplyLEDChangeToKeyboard(xkbi,map,on,change) * * Some indicators "drive" the keyboard when their state is explicitly * changed, as described in section 9.2.1 of the XKB protocol spec. * This function updates the state and controls for the keyboard * specified by 'xkbi' to reflect any changes that are required * when the indicator described by 'map' is turned on or off. The * extent of the changes is reported in change, which must be defined. */ Bool #if NeedFunctionPrototypes XkbApplyLEDChangeToKeyboard( XkbSrvInfoPtr xkbi, XkbIndicatorMapPtr map, Bool on, XkbChangesPtr change) #else XkbApplyLEDChangeToKeyboard(xkbi,map,on,change) XkbSrvInfoPtr xkbi; XkbIndicatorMapPtr map; Bool on; XkbChangesPtr change; #endif { Bool ctrlChange,stateChange; XkbStatePtr state; if ((map->flags&XkbIM_NoExplicit)||((map->flags&XkbIM_LEDDrivesKB)==0)) return False; ctrlChange= stateChange= False; if (map->ctrls) { XkbControlsPtr ctrls= xkbi->desc->ctrls; unsigned old; old= ctrls->enabled_ctrls; if (on) ctrls->enabled_ctrls|= map->ctrls; else ctrls->enabled_ctrls&= ~map->ctrls; if (old!=ctrls->enabled_ctrls) { change->ctrls.changed_ctrls= XkbControlsEnabledMask; change->ctrls.enabled_ctrls_changes= old^ctrls->enabled_ctrls; ctrlChange= True; } } state= &xkbi->state; if ((map->groups)&&((map->which_groups&(~XkbIM_UseBase))!=0)) { register int i; register unsigned bit,match; if (on) match= (map->groups)&XkbAllGroupsMask; else match= (~map->groups)&XkbAllGroupsMask; if (map->which_groups&(XkbIM_UseLocked|XkbIM_UseEffective)) { for (i=0,bit=1;iwhich_groups&XkbIM_UseLatched) XkbLatchGroup(xkbi->device,0); /* unlatch group */ state->locked_group= i; stateChange= True; } else if (map->which_groups&(XkbIM_UseLatched|XkbIM_UseEffective)) { for (i=0,bit=1;ilocked_group= 0; XkbLatchGroup(xkbi->device,i); stateChange= True; } } if ((map->mods.mask)&&((map->which_mods&(~XkbIM_UseBase))!=0)) { if (map->which_mods&(XkbIM_UseLocked|XkbIM_UseEffective)) { register unsigned long old; old= state->locked_mods; if (on) state->locked_mods|= map->mods.mask; else state->locked_mods&= ~map->mods.mask; if (state->locked_mods!=old) stateChange= True; } if (map->which_mods&(XkbIM_UseLatched|XkbIM_UseEffective)) { register unsigned long newmods; newmods= state->latched_mods; if (on) newmods|= map->mods.mask; else newmods&= ~map->mods.mask; if (newmods!=state->locked_mods) { newmods&= map->mods.mask; XkbLatchModifiers(xkbi->device,map->mods.mask,newmods); stateChange= True; } } } return (stateChange || ctrlChange); } /***====================================================================***/ /* * void * XkbSetIndicators(dev,affect,values,cause) * * Attempts to change the indicators specified in 'affect' to the * states specified in 'values' for the default keyboard feedback * on the keyboard specified by 'dev.' Attempts to change indicator * state might be ignored or have no affect, depending on the XKB * indicator map for any affected indicators, as described in section * 9.2 of the XKB protocol specification. * * If 'changes' is non-NULL, this function notes any changes to the * keyboard state, controls, or indicator state that result from this * attempted change. If 'changes' is NULL, this function generates * XKB events to report any such changes to interested clients. * * If 'cause' is non-NULL, it specifies the reason for the change, * as reported in some XKB events. If it is NULL, this function * assumes that the change is the result of a core protocol * ChangeKeyboardMapping request. */ void #if NeedFunctionPrototypes XkbSetIndicators( DeviceIntPtr dev, CARD32 affect, CARD32 values, XkbEventCausePtr cause) #else XkbSetIndicators(dev,affect,values,cause) DeviceIntPtr dev; CARD32 affect; CARD32 values; XkbEventCausePtr cause; #endif { XkbSrvLedInfoPtr sli; XkbChangesRec changes; xkbExtensionDeviceNotify ed; unsigned side_affected; bzero((char *)&changes,sizeof(XkbChangesRec)); bzero((char *)&ed,sizeof(xkbExtensionDeviceNotify)); sli= XkbFindSrvLedInfo(dev,XkbDfltXIClass,XkbDfltXIId,0); sli->explicitState&= ~affect; sli->explicitState|= (affect&values); XkbApplyLedStateChanges(dev,sli,affect,&ed,&changes,cause); side_affected= 0; if (changes.state_changes!=0) side_affected|= XkbIndicatorsToUpdate(dev,changes.state_changes,False); if (changes.ctrls.enabled_ctrls_changes) side_affected|= sli->usesControls; if (side_affected) { XkbUpdateLedAutoState(dev,sli,side_affected,&ed,&changes,cause); affect|= side_affected; } XkbSendNotification(dev,&changes,cause); if (ed.reason) XkbSendExtensionDeviceNotify(dev,cause->client,&ed); if (changes.state_changes || changes.ctrls.enabled_ctrls_changes) XkbUpdateAllDeviceIndicators(NULL,cause); return; } /***====================================================================***/ /* * Bool * ComputeAutoState(map,state,ctrls) * * This function reports the effect of applying the specified * indicator map given the specified state and controls, as * described in section 9.2 of the XKB protocol specification. */ static Bool #if NeedFunctionPrototypes ComputeAutoState( XkbIndicatorMapPtr map, XkbStatePtr state, XkbControlsPtr ctrls) #else ComputeAutoState(map,state,ctrls) XkbIndicatorMapPtr map; XkbStatePtr state; XkbControlsPtr ctrls; #endif { Bool on; CARD8 mods,group; on= False; mods= group= 0; if (map->which_mods&XkbIM_UseAnyMods) { if (map->which_mods&XkbIM_UseBase) mods|= state->base_mods; if (map->which_mods&XkbIM_UseLatched) mods|= state->latched_mods; if (map->which_mods&XkbIM_UseLocked) mods|= state->locked_mods; if (map->which_mods&XkbIM_UseEffective) mods|= state->mods; if (map->which_mods&XkbIM_UseCompat) mods|= state->compat_state; on = ((map->mods.mask&mods)!=0); on = on||((mods==0)&&(map->mods.mask==0)&&(map->mods.vmods==0)); } if (map->which_groups&XkbIM_UseAnyGroup) { if (map->which_groups&XkbIM_UseBase) group|= (1L << state->base_group); if (map->which_groups&XkbIM_UseLatched) group|= (1L << state->latched_group); if (map->which_groups&XkbIM_UseLocked) group|= (1L << state->locked_group); if (map->which_groups&XkbIM_UseEffective) group|= (1L << state->group); on = on||(((map->groups&group)!=0)||(map->groups==0)); } if (map->ctrls) on = on||(ctrls->enabled_ctrls&map->ctrls); return on; } /***====================================================================***/ /* * void * XkbUpdateIndicators(dev,update,check_edevs,changes,cause) * * Applies the indicator maps for any indicators specified in * 'update' from the default keyboard feedback on the device * specified by 'dev.' * * If 'changes' is NULL, this function generates and XKB events * required to report the necessary changes, otherwise it simply * notes the indicators with changed state. * * If 'check_edevs' is True, this function also checks the indicator * maps for any open extension devices that have them, and updates * the state of any extension device indicators as necessary. */ void #if NeedFunctionPrototypes XkbUpdateIndicators( DeviceIntPtr dev, register CARD32 update, Bool check_edevs, XkbChangesPtr changes, XkbEventCausePtr cause) #else XkbUpdateIndicators(dev,update,check_edevs,changes,cause) DeviceIntPtr dev; register CARD32 update; Bool check_edevs; XkbChangesPtr changes; XkbEventCausePtr cause; #endif { XkbSrvLedInfoPtr sli; sli= XkbFindSrvLedInfo(dev,XkbDfltXIClass,XkbDfltXIId,0); XkbUpdateLedAutoState(dev,sli,update,NULL,changes,cause); if (check_edevs) XkbUpdateAllDeviceIndicators(changes,cause); return; } /***====================================================================***/ void #if NeedFunctionPrototypes XkbUpdateAllDeviceIndicators(XkbChangesPtr changes,XkbEventCausePtr cause) #else XkbUpdateAllDeviceIndicators(changes,cause) XkbChangesPtr changes; XkbEventCausePtr cause; #endif { DeviceIntPtr edev; XkbSrvLedInfoPtr sli; for (edev=inputInfo.devices;edev!=NULL;edev=edev->next) { if (edev->kbdfeed) { KbdFeedbackPtr kf; for (kf=edev->kbdfeed;kf!=NULL;kf=kf->next) { if ((kf->xkb_sli==NULL)||(kf->xkb_sli->maps==NULL)) continue; sli= kf->xkb_sli; XkbUpdateLedAutoState(edev,sli,sli->mapsPresent,NULL, changes,cause); } } if (edev->leds) { LedFeedbackPtr lf; for (lf=edev->leds;lf!=NULL;lf=lf->next) { if ((lf->xkb_sli==NULL)||(lf->xkb_sli->maps==NULL)) continue; sli= lf->xkb_sli; XkbUpdateLedAutoState(edev,sli,sli->mapsPresent,NULL, changes,cause); } } } return; } /***====================================================================***/ /* * void * XkbCheckIndicatorMaps(dev,sli,which) * * Updates the 'indicator accelerators' for the indicators specified * by 'which' in the feedback specified by 'sli.' The indicator * accelerators are internal to the server and are used to simplify * and speed up the process of figuring out which indicators might * be affected by a particular change in keyboard state or controls. */ void #if NeedFunctionPrototypes XkbCheckIndicatorMaps(DeviceIntPtr dev,XkbSrvLedInfoPtr sli,unsigned which) #else XkbCheckIndicatorMaps(dev,sli,which) DeviceIntPtr dev; XkbSrvLedInfoPtr sli; unsigned which; #endif { register unsigned i,bit; XkbIndicatorMapPtr map; XkbDescPtr xkb; if ((sli->flags&XkbSLI_HasOwnState)==0) dev= (DeviceIntPtr)LookupKeyboardDevice(); sli->usesBase&= ~which; sli->usesLatched&= ~which; sli->usesLocked&= ~which; sli->usesEffective&= ~which; sli->usesCompat&= ~which; sli->usesControls&= ~which; sli->mapsPresent&= ~which; xkb= dev->key->xkbInfo->desc; for (i=0,bit=1,map=sli->maps;imapsPresent|= bit; what= (map->which_mods|map->which_groups); if (what&XkbIM_UseBase) sli->usesBase|= bit; if (what&XkbIM_UseLatched) sli->usesLatched|= bit; if (what&XkbIM_UseLocked) sli->usesLocked|= bit; if (what&XkbIM_UseEffective) sli->usesEffective|= bit; if (what&XkbIM_UseCompat) sli->usesCompat|= bit; if (map->ctrls) sli->usesControls|= bit; map->mods.mask= map->mods.real_mods; if (map->mods.vmods!=0) { map->mods.mask|= XkbMaskForVMask(xkb,map->mods.vmods); } } } sli->usedComponents= 0; if (sli->usesBase) sli->usedComponents|= XkbModifierBaseMask|XkbGroupBaseMask; if (sli->usesLatched) sli->usedComponents|= XkbModifierLatchMask|XkbGroupLatchMask; if (sli->usesLocked) sli->usedComponents|= XkbModifierLockMask|XkbGroupLockMask; if (sli->usesEffective) sli->usedComponents|= XkbModifierStateMask|XkbGroupStateMask; if (sli->usesCompat) sli->usedComponents|= XkbCompatStateMask; return; } /***====================================================================***/ /* * XkbSrvLedInfoPtr * XkbAllocSrvLedInfo(dev,kf,lf,needed_parts) * * Allocates an XkbSrvLedInfoPtr for the feedback specified by either * 'kf' or 'lf' on the keyboard specified by 'dev.' * * If 'needed_parts' is non-zero, this function makes sure that any * of the parts speicified therein are allocated. */ XkbSrvLedInfoPtr #if NeedFunctionPrototypes XkbAllocSrvLedInfo( DeviceIntPtr dev, KbdFeedbackPtr kf, LedFeedbackPtr lf, unsigned needed_parts) #else XkbAllocSrvLedInfo(dev,kf,lf,needed_parts) DeviceIntPtr dev; KbdFeedbackPtr kf; LedFeedbackPtr lf; unsigned needed_parts; #endif { XkbSrvLedInfoPtr sli; Bool checkAccel; Bool checkNames; sli= NULL; checkAccel= checkNames= False; if ((kf!=NULL)&&(kf->xkb_sli==NULL)) { kf->xkb_sli= sli= _XkbTypedCalloc(1,XkbSrvLedInfoRec); if (sli==NULL) return NULL; /* ALLOCATION ERROR */ if (dev->key && dev->key->xkbInfo) sli->flags= XkbSLI_HasOwnState; else sli->flags= 0; sli->class= KbdFeedbackClass; sli->id= kf->ctrl.id; sli->fb.kf= kf; sli->autoState= 0; sli->explicitState= kf->ctrl.leds; sli->effectiveState= kf->ctrl.leds; if ((kf==dev->kbdfeed) && (dev->key) && (dev->key->xkbInfo)) { XkbDescPtr xkb; xkb= dev->key->xkbInfo->desc; sli->flags|= XkbSLI_IsDefault; sli->physIndicators= xkb->indicators->phys_indicators; sli->names= xkb->names->indicators; sli->maps= xkb->indicators->maps; checkNames= checkAccel= True; } else { sli->physIndicators= XkbAllIndicatorsMask; sli->names= NULL; sli->maps= NULL; } } else if ((kf!=NULL)&&((kf->xkb_sli->flags&XkbSLI_IsDefault)!=0)) { XkbDescPtr xkb; xkb= dev->key->xkbInfo->desc; sli->physIndicators= xkb->indicators->phys_indicators; if (xkb->names->indicators!=sli->names) { checkNames= True; sli->names= xkb->names->indicators; } if (xkb->indicators->maps!=sli->maps) { checkAccel= True; sli->maps= xkb->indicators->maps; } } else if ((lf!=NULL)&&(lf->xkb_sli==NULL)) { lf->xkb_sli= sli= _XkbTypedCalloc(1,XkbSrvLedInfoRec); if (sli==NULL) return NULL; /* ALLOCATION ERROR */ if (dev->key && dev->key->xkbInfo) sli->flags= XkbSLI_HasOwnState; else sli->flags= 0; sli->class= LedFeedbackClass; sli->id= lf->ctrl.id; sli->fb.lf= lf; sli->physIndicators= lf->ctrl.led_mask; sli->autoState= 0; sli->explicitState= lf->ctrl.led_values; sli->effectiveState= lf->ctrl.led_values; sli->maps= NULL; sli->names= NULL; } if ((sli->names==NULL)&&(needed_parts&XkbXI_IndicatorNamesMask)) sli->names= _XkbTypedCalloc(XkbNumIndicators,Atom); if ((sli->maps==NULL)&&(needed_parts&XkbXI_IndicatorMapsMask)) sli->maps= _XkbTypedCalloc(XkbNumIndicators,XkbIndicatorMapRec); if (checkNames) { register unsigned i,bit; sli->namesPresent= 0; for (i=0,bit=1;inames[i]!=None) sli->namesPresent|= bit; } } if (checkAccel) XkbCheckIndicatorMaps(dev,sli,XkbAllIndicatorsMask); return sli; } void #if NeedFunctionPrototypes XkbFreeSrvLedInfo(XkbSrvLedInfoPtr sli) #else XkbFreeSrvLedInfo(sli) XkbSrvLedInfoPtr sli; #endif { if ((sli->flags&XkbSLI_IsDefault)==0) { if (sli->maps) _XkbFree(sli->maps); if (sli->names) _XkbFree(sli->names); } sli->maps= NULL; sli->names= NULL; _XkbFree(sli); return; } /***====================================================================***/ /* * XkbSrvLedInfoPtr * XkbFindSrvLedInfo(dev,class,id,needed_parts) * * Finds the XkbSrvLedInfoPtr for the specified 'class' and 'id' * on the device specified by 'dev.' If the class and id specify * a valid device feedback, this function returns the existing * feedback or allocates a new one. * */ XkbSrvLedInfoPtr #if NeedFunctionPrototypes XkbFindSrvLedInfo( DeviceIntPtr dev, unsigned class, unsigned id, unsigned needed_parts) #else XkbFindSrvLedInfo(dev,class,id,needed_parts) DeviceIntPtr dev; unsigned class; unsigned id; unsigned needed_parts; #endif { XkbSrvLedInfoPtr sli; /* optimization to check for most common case */ if (((class==XkbDfltXIClass)&&(id==XkbDfltXIId))&&(dev->kbdfeed)) { XkbSrvLedInfoPtr sli; sli= dev->kbdfeed->xkb_sli; if (dev->kbdfeed->xkb_sli==NULL) { sli= XkbAllocSrvLedInfo(dev,dev->kbdfeed,NULL,needed_parts); dev->kbdfeed->xkb_sli= sli; } return dev->kbdfeed->xkb_sli; } sli= NULL; if (class==XkbDfltXIClass) { if (dev->kbdfeed) class= KbdFeedbackClass; else if (dev->leds) class= LedFeedbackClass; else return NULL; } if (class==KbdFeedbackClass) { KbdFeedbackPtr kf; for (kf=dev->kbdfeed;kf!=NULL;kf=kf->next) { if ((id==XkbDfltXIId)||(id==kf->ctrl.id)) { if (kf->xkb_sli==NULL) kf->xkb_sli= XkbAllocSrvLedInfo(dev,kf,NULL,needed_parts); sli= kf->xkb_sli; break; } } } else if (class==LedFeedbackClass) { LedFeedbackPtr lf; for (lf=dev->leds;lf!=NULL;lf=lf->next) { if ((id==XkbDfltXIId)||(id==lf->ctrl.id)) { if (lf->xkb_sli==NULL) lf->xkb_sli= XkbAllocSrvLedInfo(dev,NULL,lf,needed_parts); sli= lf->xkb_sli; break; } } } if ((sli->names==NULL)&&(needed_parts&XkbXI_IndicatorNamesMask)) sli->names= _XkbTypedCalloc(XkbNumIndicators,Atom); if ((sli->maps==NULL)&&(needed_parts&XkbXI_IndicatorMapsMask)) sli->maps= _XkbTypedCalloc(XkbNumIndicators,XkbIndicatorMapRec); return sli; } /***====================================================================***/ void #if NeedFunctionPrototypes XkbFlushLedEvents( DeviceIntPtr dev, DeviceIntPtr kbd, XkbSrvLedInfoPtr sli, xkbExtensionDeviceNotify * ed, XkbChangesPtr changes, XkbEventCausePtr cause) #else XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause) DeviceIntPtr dev; DeviceIntPtr kbd; XkbSrvLedInfoPtr sli; xkbExtensionDeviceNotify * ed; XkbChangesPtr changes; XkbEventCausePtr cause; #endif { if (changes) { if (changes->indicators.state_changes) XkbDDXUpdateDeviceIndicators(dev,sli,sli->effectiveState); XkbSendNotification(kbd,changes,cause); bzero((char *)changes,sizeof(XkbChangesRec)); } if (ed && (ed->reason)) { if ((dev!=kbd)&&(ed->reason&XkbXI_IndicatorStateMask)) XkbDDXUpdateDeviceIndicators(dev,sli,sli->effectiveState); XkbSendExtensionDeviceNotify(dev,cause->client,ed); } bzero((char *)ed,sizeof(XkbExtensionDeviceNotify)); return; } /***====================================================================***/ void #if NeedFunctionPrototypes XkbApplyLedNameChanges( DeviceIntPtr dev, XkbSrvLedInfoPtr sli, unsigned changed_names, xkbExtensionDeviceNotify * ed, XkbChangesPtr changes, XkbEventCausePtr cause) #else XkbApplyLedNameChanges(dev,sli,changed_names,ed,changes,cause) DeviceIntPtr dev; XkbSrvLedInfoPtr sli; unsigned changed_names; xkbExtensionDeviceNotify * ed; XkbChangesPtr changes; XkbEventCausePtr cause; #endif { DeviceIntPtr kbd; XkbChangesRec my_changes; xkbExtensionDeviceNotify my_ed; if (changed_names==0) return; if (dev->key && dev->key->xkbInfo) kbd= dev; else kbd= (DeviceIntPtr)LookupKeyboardDevice(); if (ed==NULL) { ed= &my_ed; bzero((char *)ed,sizeof(xkbExtensionDeviceNotify)); } else if ((ed->reason&XkbXI_IndicatorsMask)&& ((ed->ledClass!=sli->class)||(ed->ledID!=sli->id))) { XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); } if ((kbd==dev)&&(sli->flags&XkbSLI_IsDefault)) { if (changes==NULL) { changes= &my_changes; bzero((char *)changes,sizeof(XkbChangesRec)); } changes->names.changed|= XkbIndicatorNamesMask; changes->names.changed_indicators|= changed_names; } ed->reason|= (XkbXI_IndicatorNamesMask&(~XkbXIUnsupported)); ed->ledClass= sli->class; ed->ledID= sli->id; ed->ledsDefined= sli->namesPresent|sli->mapsPresent; ed->ledState= sli->effectiveState; ed->unsupported|= XkbXIUnsupported&XkbXI_IndicatorNamesMask; ed->supported= XkbXI_AllFeaturesMask&(~XkbXIUnsupported); if (changes!=&my_changes) changes= NULL; if (ed!=&my_ed) ed= NULL; if (changes || ed) XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); return; } /***====================================================================***/ /* * void * XkbApplyLedMapChanges(dev,sli,changed_maps,changes,cause) * * Handles all of the secondary effects of the changes to the * feedback specified by 'sli' on the device specified by 'dev.' * * If 'changed_maps' specifies any indicators, this function generates * XkbExtensionDeviceNotify events and possibly IndicatorMapNotify * events to report the changes, and recalculates the effective * state of each indicator with a changed map. If any indicators * change state, the server generates XkbExtensionDeviceNotify and * XkbIndicatorStateNotify events as appropriate. * * If 'changes' is non-NULL, this function updates it to reflect * any changes to the keyboard state or controls or to the 'core' * indicator names, maps, or state. If 'changes' is NULL, this * function generates XKB events as needed to report the changes. * If 'dev' is not a keyboard device, any changes are reported * for the core keyboard. * * The 'cause' specifies the reason for the event (key event or * request) for the change, as reported in some XKB events. */ void #if NeedFunctionPrototypes XkbApplyLedMapChanges( DeviceIntPtr dev, XkbSrvLedInfoPtr sli, unsigned changed_maps, xkbExtensionDeviceNotify * ed, XkbChangesPtr changes, XkbEventCausePtr cause) #else XkbApplyLedMapChanges(dev,sli,changed_maps,ed,changes,cause) DeviceIntPtr dev; XkbSrvLedInfoPtr sli; unsigned changed_maps; xkbExtensionDeviceNotify * ed; XkbChangesPtr changes; XkbEventCausePtr cause; #endif { DeviceIntPtr kbd; XkbChangesRec my_changes; xkbExtensionDeviceNotify my_ed; if (changed_maps==0) return; if (dev->key && dev->key->xkbInfo) kbd= dev; else kbd= (DeviceIntPtr)LookupKeyboardDevice(); if (ed==NULL) { ed= &my_ed; bzero((char *)ed,sizeof(xkbExtensionDeviceNotify)); } else if ((ed->reason&XkbXI_IndicatorsMask)&& ((ed->ledClass!=sli->class)||(ed->ledID!=sli->id))) { XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); } if ((kbd==dev)&&(sli->flags&XkbSLI_IsDefault)) { if (changes==NULL) { changes= &my_changes; bzero((char *)changes,sizeof(XkbChangesRec)); } changes->indicators.map_changes|= changed_maps; } XkbCheckIndicatorMaps(dev,sli,changed_maps); ed->reason|= (XkbXI_IndicatorMapsMask&(~XkbXIUnsupported)); ed->ledClass= sli->class; ed->ledID= sli->id; ed->ledsDefined= sli->namesPresent|sli->mapsPresent; ed->ledState= sli->effectiveState; ed->unsupported|= XkbXIUnsupported&XkbXI_IndicatorMapsMask; ed->supported= XkbXI_AllFeaturesMask&(~XkbXIUnsupported); XkbUpdateLedAutoState(dev,sli,changed_maps,ed,changes,cause); if (changes!=&my_changes) changes= NULL; if (ed!=&my_ed) ed= NULL; if (changes || ed) XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); return; } /***====================================================================***/ void #if NeedFunctionPrototypes XkbApplyLedStateChanges(DeviceIntPtr dev, XkbSrvLedInfoPtr sli, unsigned changed_leds, xkbExtensionDeviceNotify * ed, XkbChangesPtr changes, XkbEventCausePtr cause) #else XkbApplyLedStateChanges(dev,sli,changed_leds,ed,changes,cause) DeviceIntPtr dev; XkbSrvLedInfoPtr sli; unsigned changed_leds; xkbExtensionDeviceNotify * ed; XkbChangesPtr changes; XkbEventCausePtr cause; #endif { XkbSrvInfoPtr xkbi; DeviceIntPtr kbd; XkbChangesRec my_changes; xkbExtensionDeviceNotify my_ed; register unsigned i,bit,affected; XkbIndicatorMapPtr map; unsigned oldState; Bool kb_changed; if (changed_leds==0) return; if (dev->key && dev->key->xkbInfo) kbd= dev; else kbd= (DeviceIntPtr)LookupKeyboardDevice(); xkbi= kbd->key->xkbInfo; if (changes==NULL) { changes= &my_changes; bzero((char *)changes,sizeof(XkbChangesRec)); } kb_changed= False; affected= changed_leds; oldState= sli->effectiveState; for (i=0,bit=1;(imaps[i]; if (map->flags&XkbIM_NoExplicit) { sli->explicitState&= ~bit; continue; } if (map->flags&XkbIM_LEDDrivesKB) { Bool on= ((sli->explicitState&bit)!=0); if (XkbApplyLEDChangeToKeyboard(xkbi,map,on,changes)) kb_changed= True; } } sli->effectiveState= (sli->autoState|sli->explicitState); affected= sli->effectiveState^oldState; if (ed==NULL) { ed= &my_ed; bzero((char *)ed,sizeof(xkbExtensionDeviceNotify)); } else if (affected&&(ed->reason&XkbXI_IndicatorsMask)&& ((ed->ledClass!=sli->class)||(ed->ledID!=sli->id))) { XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); } if ((kbd==dev)&&(sli->flags&XkbSLI_IsDefault)) changes->indicators.state_changes|= affected; if (affected) { ed->reason|= (XkbXI_IndicatorStateMask&(~XkbXIUnsupported)); ed->ledClass= sli->class; ed->ledID= sli->id; ed->ledsDefined= sli->namesPresent|sli->mapsPresent; ed->ledState= sli->effectiveState; ed->unsupported|= XkbXIUnsupported&XkbXI_IndicatorStateMask; ed->supported= XkbXI_AllFeaturesMask&(~XkbXIUnsupported); } if (kb_changed) { XkbComputeDerivedState(kbd->key->xkbInfo); XkbUpdateLedAutoState(dev,sli,sli->mapsPresent,ed,changes,cause); } if (changes!=&my_changes) changes= NULL; if (ed!=&my_ed) ed= NULL; if (changes || ed) XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); if (kb_changed) XkbUpdateAllDeviceIndicators(NULL,cause); return; } /***====================================================================***/ void #if NeedFunctionPrototypes XkbUpdateLedAutoState( DeviceIntPtr dev, XkbSrvLedInfoPtr sli, unsigned maps_to_check, xkbExtensionDeviceNotify * ed, XkbChangesPtr changes, XkbEventCausePtr cause) #else XkbUpdateLedAutoState(dev,sli,maps_to_check,ed,changes,cause) DeviceIntPtr dev; XkbSrvLedInfoPtr sli; unsigned maps_to_check; xkbExtensionDeviceNotify * ed; XkbChangesPtr changes; XkbEventCausePtr cause; #endif { DeviceIntPtr kbd; XkbStatePtr state; XkbControlsPtr ctrls; XkbChangesRec my_changes; xkbExtensionDeviceNotify my_ed; register unsigned i,bit,affected; register XkbIndicatorMapPtr map; unsigned oldState; if ((maps_to_check==0)||(sli->maps==NULL)||(sli->mapsPresent==0)) return; if (dev->key && dev->key->xkbInfo) kbd= dev; else kbd= (DeviceIntPtr)LookupKeyboardDevice(); state= &kbd->key->xkbInfo->state; ctrls= kbd->key->xkbInfo->desc->ctrls; affected= maps_to_check; oldState= sli->effectiveState; sli->autoState&= ~affected; for (i=0,bit=1;(imaps[i]; if((!(map->flags&XkbIM_NoAutomatic))&&ComputeAutoState(map,state,ctrls)) sli->autoState|= bit; } sli->effectiveState= (sli->autoState|sli->explicitState); affected= sli->effectiveState^oldState; if (affected==0) return; if (ed==NULL) { ed= &my_ed; bzero((char *)ed,sizeof(xkbExtensionDeviceNotify)); } else if ((ed->reason&XkbXI_IndicatorsMask)&& ((ed->ledClass!=sli->class)||(ed->ledID!=sli->id))) { XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); } if ((kbd==dev)&&(sli->flags&XkbSLI_IsDefault)) { if (changes==NULL) { changes= &my_changes; bzero((char *)changes,sizeof(XkbChangesRec)); } changes->indicators.state_changes|= affected; } ed->reason|= (XkbXI_IndicatorStateMask&(~XkbXIUnsupported)); ed->ledClass= sli->class; ed->ledID= sli->id; ed->ledsDefined= sli->namesPresent|sli->mapsPresent; ed->ledState= sli->effectiveState; ed->unsupported|= XkbXIUnsupported&XkbXI_IndicatorStateMask; ed->supported= XkbXI_AllFeaturesMask&(~XkbXIUnsupported); if (changes!=&my_changes) changes= NULL; if (ed!=&my_ed) ed= NULL; if (changes || ed) XkbFlushLedEvents(dev,kbd,sli,ed,changes,cause); return; } /***====================================================================***/ static void #if NeedFunctionPrototypes _UpdateButtonVMods( XkbDescPtr xkb, unsigned num_btns, XkbAction * acts, unsigned changed, xkbExtensionDeviceNotify * ed_inout) #else _UpdateButtonVMods(xkb,num_btns,acts,changed,ed_inout) XkbDescPtr xkb; unsigned num_btns; XkbAction * acts; unsigned changed; xkbExtensionDeviceNotify * ed_inout; #endif { register int i; for (i=0;iany.type!=XkbSA_NoAction)&& XkbUpdateActionVirtualMods(xkb,acts,changed)) { if ((ed_inout->reason&XkbXI_ButtonActionsMask)==0) { ed_inout->reason|= XkbXI_ButtonActionsMask; ed_inout->firstBtn= i; ed_inout->nBtns= 1; } else { ed_inout->nBtns= (i-ed_inout->firstBtn)+1; } } } return; } static void #if NeedFunctionPrototypes _UpdateMapVMods( XkbDescPtr xkb, register XkbIndicatorMapPtr map, unsigned changed_vmods, unsigned * changed_maps_rtrn) #else _UpdateMapVMods(xkb,map,changed_vmods,changed_maps_rtrn) XkbDescPtr xkb; register XkbIndicatorMapPtr map; unsigned changed_vmods; unsigned * changed_maps_rtrn; #endif { register int i; *changed_maps_rtrn= 0; for (i=0;imods.vmods&changed_vmods) { map->mods.mask= map->mods.real_mods; map->mods.mask|= XkbMaskForVMask(xkb,map->mods.vmods); *changed_maps_rtrn|= (1L<id; if ((dev->button)&&(dev->button->xkb_acts)) { _UpdateButtonVMods(xkb,dev->button->numButtons, dev->button->xkb_acts,changed,&ed); } if (dev->kbdfeed) { KbdFeedbackPtr kf; for (kf=dev->kbdfeed;kf!=NULL;kf=kf->next) { if ((kf->xkb_sli==NULL)||(kf->xkb_sli->maps==NULL)) continue; sli= kf->xkb_sli; _UpdateMapVMods(xkb,sli->maps,changed,&changed_maps); if (changed_maps) { if (ed.reason&XkbXI_IndicatorsMask) { XkbSendExtensionDeviceNotify(dev,NULL,&ed); ed.reason= 0; ed.firstBtn= ed.nBtns; } ed.ledClass= sli->class; ed.ledID= sli->id; ed.ledsDefined= sli->namesPresent|sli->mapsPresent; ed.reason|= XkbXI_IndicatorMapsMask; XkbUpdateLedAutoState(dev,sli,changed_maps,&ed,NULL,cause); } } } if (dev->leds) { LedFeedbackPtr lf; for (lf=dev->leds;lf!=NULL;lf=lf->next) { if ((lf->xkb_sli==NULL)||(lf->xkb_sli->maps==NULL)) continue; sli= lf->xkb_sli; _UpdateMapVMods(xkb,sli->maps,changed,&changed_maps); if (changed_maps) { if (ed.reason&XkbXI_IndicatorsMask) { XkbSendExtensionDeviceNotify(dev,NULL,&ed); ed.reason= 0; ed.firstBtn= ed.nBtns; } ed.ledClass= sli->class; ed.ledID= sli->id; ed.ledsDefined= sli->namesPresent|sli->mapsPresent; ed.reason|= XkbXI_IndicatorMapsMask; XkbUpdateLedAutoState(dev,sli,changed_maps,&ed,NULL,cause); } } } if (ed.reason!=0) XkbSendExtensionDeviceNotify(dev,NULL,&ed); return; } void #if NeedFunctionPrototypes XkbApplyVModChangesToAllDevices( DeviceIntPtr dev, XkbDescPtr xkb, unsigned changed, XkbEventCausePtr cause) #else XkbApplyVModChangesToAllDevices(dev,xkb,changed,cause) DeviceIntPtr dev; XkbDescPtr xkb; unsigned changed; XkbEventCausePtr cause; #endif { DeviceIntPtr edev; if (dev!=(DeviceIntPtr)LookupKeyboardDevice()) return; for (edev=inputInfo.devices;edev!=NULL;edev=edev->next) { if (edev->key) continue; _UpdateDeviceVMods(edev,xkb,changed,cause); } for (edev=inputInfo.off_devices;edev!=NULL;edev=edev->next) { if (edev->key) continue; _UpdateDeviceVMods(edev,xkb,changed,cause); } return; }