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author | Reinhard Tartler <siretart@tauware.de> | 2011-10-10 17:43:39 +0200 |
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committer | Reinhard Tartler <siretart@tauware.de> | 2011-10-10 17:43:39 +0200 |
commit | f4092abdf94af6a99aff944d6264bc1284e8bdd4 (patch) | |
tree | 2ac1c9cc16ceb93edb2c4382c088dac5aeafdf0f /nx-X11/lib/Xt/TMstate.c | |
parent | a840692edc9c6d19cd7c057f68e39c7d95eb767d (diff) | |
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Imported nx-X11-3.1.0-1.tar.gznx-X11/3.1.0-1
Summary: Imported nx-X11-3.1.0-1.tar.gz
Keywords:
Imported nx-X11-3.1.0-1.tar.gz
into Git repository
Diffstat (limited to 'nx-X11/lib/Xt/TMstate.c')
-rw-r--r-- | nx-X11/lib/Xt/TMstate.c | 2349 |
1 files changed, 2349 insertions, 0 deletions
diff --git a/nx-X11/lib/Xt/TMstate.c b/nx-X11/lib/Xt/TMstate.c new file mode 100644 index 000000000..604947496 --- /dev/null +++ b/nx-X11/lib/Xt/TMstate.c @@ -0,0 +1,2349 @@ +/* $Xorg: TMstate.c,v 1.6 2001/02/09 02:03:58 xorgcvs Exp $ */ + +/*********************************************************** +Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts, +Copyright 1993 by Sun Microsystems, Inc. Mountain View, CA. + + All Rights Reserved + +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 names of Digital or Sun not be +used in advertising or publicity pertaining to distribution of the +software without specific, written prior permission. + +DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING +ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL +DIGITAL 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. + +SUN DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FIT- +NESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SUN BE LI- +ABLE 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. + +******************************************************************/ +/* $XFree86: xc/lib/Xt/TMstate.c,v 1.8 2001/12/14 19:56:31 dawes Exp $ */ + +/* + +Copyright 1987, 1988, 1994, 1998 The Open Group + +Permission to use, copy, modify, distribute, and sell this software and its +documentation for any purpose is hereby granted without fee, provided that +the above copyright notice appear in all copies and that both that +copyright notice and this permission notice appear in supporting +documentation. + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN +AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN +CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +Except as contained in this notice, the name of The Open Group shall not be +used in advertising or otherwise to promote the sale, use or other dealings +in this Software without prior written authorization from The Open Group. + +*/ + +/* TMstate.c -- maintains the state table of actions for the translation + * manager. + */ +/*LINTLIBRARY*/ + +#ifdef HAVE_CONFIG_H +#include <config.h> +#endif +#include "IntrinsicI.h" + +#ifndef TM_NO_MATCH +#define TM_NO_MATCH (-2) +#endif /* TM_NO_MATCH */ + +/* forward definitions */ +static StatePtr NewState(TMParseStateTree, TMShortCard, TMShortCard); + + +static String XtNtranslationError = "translationError"; + +#ifndef __EMX__ +TMGlobalRec _XtGlobalTM; /* initialized to zero K&R */ +#else +TMGlobalRec _XtGlobalTM = {0}; +#endif + +#define MatchIncomingEvent(tmEvent, typeMatch, modMatch) \ + (typeMatch->eventType == tmEvent->event.eventType && \ + (typeMatch->matchEvent != NULL) && \ + (*typeMatch->matchEvent)(typeMatch, modMatch, tmEvent)) + + +#define NumStateTrees(xlations) \ + ((translateData->isSimple) ? 1 : (TMComplexXlations(xlations))->numTrees) + +static TMShortCard GetBranchHead( + TMParseStateTree parseTree, + TMShortCard typeIndex, + TMShortCard modIndex, + Boolean isDummy) +{ +#define TM_BRANCH_HEAD_TBL_ALLOC 8 +#define TM_BRANCH_HEAD_TBL_REALLOC 8 + + TMBranchHead branchHead = parseTree->branchHeadTbl; + TMShortCard newSize, i; + + /* + * dummy is used as a place holder for later matching in old-style + * matching behavior. If there's already an entry we don't need + * another dummy. + */ + if (isDummy) { + for (i = 0; i < parseTree->numBranchHeads; i++, branchHead++) { + if ((branchHead->typeIndex == typeIndex) && + (branchHead->modIndex == modIndex)) + return i; + } + } + if (parseTree->numBranchHeads == parseTree->branchHeadTblSize) + { + if (parseTree->branchHeadTblSize == 0) + parseTree->branchHeadTblSize += TM_BRANCH_HEAD_TBL_ALLOC; + else + parseTree->branchHeadTblSize += + TM_BRANCH_HEAD_TBL_REALLOC; + newSize = (parseTree->branchHeadTblSize * sizeof(TMBranchHeadRec)); + if (parseTree->isStackBranchHeads) { + TMBranchHead oldBranchHeadTbl = parseTree->branchHeadTbl; + parseTree->branchHeadTbl = (TMBranchHead) __XtMalloc(newSize); + XtMemmove(parseTree->branchHeadTbl, oldBranchHeadTbl, newSize); + parseTree->isStackBranchHeads = False; + } + else { + parseTree->branchHeadTbl = (TMBranchHead) + XtRealloc((char *)parseTree->branchHeadTbl, + (parseTree->branchHeadTblSize * + sizeof(TMBranchHeadRec))); + } + } +#ifdef TRACE_TM + LOCK_PROCESS; + _XtGlobalTM.numBranchHeads++; + UNLOCK_PROCESS; +#endif /* TRACE_TM */ + branchHead = + &parseTree->branchHeadTbl[parseTree->numBranchHeads++]; + branchHead->typeIndex = typeIndex; + branchHead->modIndex = modIndex; + branchHead->more = 0; + branchHead->isSimple = True; + branchHead->hasActions = False; + branchHead->hasCycles = False; + return parseTree->numBranchHeads-1; +} + +TMShortCard _XtGetQuarkIndex( + TMParseStateTree parseTree, + XrmQuark quark) +{ +#define TM_QUARK_TBL_ALLOC 16 +#define TM_QUARK_TBL_REALLOC 16 + TMShortCard i = parseTree->numQuarks; + + for (i=0; i < parseTree->numQuarks; i++) + if (parseTree->quarkTbl[i] == quark) + break; + + if (i == parseTree->numQuarks) + { + if (parseTree->numQuarks == parseTree->quarkTblSize) + { + TMShortCard newSize; + + if (parseTree->quarkTblSize == 0) + parseTree->quarkTblSize += TM_QUARK_TBL_ALLOC; + else + parseTree->quarkTblSize += TM_QUARK_TBL_REALLOC; + newSize = (parseTree->quarkTblSize * sizeof(XrmQuark)); + + if (parseTree->isStackQuarks) { + XrmQuark *oldquarkTbl = parseTree->quarkTbl; + parseTree->quarkTbl = (XrmQuark *) __XtMalloc(newSize); + XtMemmove(parseTree->quarkTbl, oldquarkTbl, newSize); + parseTree->isStackQuarks = False; + } + else { + parseTree->quarkTbl = (XrmQuark *) + XtRealloc((char *)parseTree->quarkTbl, + (parseTree->quarkTblSize * + sizeof(XrmQuark))); + } + } + parseTree->quarkTbl[parseTree->numQuarks++] = quark; + } + return i; +} + +/* + * Get an entry from the parseTrees complex branchHead tbl. If there's none + * there then allocate one + */ +/*ARGSUSED*/ +static TMShortCard GetComplexBranchIndex( + TMParseStateTree parseTree, + TMShortCard typeIndex, + TMShortCard modIndex) +{ +#define TM_COMPLEXBRANCH_HEAD_TBL_ALLOC 8 +#define TM_COMPLEXBRANCH_HEAD_TBL_REALLOC 4 + + if (parseTree->numComplexBranchHeads == parseTree->complexBranchHeadTblSize) { + TMShortCard newSize; + + if (parseTree->complexBranchHeadTblSize == 0) + parseTree->complexBranchHeadTblSize += TM_COMPLEXBRANCH_HEAD_TBL_ALLOC; + else + parseTree->complexBranchHeadTblSize += TM_COMPLEXBRANCH_HEAD_TBL_REALLOC; + + newSize = (parseTree->complexBranchHeadTblSize * sizeof(StatePtr)); + + if (parseTree->isStackComplexBranchHeads) { + StatePtr *oldcomplexBranchHeadTbl + = parseTree->complexBranchHeadTbl; + parseTree->complexBranchHeadTbl = (StatePtr *) __XtMalloc(newSize); + XtMemmove(parseTree->complexBranchHeadTbl, + oldcomplexBranchHeadTbl, newSize); + parseTree->isStackComplexBranchHeads = False; + } + else { + parseTree->complexBranchHeadTbl = (StatePtr *) + XtRealloc((char *)parseTree->complexBranchHeadTbl, + (parseTree->complexBranchHeadTblSize * + sizeof(StatePtr))); + } + } + parseTree->complexBranchHeadTbl[parseTree->numComplexBranchHeads++] = NULL; + return parseTree->numComplexBranchHeads-1; +} + +TMShortCard _XtGetTypeIndex( + Event *event) +{ + TMShortCard i, j = TM_TYPE_SEGMENT_SIZE; + TMShortCard typeIndex = 0; + TMTypeMatch typeMatch; + TMTypeMatch segment = NULL; + + LOCK_PROCESS; + for (i = 0; i < _XtGlobalTM.numTypeMatchSegments; i++) { + segment = _XtGlobalTM.typeMatchSegmentTbl[i]; + for (j = 0; + typeIndex < _XtGlobalTM.numTypeMatches && j < TM_TYPE_SEGMENT_SIZE; + j++, typeIndex++) + { + typeMatch = &(segment[j]); + if (event->eventType == typeMatch->eventType && + event->eventCode == typeMatch->eventCode && + event->eventCodeMask == typeMatch->eventCodeMask && + event->matchEvent == typeMatch->matchEvent) { + UNLOCK_PROCESS; + return typeIndex; + } + } + } + + if (j == TM_TYPE_SEGMENT_SIZE) { + if (_XtGlobalTM.numTypeMatchSegments == _XtGlobalTM.typeMatchSegmentTblSize) { + _XtGlobalTM.typeMatchSegmentTblSize += 4; + _XtGlobalTM.typeMatchSegmentTbl = (TMTypeMatch *) + XtRealloc((char *)_XtGlobalTM.typeMatchSegmentTbl, + (_XtGlobalTM.typeMatchSegmentTblSize * sizeof(TMTypeMatch))); + } + _XtGlobalTM.typeMatchSegmentTbl[_XtGlobalTM.numTypeMatchSegments++] = + segment = (TMTypeMatch) + __XtMalloc(TM_TYPE_SEGMENT_SIZE * sizeof(TMTypeMatchRec)); + j = 0; + } + typeMatch = &segment[j]; + typeMatch->eventType = event->eventType; + typeMatch->eventCode = event->eventCode; + typeMatch->eventCodeMask = event->eventCodeMask; + typeMatch->matchEvent = event->matchEvent; + _XtGlobalTM.numTypeMatches++; + UNLOCK_PROCESS; + return typeIndex; +} + +static Boolean CompareLateModifiers( + LateBindingsPtr lateBind1P, + LateBindingsPtr lateBind2P) +{ + LateBindingsPtr late1P = lateBind1P; + LateBindingsPtr late2P = lateBind2P; + + if (late1P != NULL || late2P != NULL) { + int i = 0; + int j = 0; + if (late1P != NULL) + for (; late1P->keysym != NoSymbol; i++) late1P++; + if (late2P != NULL) + for (; late2P->keysym != NoSymbol; j++) late2P++; + if (i != j) return FALSE; + late1P--; + while (late1P >= lateBind1P) { + Boolean last = True; + for (late2P = lateBind2P + i - 1; + late2P >= lateBind2P; + late2P--) { + if (late1P->keysym == late2P->keysym + && late1P->knot == late2P->knot) { + j--; + if (last) i--; + break; + } + last = False; + } + late1P--; + } + if (j != 0) return FALSE; + } + return TRUE; +} + +TMShortCard _XtGetModifierIndex( + Event *event) +{ + TMShortCard i, j = TM_MOD_SEGMENT_SIZE; + TMShortCard modIndex = 0; + TMModifierMatch modMatch; + TMModifierMatch segment = NULL; + + LOCK_PROCESS; + for (i = 0; i < _XtGlobalTM.numModMatchSegments; i++) { + segment = _XtGlobalTM.modMatchSegmentTbl[i]; + for (j = 0; + modIndex < _XtGlobalTM.numModMatches && j < TM_MOD_SEGMENT_SIZE; + j++, modIndex++) { + modMatch = &(segment[j]); + if (event->modifiers == modMatch->modifiers && + event->modifierMask == modMatch->modifierMask && + event->standard == modMatch->standard && + ((!event->lateModifiers && !modMatch->lateModifiers) || + CompareLateModifiers(event->lateModifiers, + modMatch->lateModifiers))) { + /* + * if we found a match then we can free the parser's + * late modifiers. If there isn't a match we use the + * parser's copy + */ + if (event->lateModifiers && + --event->lateModifiers->ref_count == 0) { + XtFree((char *)event->lateModifiers); + event->lateModifiers = NULL; + } + UNLOCK_PROCESS; + return modIndex; + } + } + } + + if (j == TM_MOD_SEGMENT_SIZE) { + if (_XtGlobalTM.numModMatchSegments == _XtGlobalTM.modMatchSegmentTblSize) { + _XtGlobalTM.modMatchSegmentTblSize += 4; + _XtGlobalTM.modMatchSegmentTbl = (TMModifierMatch *) + XtRealloc((char *)_XtGlobalTM.modMatchSegmentTbl, + (_XtGlobalTM.modMatchSegmentTblSize * sizeof(TMModifierMatch))); + } + _XtGlobalTM.modMatchSegmentTbl[_XtGlobalTM.numModMatchSegments++] = + segment = (TMModifierMatch) + __XtMalloc(TM_MOD_SEGMENT_SIZE * sizeof(TMModifierMatchRec)); + j = 0; + } + modMatch = &segment[j]; + modMatch->modifiers = event->modifiers;; + modMatch->modifierMask = event->modifierMask; + modMatch->standard = event->standard; + /* + * We use the parser's copy of the late binding array + */ +#ifdef TRACE_TM + if (event->lateModifiers) + _XtGlobalTM.numLateBindings++; +#endif /* TRACE_TM */ + modMatch->lateModifiers = event->lateModifiers; + _XtGlobalTM.numModMatches++; + UNLOCK_PROCESS; + return modIndex; +} + + +/* + * This is called from the SimpleStateHandler to match a stateTree + * entry to the event coming in + */ +static int MatchBranchHead( + TMSimpleStateTree stateTree, + int startIndex, + TMEventPtr event) +{ + TMBranchHead branchHead = &stateTree->branchHeadTbl[startIndex]; + int i; + + LOCK_PROCESS; + for (i = startIndex; + i < (int)stateTree->numBranchHeads; + i++, branchHead++) + { + TMTypeMatch typeMatch; + TMModifierMatch modMatch; + + typeMatch = TMGetTypeMatch(branchHead->typeIndex); + modMatch = TMGetModifierMatch(branchHead->modIndex); + + if (MatchIncomingEvent(event, typeMatch, modMatch)) { + UNLOCK_PROCESS; + return i; + } + } + UNLOCK_PROCESS; + return (TM_NO_MATCH); +} + +Boolean _XtRegularMatch( + TMTypeMatch typeMatch, + TMModifierMatch modMatch, + TMEventPtr eventSeq) +{ + Modifiers computed =0; + Modifiers computedMask =0; + Boolean resolved = TRUE; + if (typeMatch->eventCode != (eventSeq->event.eventCode & + typeMatch->eventCodeMask)) return FALSE; + if (modMatch->lateModifiers != NULL) + resolved = _XtComputeLateBindings(eventSeq->xev->xany.display, + modMatch->lateModifiers, + &computed, &computedMask); + if (!resolved) return FALSE; + computed |= modMatch->modifiers; + computedMask |= modMatch->modifierMask; + + return ( (computed & computedMask) == + (eventSeq->event.modifiers & computedMask)); +} + +/*ARGSUSED*/ +Boolean _XtMatchAtom( + TMTypeMatch typeMatch, + TMModifierMatch modMatch, + TMEventPtr eventSeq) +{ + Atom atom; + + atom = XInternAtom(eventSeq->xev->xany.display, + XrmQuarkToString(typeMatch->eventCode), + False); + return (atom == eventSeq->event.eventCode); +} + +#define IsOn(vec,idx) ((vec)[(idx)>>3] & (1 << ((idx) & 7))) + +/* + * there are certain cases where you want to ignore the event and stay + * in the same state. + */ +static Boolean Ignore( + TMEventPtr event) +{ + Display *dpy; + XtPerDisplay pd; + + if (event->event.eventType == MotionNotify) + return TRUE; + if (!(event->event.eventType == KeyPress || + event->event.eventType == KeyRelease)) + return FALSE; + dpy = event->xev->xany.display; + pd = _XtGetPerDisplay(dpy); + _InitializeKeysymTables(dpy, pd); + return IsOn(pd->isModifier, event->event.eventCode) ? TRUE : FALSE; +} + + +static void XEventToTMEvent( + XEvent *event, + TMEventPtr tmEvent) +{ + tmEvent->xev = event; + tmEvent->event.eventCodeMask = 0; + tmEvent->event.modifierMask = 0; + tmEvent->event.eventType = event->type; + tmEvent->event.lateModifiers = NULL; + tmEvent->event.matchEvent = NULL; + tmEvent->event.standard = FALSE; + + switch (event->type) { + + case KeyPress: + case KeyRelease: + tmEvent->event.eventCode = event->xkey.keycode; + tmEvent->event.modifiers = event->xkey.state; + break; + + case ButtonPress: + case ButtonRelease: + tmEvent->event.eventCode = event->xbutton.button; + tmEvent->event.modifiers = event->xbutton.state; + break; + + case MotionNotify: + tmEvent->event.eventCode = event->xmotion.is_hint; + tmEvent->event.modifiers = event->xmotion.state; + break; + + case EnterNotify: + case LeaveNotify: + tmEvent->event.eventCode = event->xcrossing.mode; + tmEvent->event.modifiers = event->xcrossing.state; + break; + + case PropertyNotify: + tmEvent->event.eventCode = event->xproperty.atom; + tmEvent->event.modifiers = 0; + break; + + case SelectionClear: + tmEvent->event.eventCode = event->xselectionclear.selection; + tmEvent->event.modifiers = 0; + break; + + case SelectionRequest: + tmEvent->event.eventCode = event->xselectionrequest.selection; + tmEvent->event.modifiers = 0; + break; + + case SelectionNotify: + tmEvent->event.eventCode = event->xselection.selection; + tmEvent->event.modifiers = 0; + break; + + case ClientMessage: + tmEvent->event.eventCode = event->xclient.message_type; + tmEvent->event.modifiers = 0; + break; + + case MappingNotify: + tmEvent->event.eventCode = event->xmapping.request; + tmEvent->event.modifiers = 0; + break; + + case FocusIn: + case FocusOut: + tmEvent->event.eventCode = event->xfocus.mode; + tmEvent->event.modifiers = 0; + break; + + default: + tmEvent->event.eventCode = 0; + tmEvent->event.modifiers = 0; + break; + } +} + + +static unsigned long GetTime( + XtTM tm, + XEvent *event) +{ + switch (event->type) { + + case KeyPress: + case KeyRelease: + return event->xkey.time; + + case ButtonPress: + case ButtonRelease: + return event->xbutton.time; + + default: + return tm->lastEventTime; + + } + +} + +static void HandleActions( + Widget w, + XEvent *event, + TMSimpleStateTree stateTree, + Widget accelWidget, + XtActionProc *procs, + ActionRec *actions) +{ + ActionHook actionHookList; + Widget bindWidget; + + bindWidget = accelWidget ? accelWidget : w; + if (accelWidget && !XtIsSensitive(accelWidget) && + (event->type == KeyPress || event->type == KeyRelease || + event->type == ButtonPress || event->type == ButtonRelease || + event->type == MotionNotify || event->type == EnterNotify || + event->type == LeaveNotify || event->type == FocusIn || + event->type == FocusOut)) + return; + + actionHookList = XtWidgetToApplicationContext(w)->action_hook_list; + + while (actions != NULL) { + /* perform any actions */ + if (procs[actions->idx] != NULL) { + if (actionHookList) { + ActionHook hook; + ActionHook next_hook; + String procName = + XrmQuarkToString(stateTree->quarkTbl[actions->idx] ); + + for (hook = actionHookList; hook != NULL; ) { + /* + * Need to cache hook->next because the following action + * proc may free hook via XtRemoveActionHook making + * hook->next invalid upon return from the action proc. + */ + next_hook = hook->next; + (*hook->proc)(bindWidget, + hook->closure, + procName, + event, + actions->params, + &actions->num_params + ); + hook = next_hook; + } + } + (*(procs[actions->idx])) + (bindWidget, event, + actions->params, &actions->num_params ); + } + actions = actions->next; + } +} + +typedef struct { + unsigned int isCycleStart:1; + unsigned int isCycleEnd:1; + TMShortCard typeIndex; + TMShortCard modIndex; +}MatchPairRec, *MatchPair; + +typedef struct TMContextRec{ + TMShortCard numMatches; + TMShortCard maxMatches; + MatchPair matches; +}TMContextRec, *TMContext; + +static TMContextRec contextCache[2]; + +#define GetContextPtr(tm) ((TMContext *)&(tm->current_state)) + +#define TM_CONTEXT_MATCHES_ALLOC 4 +#define TM_CONTEXT_MATCHES_REALLOC 2 + +static void PushContext( + TMContext *contextPtr, + StatePtr newState) +{ + TMContext context = *contextPtr; + + LOCK_PROCESS; + if (context == NULL) + { + if (contextCache[0].numMatches == 0) + context = &contextCache[0]; + else if (contextCache[1].numMatches == 0) + context = &contextCache[1]; + if (!context) + { + context = XtNew(TMContextRec); + context->matches = NULL; + context->numMatches = + context->maxMatches = 0; + } + } + if (context->numMatches && + context->matches[context->numMatches-1].isCycleEnd) + { + TMShortCard i; + for (i = 0; + i < context->numMatches && + !(context->matches[i].isCycleStart); + i++){}; + if (i < context->numMatches) + context->numMatches = i+1; +#ifdef DEBUG + else + XtWarning("pushing cycle end with no cycle start"); +#endif /* DEBUG */ + } + else + { + if (context->numMatches == context->maxMatches) + { + if (context->maxMatches == 0) + context->maxMatches += TM_CONTEXT_MATCHES_ALLOC; + else + context->maxMatches += TM_CONTEXT_MATCHES_REALLOC; + context->matches = (MatchPairRec *) + XtRealloc((char *)context->matches, + context->maxMatches * sizeof(MatchPairRec)); + } + context->matches[context->numMatches].isCycleStart = newState->isCycleStart; + context->matches[context->numMatches].isCycleEnd = newState->isCycleEnd; + context->matches[context->numMatches].typeIndex = newState->typeIndex; + context->matches[context->numMatches++].modIndex = newState->modIndex; + *contextPtr = context; + } + UNLOCK_PROCESS; +} + +static void FreeContext( + TMContext *contextPtr) +{ + TMContext context = NULL; + + LOCK_PROCESS; + + if (&contextCache[0] == *contextPtr) + context = &contextCache[0]; + else if (&contextCache[1] == *contextPtr) + context = &contextCache[1]; + + if (context) + context->numMatches = 0; + else if (*contextPtr) + { + if ((*contextPtr)->matches) + XtFree ((char *) ((*contextPtr)->matches)); + XtFree((char *)*contextPtr); + } + + *contextPtr = NULL; + UNLOCK_PROCESS; +} + +static int MatchExact( + TMSimpleStateTree stateTree, + int startIndex, + TMShortCard typeIndex, + TMShortCard modIndex) +{ + TMBranchHead branchHead = &(stateTree->branchHeadTbl[startIndex]); + int i; + + for (i = startIndex; + i < (int)stateTree->numBranchHeads; + i++, branchHead++) + { + if ((branchHead->typeIndex == typeIndex) && + (branchHead->modIndex == modIndex)) + return i; + } + return (TM_NO_MATCH); +} + + + +static void HandleSimpleState( + Widget w, + XtTM tmRecPtr, + TMEventRec *curEventPtr) +{ + XtTranslations xlations = tmRecPtr->translations; + TMSimpleStateTree stateTree; + TMContext *contextPtr = GetContextPtr(tmRecPtr); + TMShortCard i; + ActionRec *actions = NULL; + Boolean matchExact = False; + Boolean match = False; + StatePtr complexMatchState = NULL; + int currIndex; + TMShortCard typeIndex = 0, modIndex = 0; + int matchTreeIndex = TM_NO_MATCH; + + LOCK_PROCESS; + stateTree = (TMSimpleStateTree)xlations->stateTreeTbl[0]; + + for (i = 0; + ((!match || !complexMatchState) && (i < xlations->numStateTrees)); + i++){ + stateTree = (TMSimpleStateTree)xlations->stateTreeTbl[i]; + currIndex = -1; + /* + * don't process this tree if we're only looking for a + * complexMatchState and there are no complex states + */ + while (!(match && stateTree->isSimple) && + ((!match || !complexMatchState) && (currIndex != TM_NO_MATCH))) { + currIndex++; + if (matchExact) + currIndex = MatchExact(stateTree,currIndex,typeIndex,modIndex); + else + currIndex = MatchBranchHead(stateTree,currIndex,curEventPtr); + if (currIndex != TM_NO_MATCH) { + TMBranchHead branchHead; + StatePtr currState; + + branchHead = &stateTree->branchHeadTbl[currIndex]; + if (branchHead->isSimple) + currState = NULL; + else + currState = ((TMComplexStateTree)stateTree) + ->complexBranchHeadTbl[TMBranchMore(branchHead)]; + + /* + * first check for a complete match + */ + if (!match) { + if (branchHead->hasActions) { + if (branchHead->isSimple) { + static ActionRec dummyAction; + + dummyAction.idx = TMBranchMore(branchHead); + actions = &dummyAction; + } + else + actions = currState->actions; + tmRecPtr->lastEventTime = + GetTime(tmRecPtr, curEventPtr->xev); + FreeContext((TMContext + *)&tmRecPtr->current_state); + match = True; + matchTreeIndex = i; + } + /* + * if it doesn't have actions and + * it's bc mode then it's a potential match node that is + * used to match later sequences. + */ + if (!TMNewMatchSemantics() && !matchExact) { + matchExact = True; + typeIndex = branchHead->typeIndex; + modIndex = branchHead->modIndex; + } + } + /* + * check for it being an event sequence which can be + * a future match + */ + if (!branchHead->isSimple && + !branchHead->hasActions && + !complexMatchState) + complexMatchState = currState; + } + } + } + if (match) + { + TMBindData bindData = (TMBindData) tmRecPtr->proc_table; + XtActionProc *procs; + Widget accelWidget; + + if (bindData->simple.isComplex) { + TMComplexBindProcs bindProcs = + TMGetComplexBindEntry(bindData, matchTreeIndex); + procs = bindProcs->procs; + accelWidget = bindProcs->widget; + } + else { + TMSimpleBindProcs bindProcs = + TMGetSimpleBindEntry(bindData, matchTreeIndex); + procs = bindProcs->procs; + accelWidget = NULL; + } + HandleActions + (w, + curEventPtr->xev, + (TMSimpleStateTree)xlations->stateTreeTbl[matchTreeIndex], + accelWidget, + procs, + actions); + } + if (complexMatchState) + PushContext(contextPtr, complexMatchState); + UNLOCK_PROCESS; +} + +static int MatchComplexBranch( + TMComplexStateTree stateTree, + int startIndex, + TMContext context, + StatePtr *leafStateRtn) +{ + TMShortCard i; + + LOCK_PROCESS; + for (i = startIndex; i < stateTree->numComplexBranchHeads; i++) + { + StatePtr candState; + TMShortCard numMatches = context->numMatches; + MatchPair statMatch = context->matches; + + for (candState = stateTree->complexBranchHeadTbl[i]; + numMatches && candState; + numMatches--, statMatch++, candState = candState->nextLevel) + { + if ((statMatch->typeIndex != candState->typeIndex) || + (statMatch->modIndex != candState->modIndex)) + break; + } + if (numMatches == 0) { + *leafStateRtn = candState; + UNLOCK_PROCESS; + return i; + } + } + *leafStateRtn = NULL; + UNLOCK_PROCESS; + return (TM_NO_MATCH); +} + +static StatePtr TryCurrentTree( + TMComplexStateTree *stateTreePtr, + XtTM tmRecPtr, + TMEventRec *curEventPtr) +{ + StatePtr candState = NULL, matchState = NULL; + TMContext *contextPtr = GetContextPtr(tmRecPtr); + TMTypeMatch typeMatch; + TMModifierMatch modMatch; + int currIndex = -1; + + /* + * we want the first sequence that both matches and has actions. + * we keep on looking till we find both + */ + LOCK_PROCESS; + while ((currIndex = + MatchComplexBranch(*stateTreePtr, + ++currIndex, + (*contextPtr), + &candState)) + != TM_NO_MATCH) { + if (candState != NULL) { + typeMatch = TMGetTypeMatch(candState->typeIndex); + modMatch = TMGetModifierMatch(candState->modIndex); + + /* does this state's index match? --> done */ + if (MatchIncomingEvent(curEventPtr, typeMatch, modMatch)) + { + if (candState->actions) { + UNLOCK_PROCESS; + return candState; + } + else + matchState = candState; + } + /* is this an event timer? */ + if (typeMatch->eventType == _XtEventTimerEventType) { + StatePtr nextState = candState->nextLevel; + + /* does the succeeding state match? */ + if (nextState != NULL) { + TMTypeMatch nextTypeMatch; + TMModifierMatch nextModMatch; + + nextTypeMatch = TMGetTypeMatch(nextState->typeIndex); + nextModMatch = TMGetModifierMatch(nextState->modIndex); + + /* is it within the timeout? */ + if (MatchIncomingEvent(curEventPtr, + nextTypeMatch, + nextModMatch)) { + XEvent *xev = curEventPtr->xev; + unsigned long time = GetTime(tmRecPtr, xev); + XtPerDisplay pd = _XtGetPerDisplay(xev->xany.display); + unsigned long delta = pd->multi_click_time; + + if ((tmRecPtr->lastEventTime + delta) >= time) { + if (nextState->actions) { + UNLOCK_PROCESS; + return candState; + } + else + matchState = candState; + } + } + } + } + } + } + UNLOCK_PROCESS; + return matchState; +} + +static void HandleComplexState( + Widget w, + XtTM tmRecPtr, + TMEventRec *curEventPtr) +{ + XtTranslations xlations = tmRecPtr->translations; + TMContext *contextPtr = GetContextPtr(tmRecPtr); + TMShortCard i, matchTreeIndex = 0; + StatePtr matchState = NULL, candState; + TMComplexStateTree *stateTreePtr = + (TMComplexStateTree *)&xlations->stateTreeTbl[0]; + + LOCK_PROCESS; + for (i = 0; + i < xlations->numStateTrees; + i++, stateTreePtr++) { + /* + * some compilers sign extend Boolean bit fields so test for + * false ||| + */ + if (((*stateTreePtr)->isSimple == False) && + (candState = TryCurrentTree(stateTreePtr, + tmRecPtr, + curEventPtr))) { + if (!matchState || candState->actions) { + matchTreeIndex = i; + matchState = candState; + if (candState->actions) + break; + } + } + } + if (matchState == NULL){ + /* couldn't find it... */ + if (!Ignore(curEventPtr)) + { + FreeContext(contextPtr); + HandleSimpleState(w, tmRecPtr, curEventPtr); + } + } + else { + TMBindData bindData = (TMBindData) tmRecPtr->proc_table; + XtActionProc *procs; + Widget accelWidget; + TMTypeMatch typeMatch; + + typeMatch = TMGetTypeMatch(matchState->typeIndex); + + PushContext(contextPtr, matchState); + if (typeMatch->eventType == _XtEventTimerEventType) { + matchState = matchState->nextLevel; + PushContext(contextPtr, matchState); + } + tmRecPtr->lastEventTime = GetTime (tmRecPtr, curEventPtr->xev); + + if (bindData->simple.isComplex) { + TMComplexBindProcs bindProcs = + TMGetComplexBindEntry(bindData, matchTreeIndex); + procs = bindProcs->procs; + accelWidget = bindProcs->widget; + } + else { + TMSimpleBindProcs bindProcs = + TMGetSimpleBindEntry(bindData, matchTreeIndex); + procs = bindProcs->procs; + accelWidget = NULL; + } + HandleActions(w, + curEventPtr->xev, + (TMSimpleStateTree) + xlations->stateTreeTbl[matchTreeIndex], + accelWidget, + procs, + matchState->actions); + } + UNLOCK_PROCESS; +} + + +void _XtTranslateEvent ( + Widget w, + XEvent * event) +{ + XtTM tmRecPtr = &w->core.tm; + TMEventRec curEvent; + StatePtr current_state = tmRecPtr->current_state; + + XEventToTMEvent (event, &curEvent); + + if (! tmRecPtr->translations) { + XtAppWarningMsg(XtWidgetToApplicationContext(w), + XtNtranslationError,"nullTable",XtCXtToolkitError, + "Can't translate event through NULL table", + (String *)NULL, (Cardinal *)NULL); + return ; + } + if (current_state == NULL) + HandleSimpleState(w, tmRecPtr, &curEvent); + else + HandleComplexState(w, tmRecPtr, &curEvent); +} + + +/*ARGSUSED*/ +static StatePtr NewState( + TMParseStateTree stateTree, + TMShortCard typeIndex, + TMShortCard modIndex) +{ + StatePtr state = XtNew(StateRec); + +#ifdef TRACE_TM + LOCK_PROCESS; + _XtGlobalTM.numComplexStates++; + UNLOCK_PROCESS; +#endif /* TRACE_TM */ + state->typeIndex = typeIndex; + state->modIndex = modIndex; + state->nextLevel = NULL; + state->actions = NULL; + state->isCycleStart = state->isCycleEnd = False; + return state; +} + +/* + * This routine is an iterator for state trees. If the func returns + * true then iteration is over. + */ +void _XtTraverseStateTree( + TMStateTree tree, + _XtTraversalProc func, + XtPointer data) +{ + TMComplexStateTree stateTree = (TMComplexStateTree)tree; + TMBranchHead currBH; + TMShortCard i; + StateRec dummyStateRec, *dummyState = &dummyStateRec; + ActionRec dummyActionRec, *dummyAction = &dummyActionRec; + Boolean firstSimple = True; + StatePtr currState; + + /* first traverse the complex states */ + if (stateTree->isSimple == False) + for (i = 0; i < stateTree->numComplexBranchHeads; i++) { + currState = stateTree->complexBranchHeadTbl[i]; + for (; currState; currState = currState->nextLevel) { + if (func(currState, data)) + return; + if (currState->isCycleEnd) + break; + } + } + + /* now traverse the simple ones */ + for (i = 0, currBH = stateTree->branchHeadTbl; + i < stateTree->numBranchHeads; + i++, currBH++) + { + if (currBH->isSimple && currBH->hasActions) + { + if (firstSimple) + { + XtBZero((char *) dummyState, sizeof(StateRec)); + XtBZero((char *) dummyAction, sizeof(ActionRec)); + dummyState->actions = dummyAction; + firstSimple = False; + } + dummyState->typeIndex = currBH->typeIndex; + dummyState->modIndex = currBH->modIndex; + dummyAction->idx = currBH->more; + if (func(dummyState, data)) + return; + } + } +} + +static EventMask EventToMask( + TMTypeMatch typeMatch, + TMModifierMatch modMatch) +{ + EventMask returnMask; + unsigned long eventType = typeMatch->eventType; + + if (eventType == MotionNotify) { + Modifiers modifierMask = modMatch->modifierMask; + Modifiers tempMask; + + returnMask = 0; + if (modifierMask == 0) { + if (modMatch->modifiers == AnyButtonMask) + return ButtonMotionMask; + else + return PointerMotionMask; + } + tempMask = modifierMask & + (Button1Mask | Button2Mask | Button3Mask + | Button4Mask | Button5Mask); + if (tempMask == 0) + return PointerMotionMask; + if (tempMask & Button1Mask) + returnMask |= Button1MotionMask; + if (tempMask & Button2Mask) + returnMask |= Button2MotionMask; + if (tempMask & Button3Mask) + returnMask |= Button3MotionMask; + if (tempMask & Button4Mask) + returnMask |= Button4MotionMask; + if (tempMask & Button5Mask) + returnMask |= Button5MotionMask; + return returnMask; + } + returnMask = _XtConvertTypeToMask(eventType); + if (returnMask == (StructureNotifyMask|SubstructureNotifyMask)) + returnMask = StructureNotifyMask; + return returnMask; +} + +/*ARGSUSED*/ +static void DispatchMappingNotify( + Widget widget, /* will be NULL from _RefreshMapping */ + XtPointer closure, /* real Widget */ + XtPointer call_data) /* XEvent* */ +{ + _XtTranslateEvent( (Widget)closure, (XEvent*)call_data); +} + + +/*ARGSUSED*/ +static void RemoveFromMappingCallbacks( + Widget widget, + XtPointer closure, /* target widget */ + XtPointer call_data) +{ + _XtRemoveCallback( &_XtGetPerDisplay(XtDisplay(widget))->mapping_callbacks, + DispatchMappingNotify, + closure + ); +} + +static Boolean AggregateEventMask( + StatePtr state, + XtPointer data) +{ + LOCK_PROCESS; + *((EventMask *)data) |= EventToMask(TMGetTypeMatch(state->typeIndex), + TMGetModifierMatch(state->modIndex)); + UNLOCK_PROCESS; + return False; +} + +void _XtInstallTranslations( + Widget widget) +{ + XtTranslations xlations; + Cardinal i; + TMStateTree stateTree; + Boolean mappingNotifyInterest = False; + + xlations = widget->core.tm.translations; + if (xlations == NULL) return; + + /* + * check for somebody stuffing the translations directly into the + * instance structure. We will end up being called again out of + * ComposeTranslations but we *should* have bindings by then + */ + if (widget->core.tm.proc_table == NULL) { + _XtMergeTranslations(widget, NULL, XtTableReplace); + /* + * if we're realized then we'll be called out of + * ComposeTranslations + */ + if (XtIsRealized(widget)) + return; + } + + xlations->eventMask = 0; + for (i = 0; + i < xlations->numStateTrees; + i++) + { + stateTree = xlations->stateTreeTbl[i]; + _XtTraverseStateTree(stateTree, + AggregateEventMask, + (XtPointer)&xlations->eventMask); + mappingNotifyInterest |= stateTree->simple.mappingNotifyInterest; + } + /* double click needs to make sure that you have selected on both + button down and up. */ + + if (xlations->eventMask & ButtonPressMask) + xlations->eventMask |= ButtonReleaseMask; + if (xlations->eventMask & ButtonReleaseMask) + xlations->eventMask |= ButtonPressMask; + + if (mappingNotifyInterest) { + XtPerDisplay pd = _XtGetPerDisplay(XtDisplay(widget)); + if (pd->mapping_callbacks) + _XtAddCallbackOnce(&(pd->mapping_callbacks), + DispatchMappingNotify, + (XtPointer)widget); + else + _XtAddCallback(&(pd->mapping_callbacks), + DispatchMappingNotify, + (XtPointer)widget); + + if (widget->core.destroy_callbacks != NULL) + _XtAddCallbackOnce( (InternalCallbackList *) + &widget->core.destroy_callbacks, + RemoveFromMappingCallbacks, + (XtPointer)widget + ); + else + _XtAddCallback((InternalCallbackList *) + &widget->core.destroy_callbacks, + RemoveFromMappingCallbacks, + (XtPointer)widget + ); + } + _XtBindActions(widget, (XtTM)&widget->core.tm); + _XtRegisterGrabs(widget); +} + +void _XtRemoveTranslations( + Widget widget) +{ + Cardinal i; + TMSimpleStateTree stateTree; + Boolean mappingNotifyInterest = False; + XtTranslations xlations = widget->core.tm.translations; + + if (xlations == NULL) + return; + + for (i = 0; + i < xlations->numStateTrees; + i++) + { + stateTree = (TMSimpleStateTree)xlations->stateTreeTbl[i]; + mappingNotifyInterest |= stateTree->mappingNotifyInterest; + } + if (mappingNotifyInterest) + RemoveFromMappingCallbacks(widget, (XtPointer)widget, NULL); +} + +static void _XtUninstallTranslations( + Widget widget) +{ + XtTranslations xlations = widget->core.tm.translations; + + _XtUnbindActions(widget, + xlations, + (TMBindData)widget->core.tm.proc_table); + _XtRemoveTranslations(widget); + widget->core.tm.translations = NULL; + FreeContext((TMContext *)&widget->core.tm.current_state); +} + +void _XtDestroyTMData( + Widget widget) +{ + TMComplexBindData cBindData; + + _XtUninstallTranslations(widget); + + if ((cBindData = (TMComplexBindData)widget->core.tm.proc_table)) { + if (cBindData->isComplex) { + ATranslations aXlations, nXlations; + + nXlations = (ATranslations) cBindData->accel_context; + while (nXlations){ + aXlations = nXlations; + nXlations = nXlations->next; + XtFree((char *)aXlations); + } + } + XtFree((char *)cBindData); + } +} + +/*** Public procedures ***/ + + +void XtUninstallTranslations( + Widget widget) +{ + EventMask oldMask; + Widget hookobj; + WIDGET_TO_APPCON(widget); + + LOCK_APP(app); + if (! widget->core.tm.translations) { + UNLOCK_APP(app); + return; + } + oldMask = widget->core.tm.translations->eventMask; + _XtUninstallTranslations(widget); + if (XtIsRealized(widget) && oldMask) + XSelectInput(XtDisplay(widget), XtWindow(widget), + XtBuildEventMask(widget)); + hookobj = XtHooksOfDisplay(XtDisplayOfObject(widget)); + if (XtHasCallbacks(hookobj, XtNchangeHook) == XtCallbackHasSome) { + XtChangeHookDataRec call_data; + + call_data.type = XtHuninstallTranslations; + call_data.widget = widget; + XtCallCallbackList(hookobj, + ((HookObject)hookobj)->hooks.changehook_callbacks, + (XtPointer)&call_data); + } + UNLOCK_APP(app); +} + +XtTranslations _XtCreateXlations( + TMStateTree *stateTrees, + TMShortCard numStateTrees, + XtTranslations first, + XtTranslations second) +{ + XtTranslations xlations; + TMShortCard i; + + xlations = (XtTranslations) + __XtMalloc(sizeof(TranslationData) + + (numStateTrees-1) * sizeof(TMStateTree)); +#ifdef TRACE_TM + LOCK_PROCESS; + if (_XtGlobalTM.numTms == _XtGlobalTM.tmTblSize) { + _XtGlobalTM.tmTblSize += 16; + _XtGlobalTM.tmTbl = (XtTranslations *) + XtRealloc((char *)_XtGlobalTM.tmTbl, + _XtGlobalTM.tmTblSize * sizeof(XtTranslations)); + } + _XtGlobalTM.tmTbl[_XtGlobalTM.numTms++] = xlations; + UNLOCK_PROCESS; +#endif /* TRACE_TM */ + + xlations->composers[0] = first; + xlations->composers[1] = second; + xlations->hasBindings = False; + xlations->operation = XtTableReplace; + + for (i = 0;i < numStateTrees; i++) + { + xlations->stateTreeTbl[i] = (TMStateTree) stateTrees[i]; + stateTrees[i]->simple.refCount++; + } + xlations->numStateTrees = numStateTrees; + xlations->eventMask = 0; + return xlations; +} + +TMStateTree _XtParseTreeToStateTree( + TMParseStateTree parseTree) +{ + TMSimpleStateTree simpleTree; + unsigned int tableSize; + + if (parseTree->numComplexBranchHeads) { + TMComplexStateTree complexTree; + + complexTree = XtNew(TMComplexStateTreeRec); + complexTree->isSimple = False; + tableSize = parseTree->numComplexBranchHeads * sizeof(StatePtr); + complexTree->complexBranchHeadTbl = (StatePtr *) + __XtMalloc(tableSize); + XtMemmove(complexTree->complexBranchHeadTbl, + parseTree->complexBranchHeadTbl, tableSize); + complexTree->numComplexBranchHeads = + parseTree->numComplexBranchHeads; + simpleTree = (TMSimpleStateTree)complexTree; + } + else { + simpleTree = XtNew(TMSimpleStateTreeRec); + simpleTree->isSimple = True; + } + simpleTree->isAccelerator = parseTree->isAccelerator; + simpleTree->refCount = 0; + simpleTree->mappingNotifyInterest = parseTree->mappingNotifyInterest; + + tableSize = parseTree->numBranchHeads * sizeof(TMBranchHeadRec); + simpleTree->branchHeadTbl = (TMBranchHead) + __XtMalloc(tableSize); + XtMemmove(simpleTree->branchHeadTbl, parseTree->branchHeadTbl, tableSize); + simpleTree->numBranchHeads = parseTree->numBranchHeads; + + tableSize = parseTree->numQuarks * sizeof(XrmQuark); + simpleTree->quarkTbl = (XrmQuark *) __XtMalloc(tableSize); + XtMemmove(simpleTree->quarkTbl, parseTree->quarkTbl, tableSize); + simpleTree->numQuarks = parseTree->numQuarks; + + return (TMStateTree)simpleTree; +} + +static void FreeActions( + ActionPtr actions) +{ + ActionPtr action; + TMShortCard i; + for (action = actions; action;) { + ActionPtr nextAction = action->next; + for (i = action->num_params; i;) { + XtFree( action->params[--i] ); + } + XtFree( (char*)action->params ); + XtFree((char*) action); + action = nextAction; + } +} + +/*ARGSUSED*/ +static void AmbigActions( + EventSeqPtr initialEvent, + StatePtr *state, + TMParseStateTree stateTree) +{ + String params[3]; + Cardinal numParams = 0; + + params[numParams++] = _XtPrintEventSeq(initialEvent, NULL); + params[numParams++] = _XtPrintActions((*state)->actions, + stateTree->quarkTbl); + XtWarningMsg (XtNtranslationError,"oldActions",XtCXtToolkitError, + "Previous entry was: %s %s", params, &numParams); + XtFree((char *)params[0]); + XtFree((char *)params[1]); + numParams = 0; + params[numParams++] = _XtPrintActions(initialEvent->actions, + stateTree->quarkTbl); + XtWarningMsg (XtNtranslationError,"newActions",XtCXtToolkitError, + "New actions are:%s", params, &numParams); + XtFree((char *)params[0]); + XtWarningMsg (XtNtranslationError,"ambiguousActions", + XtCXtToolkitError, + "Overriding earlier translation manager actions.", + (String *)NULL, (Cardinal *)NULL); + + FreeActions((*state)->actions); + (*state)->actions = NULL; +} + + +void _XtAddEventSeqToStateTree( + EventSeqPtr eventSeq, + TMParseStateTree stateTree) +{ + StatePtr *state; + EventSeqPtr initialEvent = eventSeq; + TMBranchHead branchHead; + TMShortCard idx, modIndex, typeIndex; + + if (eventSeq == NULL) return; + + /* note that all states in the event seq passed in start out null */ + /* we fill them in with the matching state as we traverse the list */ + + /* + * We need to free the parser data structures !!! + */ + + typeIndex = _XtGetTypeIndex(&eventSeq->event); + modIndex = _XtGetModifierIndex(&eventSeq->event); + idx = GetBranchHead(stateTree, typeIndex, modIndex, False); + branchHead = &stateTree->branchHeadTbl[idx]; + + /* + * Need to check for pre-existing actions with same lhs ||| + */ + + /* + * Check for optimized case. Don't assume that the eventSeq has actions. + */ + if (!eventSeq->next && + eventSeq->actions && + !eventSeq->actions->next && + !eventSeq->actions->num_params) + { + if (eventSeq->event.eventType == MappingNotify) + stateTree->mappingNotifyInterest = True; + branchHead->hasActions = True; + branchHead->more = eventSeq->actions->idx; + FreeActions(eventSeq->actions); + eventSeq->actions = NULL; + return; + } + + branchHead->isSimple = False; + if (!eventSeq->next) + branchHead->hasActions = True; + branchHead->more = GetComplexBranchIndex(stateTree, typeIndex, modIndex); + state = &stateTree->complexBranchHeadTbl[TMBranchMore(branchHead)]; + + for (;;) { + *state = NewState(stateTree, typeIndex, modIndex); + + if (eventSeq->event.eventType == MappingNotify) + stateTree->mappingNotifyInterest = True; + + /* *state now points at state record matching event */ + eventSeq->state = *state; + + if (eventSeq->actions != NULL) { + if ((*state)->actions != NULL) + AmbigActions(initialEvent, state, stateTree); + (*state)->actions = eventSeq->actions; +#ifdef TRACE_TM + LOCK_PROCESS + _XtGlobalTM.numComplexActions++; + UNLOCK_PROCESS; +#endif /* TRACE_TM */ + } + + if (((eventSeq = eventSeq->next) == NULL) || (eventSeq->state)) + break; + + state = &(*state)->nextLevel; + typeIndex = _XtGetTypeIndex(&eventSeq->event); + modIndex = _XtGetModifierIndex(&eventSeq->event); + LOCK_PROCESS; + if (!TMNewMatchSemantics()) { + /* + * force a potential empty entry into the branch head + * table in order to emulate old matching behavior + */ + (void) GetBranchHead(stateTree, typeIndex, modIndex, True); + } + UNLOCK_PROCESS; + } + + if (eventSeq && eventSeq->state) { + /* we've been here before... must be a cycle in the event seq. */ + branchHead->hasCycles = True; + (*state)->nextLevel = eventSeq->state; + eventSeq->state->isCycleStart = True; + (*state)->isCycleEnd = TRUE; + } +} + + +/* + * Internal Converter for merging. Old and New must both be valid xlations + */ + +/*ARGSUSED*/ +Boolean _XtCvtMergeTranslations( + Display *dpy, + XrmValuePtr args, + Cardinal *num_args, + XrmValuePtr from, + XrmValuePtr to, + XtPointer *closure_ret) +{ + XtTranslations first, second, xlations; + TMStateTree *stateTrees, stackStateTrees[16]; + TMShortCard numStateTrees, i; + + if (*num_args != 0) + XtWarningMsg("invalidParameters","mergeTranslations",XtCXtToolkitError, + "MergeTM to TranslationTable needs no extra arguments", + (String *)NULL, (Cardinal *)NULL); + + if (to->addr != NULL && to->size < sizeof(XtTranslations)) { + to->size = sizeof(XtTranslations); + return False; + } + + first = ((TMConvertRec*)from->addr)->old; + second = ((TMConvertRec*)from->addr)->new; + + numStateTrees = first->numStateTrees + second->numStateTrees; + + stateTrees = (TMStateTree *) + XtStackAlloc(numStateTrees * sizeof(TMStateTree), stackStateTrees); + + for (i = 0; i < first->numStateTrees; i++) + stateTrees[i] = first->stateTreeTbl[i]; + for (i = 0; i < second->numStateTrees; i++) + stateTrees[i + first->numStateTrees] = second->stateTreeTbl[i]; + + xlations = _XtCreateXlations(stateTrees, numStateTrees, first, second); + + if (to->addr != NULL) { + *(XtTranslations*)to->addr = xlations; + } + else { + static XtTranslations staticStateTable; + staticStateTable = xlations; + to->addr= (XPointer)&staticStateTable; + to->size = sizeof(XtTranslations); + } + + XtStackFree((XtPointer)stateTrees, (XtPointer)stackStateTrees); + return True; +} + + +static XtTranslations MergeThem( + Widget dest, + XtTranslations first, + XtTranslations second) +{ + XtCacheRef cache_ref; + static XrmQuark from_type = NULLQUARK, to_type; + XrmValue from, to; + TMConvertRec convert_rec; + XtTranslations newTable; + + LOCK_PROCESS; + if (from_type == NULLQUARK) { + from_type = XrmPermStringToQuark(_XtRStateTablePair); + to_type = XrmPermStringToQuark(XtRTranslationTable); + } + UNLOCK_PROCESS; + from.addr = (XPointer)&convert_rec; + from.size = sizeof(TMConvertRec); + to.addr = (XPointer)&newTable; + to.size = sizeof(XtTranslations); + convert_rec.old = first; + convert_rec.new = second; + + LOCK_PROCESS; + if (! _XtConvert(dest, from_type, &from, to_type, &to, &cache_ref)) { + UNLOCK_PROCESS; + return NULL; + } + UNLOCK_PROCESS; + +#ifndef REFCNT_TRANSLATIONS + + if (cache_ref) + XtAddCallback(dest, XtNdestroyCallback, + XtCallbackReleaseCacheRef, (XtPointer)cache_ref); + +#endif + + return newTable; +} + +/* + * Unmerge will recursively traverse the xlation compose tree and + * generate a new xlation that is the result of all instances of + * xlations being removed. It currently doesn't differentiate between + * the potential that an xlation will be both an accelerator and + * normal. This is not supported by the spec anyway. + */ +static XtTranslations UnmergeTranslations( + Widget widget, + XtTranslations xlations, + XtTranslations unmergeXlations, + TMShortCard currIndex, + TMComplexBindProcs oldBindings, + TMShortCard numOldBindings, + TMComplexBindProcs newBindings, + TMShortCard *numNewBindingsRtn) + +{ + XtTranslations first, second, result; + + if (!xlations || (xlations == unmergeXlations)) + return NULL; + + if (xlations->composers[0]) { + first = UnmergeTranslations(widget, xlations->composers[0], + unmergeXlations, currIndex, + oldBindings, numOldBindings, + newBindings, numNewBindingsRtn); + } + else + first = NULL; + + if (xlations->composers[1]) { + second = UnmergeTranslations(widget, xlations->composers[1], + unmergeXlations, + currIndex + + xlations->composers[0]->numStateTrees, + oldBindings, numOldBindings, + newBindings, numNewBindingsRtn); + } + else + second = NULL; + + if (first || second) { + if (first && second) { + if ((first != xlations->composers[0]) || + (second != xlations->composers[1])) + result = MergeThem(widget, first, second); + else result = xlations; + } + else { + if (first) + result = first; + else + result = second; + } + } else { /* only update for leaf nodes */ + if (numOldBindings) { + Cardinal i; + for (i = 0; i < xlations->numStateTrees; i++) { + if (xlations->stateTreeTbl[i]->simple.isAccelerator) + newBindings[*numNewBindingsRtn] = + oldBindings[currIndex + i]; + (*numNewBindingsRtn)++; + } + } + result = xlations; + } + return result; +} + +typedef struct { + XtTranslations xlations; + TMComplexBindProcs bindings; +}MergeBindRec, *MergeBind; + +static XtTranslations MergeTranslations( + Widget widget, + XtTranslations oldXlations, + XtTranslations newXlations, + _XtTranslateOp operation, + Widget source, + TMComplexBindProcs oldBindings, + TMComplexBindProcs newBindings, + TMShortCard *numNewRtn) +{ + XtTranslations newTable = NULL, xlations; + TMComplexBindProcs bindings; + TMShortCard i, j; + TMStateTree *treePtr; + TMShortCard numNew = *numNewRtn; + MergeBindRec bindPair[2]; + + /* If the new translation has an accelerator context then pull it + * off and pass it and the real xlations in to the caching merge + * routine. + */ + if (newXlations->hasBindings) { + xlations = ((ATranslations) newXlations)->xlations; + bindings = (TMComplexBindProcs) + &((ATranslations) newXlations)->bindTbl[0]; + } + else { + xlations = newXlations; + bindings = NULL; + } + switch(operation) { + case XtTableReplace: + newTable = bindPair[0].xlations = xlations; + bindPair[0].bindings = bindings; + bindPair[1].xlations = NULL; + bindPair[1].bindings = NULL; + break; + case XtTableAugment: + bindPair[0].xlations = oldXlations; + bindPair[0].bindings = oldBindings; + bindPair[1].xlations = xlations; + bindPair[1].bindings = bindings; + newTable = NULL; + break; + case XtTableOverride: + bindPair[0].xlations = xlations; + bindPair[0].bindings = bindings; + bindPair[1].xlations = oldXlations; + bindPair[1].bindings = oldBindings; + newTable = NULL; + break; + } + if (!newTable) + newTable = MergeThem(widget, bindPair[0].xlations, bindPair[1].xlations); + + for (i = 0, numNew = 0; i < 2; i++) { + if (bindPair[i].xlations) + for (j = 0; j < bindPair[i].xlations->numStateTrees; j++, numNew++) { + if (bindPair[i].xlations->stateTreeTbl[j]->simple.isAccelerator) { + if (bindPair[i].bindings) + newBindings[numNew] = bindPair[i].bindings[j]; + else { + newBindings[numNew].widget = source; + newBindings[numNew].aXlations = + bindPair[i].xlations; + } + } + } + } + *numNewRtn = numNew; + treePtr = &newTable->stateTreeTbl[0]; + for (i = 0; i < newTable->numStateTrees; i++, treePtr++) + (*treePtr)->simple.refCount++; + return newTable; +} + +static TMBindData MakeBindData( + TMComplexBindProcs bindings, + TMShortCard numBindings, + TMBindData oldBindData) +{ + TMLongCard bytes; + TMShortCard i; + Boolean isComplex; + TMBindData bindData; + + if (numBindings == 0) + return NULL; + for (i = 0; i < numBindings; i++) + if (bindings[i].widget) + break; + isComplex = (i < numBindings); + if (isComplex) + bytes = (sizeof(TMComplexBindDataRec) + + ((numBindings - 1) * + sizeof(TMComplexBindProcsRec))); + else + bytes = (sizeof(TMSimpleBindDataRec) + + ((numBindings - 1) * + sizeof(TMSimpleBindProcsRec))); + + bindData = (TMBindData) __XtCalloc(sizeof(char), bytes); + bindData->simple.isComplex = isComplex; + if (isComplex) { + TMComplexBindData cBindData = (TMComplexBindData)bindData; + /* + * If there were any accelerator contexts in the old bindData + * then propagate them to the new one. + */ + if (oldBindData && oldBindData->simple.isComplex) + cBindData->accel_context = + ((TMComplexBindData) oldBindData)->accel_context; + XtMemmove((char *)&cBindData->bindTbl[0], (char *)bindings, + numBindings * sizeof(TMComplexBindProcsRec)); + } + return bindData; +} + +/* + * This routine is the central clearinghouse for merging translations + * into a widget. It takes care of preping the action bindings for + * realize time and calling the converter or doing a straight merge if + * the destination is empty. + */ +static Boolean ComposeTranslations( + Widget dest, + _XtTranslateOp operation, + Widget source, + XtTranslations newXlations) +{ + XtTranslations newTable, oldXlations; + XtTranslations accNewXlations; + EventMask oldMask = 0; + TMBindData bindData; + TMComplexBindProcs oldBindings = NULL; + TMShortCard numOldBindings = 0, numNewBindings = 0, numBytes; + TMComplexBindProcsRec stackBindings[16], *newBindings; + + /* + * how should we be handling the refcount decrement for the + * replaced translation table ??? + */ + if (!newXlations) + { + XtAppWarningMsg(XtWidgetToApplicationContext(dest), + XtNtranslationError,"nullTable",XtCXtToolkitError, + "table to (un)merge must not be null", + (String *)NULL, (Cardinal *)NULL); + return False; + } + + accNewXlations = newXlations; + newXlations = ((newXlations->hasBindings) + ? ((ATranslations)newXlations)->xlations + : newXlations); + + if (!(oldXlations = dest->core.tm.translations)) + operation = XtTableReplace; + + /* + * try to avoid generation of duplicate state trees. If the source + * isn't simple (1 state Tree) then it's too much hassle + */ + if (((operation == XtTableAugment) || + (operation == XtTableOverride)) && + (newXlations->numStateTrees == 1)) { + Cardinal i; + for (i = 0; i < oldXlations->numStateTrees; i++) + if (oldXlations->stateTreeTbl[i] == + newXlations->stateTreeTbl[0]) + break; + if (i < oldXlations->numStateTrees) { + if (operation == XtTableAugment) { + /* + * we don't need to do anything since it's already + * there + */ + return True; + } + else {/* operation == XtTableOverride */ + /* + * We'll get rid of the duplicate trees throughout the + * and leave it with a pruned translation table. This + * will only work if the same table has been merged + * into this table (or one of it's composers + */ + _XtUnmergeTranslations(dest, newXlations); + /* + * reset oldXlations so we're back in sync + */ + if (!(oldXlations = dest->core.tm.translations)) + operation = XtTableReplace; + } + } + } + + bindData = (TMBindData) dest->core.tm.proc_table; + if (bindData) { + numOldBindings = (oldXlations ? oldXlations->numStateTrees : 0); + if (bindData->simple.isComplex) + oldBindings = &((TMComplexBindData)bindData)->bindTbl[0]; + else + oldBindings = (TMComplexBindProcs) + (&((TMSimpleBindData)bindData)->bindTbl[0]); + } + + numBytes =(((oldXlations ? oldXlations->numStateTrees : 0) + + newXlations->numStateTrees) * sizeof(TMComplexBindProcsRec)); + newBindings = (TMComplexBindProcs) XtStackAlloc(numBytes, stackBindings); + XtBZero((char *)newBindings, numBytes); + + if (operation == XtTableUnmerge) { + newTable = UnmergeTranslations(dest, + oldXlations, + newXlations, + 0, + oldBindings, numOldBindings, + newBindings, &numNewBindings); +#ifdef DEBUG + /* check for no match for unmerge */ + if (newTable == oldXlations) { + XtWarning("attempt to unmerge invalid table"); + XtStackFree((char *)newBindings, (char *)stackBindings); + return(newTable != NULL); + } +#endif /* DEBUG */ + } + else { + newTable = MergeTranslations(dest, + oldXlations, + accNewXlations, + operation, + source, + oldBindings, + newBindings, + &numNewBindings); + } + if (XtIsRealized(dest)) { + oldMask = 0; + if (oldXlations) + oldMask = oldXlations->eventMask; + _XtUninstallTranslations(dest); + } + + dest->core.tm.proc_table = + (XtActionProc *) MakeBindData(newBindings, numNewBindings, bindData); + + if (bindData) XtFree((char *)bindData); + + dest->core.tm.translations = newTable; + + if (XtIsRealized(dest)) { + EventMask mask = 0; + _XtInstallTranslations(dest); + if (newTable) + mask = newTable->eventMask; + if (mask != oldMask) + XSelectInput(XtDisplay(dest), XtWindow(dest), + XtBuildEventMask(dest)); + } + XtStackFree((XtPointer)newBindings, (XtPointer)stackBindings); + return(newTable != NULL); +} + +/* + * If a GetValues is done on a translation resource that contains + * accelerators we need to return the accelerator context in addition + * to the pure translations. Since this means returning memory that + * the client controlls but we still own, we will track the "headers" + * that we return (via a linked list pointed to from the bindData) and + * free it at destroy time. + */ +XtTranslations _XtGetTranslationValue( + Widget w) +{ + XtTM tmRecPtr = (XtTM) &w->core.tm; + ATranslations *aXlationsPtr; + TMComplexBindData cBindData = (TMComplexBindData) tmRecPtr->proc_table; + XtTranslations xlations = tmRecPtr->translations; + + if (!xlations || !cBindData || !cBindData->isComplex) + return xlations; + + /* Walk the list looking to see if we already have generated a + * header for the currently installed translations. If we have, + * just return that header. Otherwise create a new header. + */ + for (aXlationsPtr = (ATranslations *) &cBindData->accel_context; + *aXlationsPtr && (*aXlationsPtr)->xlations != xlations; + aXlationsPtr = &(*aXlationsPtr)->next) + ; + if (*aXlationsPtr) + return (XtTranslations) *aXlationsPtr; + else { + /* create a new aXlations context */ + ATranslations aXlations; + Cardinal numBindings = xlations->numStateTrees; + + (*aXlationsPtr) = aXlations = (ATranslations) + __XtMalloc(sizeof(ATranslationData) + + (numBindings - 1) * sizeof(TMComplexBindProcsRec)); + + aXlations->hasBindings = True; + aXlations->xlations = xlations; + aXlations->next = NULL; + XtMemmove((char *) &aXlations->bindTbl[0], + (char *) &cBindData->bindTbl[0], + numBindings * sizeof(TMComplexBindProcsRec)); + return (XtTranslations) aXlations; + } +} + + +/*ARGSUSED*/ +static void RemoveStateTree( + TMStateTree tree) +{ +#ifdef REFCNT_TRANSLATIONS + TMComplexStateTree stateTree = (TMComplexStateTree)tree; + + if (--stateTree->refCount == 0) { + /* + * should we free/refcount the match recs ? + */ + if (!stateTree->isSimple) { + StatePtr currState, nextState; + TMShortCard i; + for (i = 0; i < stateTree->numComplexBranchHeads; i++) { + currState = + nextState = + stateTree->complexBranchHeadTbl[i]; + for (; nextState;){ + FreeActions(currState->actions); + currState->actions = NULL; + if (!currState->isCycleEnd) + nextState = currState->nextLevel; + else + nextState = NULL; + XtFree( (char*)currState ); + } + } + XtFree((char*)stateTree->complexBranchHeadTbl); + } + XtFree((char*)stateTree->branchHeadTbl); + XtFree((char*)stateTree); + } +#endif /* REFCNT_TRANSLATIONS */ +} + +void _XtRemoveStateTreeByIndex( + XtTranslations xlations, + TMShortCard i) +{ + TMStateTree *stateTrees = xlations->stateTreeTbl; + + RemoveStateTree(stateTrees[i]); + xlations->numStateTrees--; + + for (; i < xlations->numStateTrees; i++) + { + stateTrees[i] = stateTrees[i+1]; + } +} + +/* ARGSUSED */ +void _XtFreeTranslations( + XtAppContext app, + XrmValuePtr toVal, + XtPointer closure, + XrmValuePtr args, + Cardinal *num_args) +{ + XtTranslations xlations; + int i; + + if (*num_args != 0) + XtAppWarningMsg(app, + "invalidParameters","freeTranslations",XtCXtToolkitError, + "Freeing XtTranslations requires no extra arguments", + (String *)NULL, (Cardinal *)NULL); + + xlations = *(XtTranslations*)toVal->addr; + for (i = 0; i < (int)xlations->numStateTrees; i++) + RemoveStateTree(xlations->stateTreeTbl[i]); + XtFree((char *)xlations); +} + +/* The spec is not clear on when actions specified in accelerators are bound; + * Bind them at Realize the same as translations + */ +void XtInstallAccelerators( + Widget destination, Widget source) +{ + XtTranslations aXlations; + _XtTranslateOp op; + String buf; + WIDGET_TO_APPCON(destination); + + /* + * test that it was parsed as an accelarator table. Even though + * there doesn't need to be a distinction it makes life easier if + * we honor the spec implication that aXlations is an accelerator + */ + LOCK_APP(app); + LOCK_PROCESS; + if ((!XtIsWidget(source)) || + ((aXlations = source->core.accelerators) == NULL) || + (aXlations->stateTreeTbl[0]->simple.isAccelerator == False)) { + UNLOCK_PROCESS; + UNLOCK_APP(app); + return; + } + + aXlations = source->core.accelerators; + op = aXlations->operation; + + if (ComposeTranslations(destination, op, source, aXlations) && + (XtClass(source)->core_class.display_accelerator != NULL)) { + + buf = _XtPrintXlations(destination, aXlations, source, False); + (*(XtClass(source)->core_class.display_accelerator))(source,buf); + XtFree(buf); + } + UNLOCK_PROCESS; + UNLOCK_APP(app); +} + +void XtInstallAllAccelerators( + Widget destination, + Widget source) +{ + Cardinal i; + CompositeWidget cw; + WIDGET_TO_APPCON(destination); + + /* Recurse down normal children */ + LOCK_APP(app); + LOCK_PROCESS; + if (XtIsComposite(source)) { + cw = (CompositeWidget) source; + for (i = 0; i < cw->composite.num_children; i++) { + XtInstallAllAccelerators(destination,cw->composite.children[i]); + } + } + + /* Recurse down popup children */ + if (XtIsWidget(source)) { + for (i = 0; i < source->core.num_popups; i++) { + XtInstallAllAccelerators(destination,source->core.popup_list[i]); + } + } + /* Finally, apply procedure to this widget */ + XtInstallAccelerators(destination,source); + UNLOCK_PROCESS; + UNLOCK_APP(app); +} + +#if 0 /* dead code */ +static _XtTranslateOp _XtGetTMOperation( + XtTranslations xlations) +{ + return ((xlations->hasBindings) + ? ((ATranslations)xlations)->xlations->operation + : xlations->operation); +} +#endif + +void XtAugmentTranslations( + Widget widget, + XtTranslations new) +{ + Widget hookobj; + WIDGET_TO_APPCON(widget); + + LOCK_APP(app); + LOCK_PROCESS; + (void)ComposeTranslations(widget, XtTableAugment, (Widget)NULL, new); + hookobj = XtHooksOfDisplay(XtDisplayOfObject(widget)); + if (XtHasCallbacks(hookobj, XtNchangeHook) == XtCallbackHasSome) { + XtChangeHookDataRec call_data; + + call_data.type = XtHaugmentTranslations; + call_data.widget = widget; + XtCallCallbackList(hookobj, + ((HookObject)hookobj)->hooks.changehook_callbacks, + (XtPointer)&call_data); + } + UNLOCK_PROCESS; + UNLOCK_APP(app); +} + +void XtOverrideTranslations( + Widget widget, + XtTranslations new) +{ + Widget hookobj; + WIDGET_TO_APPCON(widget); + + LOCK_APP(app); + LOCK_PROCESS; + (void) ComposeTranslations(widget, XtTableOverride, (Widget)NULL, new); + hookobj = XtHooksOfDisplay(XtDisplayOfObject(widget)); + if (XtHasCallbacks(hookobj, XtNchangeHook) == XtCallbackHasSome) { + XtChangeHookDataRec call_data; + + call_data.type = XtHoverrideTranslations; + call_data.widget = widget; + XtCallCallbackList(hookobj, + ((HookObject)hookobj)->hooks.changehook_callbacks, + (XtPointer)&call_data); + } + UNLOCK_PROCESS; + UNLOCK_APP(app); +} + +void _XtMergeTranslations( + Widget widget, + XtTranslations newXlations, + _XtTranslateOp op) +{ + if (!newXlations){ + if (!widget->core.tm.translations) + return; + else { + newXlations = widget->core.tm.translations; + widget->core.tm.translations = NULL; + } + } + (void) ComposeTranslations(widget, + op, + (Widget)NULL, + newXlations); +} + +void _XtUnmergeTranslations( + Widget widget, + XtTranslations xlations) +{ + ComposeTranslations(widget, XtTableUnmerge, (Widget)NULL, xlations); +} |