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authorKaleb Keithley <kaleb@freedesktop.org>2003-11-14 15:54:39 +0000
committerKaleb Keithley <kaleb@freedesktop.org>2003-11-14 15:54:39 +0000
commit0117b0b441d8835a11a2886f3c8aed937dcffa9d (patch)
treef4acfebbb67f382f645fb876acb0278891a6a91a /src/TMprint.c
R6.6 is the Xorg base-lineXORG-MAIN
Diffstat (limited to 'src/TMprint.c')
-rw-r--r--src/TMprint.c889
1 files changed, 889 insertions, 0 deletions
diff --git a/src/TMprint.c b/src/TMprint.c
new file mode 100644
index 0000000..24b0d2e
--- /dev/null
+++ b/src/TMprint.c
@@ -0,0 +1,889 @@
+/* $Xorg: TMprint.c,v 1.4 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.
+
+******************************************************************/
+
+/*
+
+Copyright 1987, 1988, 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.
+
+*/
+
+/*LINTLIBRARY*/
+#include "IntrinsicI.h"
+#include <stdio.h>
+
+typedef struct _TMStringBufRec{
+ String start;
+ String current;
+ Cardinal max;
+}TMStringBufRec, *TMStringBuf;
+
+
+#define STR_THRESHOLD 25
+#define STR_INCAMOUNT 100
+#define CHECK_STR_OVERFLOW(sb) \
+if (sb->current - sb->start > (int)sb->max - STR_THRESHOLD) \
+{ String old = sb->start; \
+ sb->start = XtRealloc(old, (Cardinal)(sb->max += STR_INCAMOUNT)); \
+ sb->current = sb->current - old + sb->start; \
+}
+
+#define ExpandForChars(sb, nchars ) \
+ if (sb->current - sb->start > sb->max - STR_THRESHOLD - nchars) { \
+ String old = sb->start; \
+ sb->start = XtRealloc(old, \
+ (Cardinal)(sb->max += STR_INCAMOUNT + nchars)); \
+ sb->current = sb->current - old + sb->start; \
+ }
+
+#define ExpandToFit(sb, more) \
+{ \
+ int l = strlen(more); \
+ ExpandForChars(sb, l); \
+ }
+
+static void PrintModifiers(sb, mask, mod)
+ TMStringBuf sb;
+ unsigned long mask, mod;
+{
+ Boolean notfirst = False;
+ CHECK_STR_OVERFLOW(sb);
+
+ if (mask == ~0L && mod == 0) {
+ *sb->current++ = '!';
+ *sb->current = '\0';
+ return;
+ }
+
+#define PRINTMOD(modmask,modstring) \
+ if (mask & modmask) { \
+ if (! (mod & modmask)) { \
+ *sb->current++ = '~'; \
+ notfirst = True; \
+ } \
+ else if (notfirst) \
+ *sb->current++ = ' '; \
+ else notfirst = True; \
+ strcpy(sb->current, modstring); \
+ sb->current += strlen(sb->current); \
+ }
+
+ PRINTMOD(ShiftMask, "Shift");
+ PRINTMOD(ControlMask, "Ctrl"); /* name is not CtrlMask... */
+ PRINTMOD(LockMask, "Lock");
+ PRINTMOD(Mod1Mask, "Mod1");
+ CHECK_STR_OVERFLOW(sb);
+ PRINTMOD(Mod2Mask, "Mod2");
+ PRINTMOD(Mod3Mask, "Mod3");
+ PRINTMOD(Mod4Mask, "Mod4");
+ PRINTMOD(Mod5Mask, "Mod5");
+ CHECK_STR_OVERFLOW(sb);
+ PRINTMOD(Button1Mask, "Button1");
+ PRINTMOD(Button2Mask, "Button2");
+ PRINTMOD(Button3Mask, "Button3");
+ CHECK_STR_OVERFLOW(sb);
+ PRINTMOD(Button4Mask, "Button4");
+ PRINTMOD(Button5Mask, "Button5");
+
+#undef PRINTMOD
+}
+
+static void PrintEventType(sb, event)
+ TMStringBuf sb;
+ unsigned long event;
+{
+ CHECK_STR_OVERFLOW(sb);
+ switch (event) {
+#define PRINTEVENT(event, name) case event: (void) strcpy(sb->current, name); break;
+ PRINTEVENT(KeyPress, "<KeyPress>")
+ PRINTEVENT(KeyRelease, "<KeyRelease>")
+ PRINTEVENT(ButtonPress, "<ButtonPress>")
+ PRINTEVENT(ButtonRelease, "<ButtonRelease>")
+ PRINTEVENT(MotionNotify, "<MotionNotify>")
+ PRINTEVENT(EnterNotify, "<EnterNotify>")
+ PRINTEVENT(LeaveNotify, "<LeaveNotify>")
+ PRINTEVENT(FocusIn, "<FocusIn>")
+ PRINTEVENT(FocusOut, "<FocusOut>")
+ PRINTEVENT(KeymapNotify, "<KeymapNotify>")
+ PRINTEVENT(Expose, "<Expose>")
+ PRINTEVENT(GraphicsExpose, "<GraphicsExpose>")
+ PRINTEVENT(NoExpose, "<NoExpose>")
+ PRINTEVENT(VisibilityNotify, "<VisibilityNotify>")
+ PRINTEVENT(CreateNotify, "<CreateNotify>")
+ PRINTEVENT(DestroyNotify, "<DestroyNotify>")
+ PRINTEVENT(UnmapNotify, "<UnmapNotify>")
+ PRINTEVENT(MapNotify, "<MapNotify>")
+ PRINTEVENT(MapRequest, "<MapRequest>")
+ PRINTEVENT(ReparentNotify, "<ReparentNotify>")
+ PRINTEVENT(ConfigureNotify, "<ConfigureNotify>")
+ PRINTEVENT(ConfigureRequest, "<ConfigureRequest>")
+ PRINTEVENT(GravityNotify, "<GravityNotify>")
+ PRINTEVENT(ResizeRequest, "<ResizeRequest>")
+ PRINTEVENT(CirculateNotify, "<CirculateNotify>")
+ PRINTEVENT(CirculateRequest, "<CirculateRequest>")
+ PRINTEVENT(PropertyNotify, "<PropertyNotify>")
+ PRINTEVENT(SelectionClear, "<SelectionClear>")
+ PRINTEVENT(SelectionRequest, "<SelectionRequest>")
+ PRINTEVENT(SelectionNotify, "<SelectionNotify>")
+ PRINTEVENT(ColormapNotify, "<ColormapNotify>")
+ PRINTEVENT(ClientMessage, "<ClientMessage>")
+ case _XtEventTimerEventType:
+ (void) strcpy(sb->current,"<EventTimer>");
+ break;
+ default:
+ (void) sprintf(sb->current, "<0x%x>", (int) event);
+#undef PRINTEVENT
+ }
+ sb->current += strlen(sb->current);
+}
+
+static void PrintCode(sb, mask, code)
+ TMStringBuf sb;
+ unsigned long mask, code;
+{
+ CHECK_STR_OVERFLOW(sb);
+ if (mask != 0) {
+ if (mask != (unsigned long)~0L)
+ (void) sprintf(sb->current, "0x%lx:0x%lx", mask, code);
+ else (void) sprintf(sb->current, /*"0x%lx"*/ "%d", code);
+ sb->current += strlen(sb->current);
+ }
+}
+
+static void PrintKeysym(sb, keysym)
+ TMStringBuf sb;
+ KeySym keysym;
+{
+ String keysymName;
+
+ if (keysym == 0) return;
+
+ CHECK_STR_OVERFLOW(sb);
+ keysymName = XKeysymToString(keysym);
+ if (keysymName == NULL)
+ PrintCode(sb,(unsigned long)~0L,(unsigned long)keysym);
+ else {
+ ExpandToFit(sb, keysymName);
+ strcpy(sb->current, keysymName);
+ sb->current += strlen(sb->current);
+ }
+}
+
+static void PrintAtom(sb, dpy, atom)
+ TMStringBuf sb;
+ Display *dpy;
+ Atom atom;
+{
+ String atomName;
+
+ if (atom == 0) return;
+
+ atomName = (dpy ? XGetAtomName(dpy, atom) : NULL);
+
+ if (! atomName)
+ PrintCode(sb,(unsigned long)~0L,(unsigned long)atom);
+ else {
+ ExpandToFit( sb, atomName );
+ strcpy(sb->current, atomName);
+ sb->current += strlen(sb->current);
+ XFree(atomName);
+ }
+}
+
+static void PrintLateModifiers(sb, lateModifiers)
+ TMStringBuf sb;
+ LateBindingsPtr lateModifiers;
+{
+ for (; lateModifiers->keysym; lateModifiers++) {
+ CHECK_STR_OVERFLOW(sb);
+ if (lateModifiers->knot) {
+ *sb->current++ = '~';
+ } else {
+ *sb->current++ = ' ';
+ }
+ strcpy(sb->current, XKeysymToString(lateModifiers->keysym));
+ sb->current += strlen(sb->current);
+ if (lateModifiers->pair) {
+ *(sb->current -= 2) = '\0'; /* strip "_L" */
+ lateModifiers++; /* skip _R keysym */
+ }
+ }
+}
+
+static void PrintEvent(sb, typeMatch, modMatch, dpy)
+ TMStringBuf sb;
+ register TMTypeMatch typeMatch;
+ register TMModifierMatch modMatch;
+ Display *dpy;
+{
+ if (modMatch->standard) *sb->current++ = ':';
+
+ PrintModifiers(sb, modMatch->modifierMask, modMatch->modifiers);
+ if (modMatch->lateModifiers != NULL)
+ PrintLateModifiers(sb, modMatch->lateModifiers);
+ PrintEventType(sb, typeMatch->eventType);
+ switch (typeMatch->eventType) {
+ case KeyPress:
+ case KeyRelease:
+ PrintKeysym(sb, (KeySym)typeMatch->eventCode);
+ break;
+
+ case PropertyNotify:
+ case SelectionClear:
+ case SelectionRequest:
+ case SelectionNotify:
+ case ClientMessage:
+ PrintAtom(sb, dpy, (Atom)typeMatch->eventCode);
+ break;
+
+ default:
+ PrintCode(sb, typeMatch->eventCodeMask, typeMatch->eventCode);
+ }
+}
+
+static void PrintParams(sb, params, num_params)
+ TMStringBuf sb;
+ String *params;
+ Cardinal num_params;
+{
+ register Cardinal i;
+ for (i = 0; i<num_params; i++) {
+ ExpandToFit( sb, params[i] );
+ if (i != 0) {
+ *sb->current++ = ',';
+ *sb->current++ = ' ';
+ }
+ *sb->current++ = '"';
+ strcpy(sb->current, params[i]);
+ sb->current += strlen(sb->current);
+ *sb->current++ = '"';
+ }
+ *sb->current = '\0';
+}
+
+static void PrintActions(sb, actions, quarkTbl, accelWidget)
+ TMStringBuf sb;
+ register ActionPtr actions;
+ XrmQuark *quarkTbl;
+ Widget accelWidget;
+{
+ while (actions != NULL) {
+ String proc;
+
+ *sb->current++ = ' ';
+
+ if (accelWidget) {
+ /* accelerator */
+ String name = XtName(accelWidget);
+ int nameLen = strlen(name);
+ ExpandForChars(sb, nameLen );
+ XtMemmove(sb->current, name, nameLen );
+ sb->current += nameLen;
+ *sb->current++ = '`';
+ }
+ proc = XrmQuarkToString(quarkTbl[actions->idx]);
+ ExpandToFit( sb, proc );
+ strcpy(sb->current, proc);
+ sb->current += strlen(proc);
+ *sb->current++ = '(';
+ PrintParams(sb, actions->params, actions->num_params);
+ *sb->current++ = ')';
+ actions = actions->next;
+ }
+ *sb->current = '\0';
+}
+
+static Boolean LookAheadForCycleOrMulticlick(state, state_return, countP,
+ nextLevelP)
+ register StatePtr state;
+ StatePtr *state_return; /* state to print, usually startState */
+ int *countP;
+ StatePtr *nextLevelP;
+{
+ int repeatCount = 0;
+ StatePtr startState = state;
+ Boolean isCycle = startState->isCycleEnd;
+ TMTypeMatch sTypeMatch;
+ TMModifierMatch sModMatch;
+
+ LOCK_PROCESS;
+ sTypeMatch = TMGetTypeMatch(startState->typeIndex);
+ sModMatch = TMGetModifierMatch(startState->modIndex);
+
+ *state_return = startState;
+
+ for (state = state->nextLevel; state != NULL; state = state->nextLevel) {
+ TMTypeMatch typeMatch = TMGetTypeMatch(state->typeIndex);
+ TMModifierMatch modMatch = TMGetModifierMatch(state->modIndex);
+
+ /* try to pick up the correct state with actions, to be printed */
+ /* This is to accommodate <ButtonUp>(2+), for example */
+ if (state->isCycleStart)
+ *state_return = state;
+
+ if (state->isCycleEnd) {
+ *countP = repeatCount;
+ UNLOCK_PROCESS;
+ return True;
+ }
+ if ((startState->typeIndex == state->typeIndex) &&
+ (startState->modIndex == state->modIndex)) {
+ repeatCount++;
+ *nextLevelP = state;
+ }
+ else if (typeMatch->eventType == _XtEventTimerEventType)
+ continue;
+ else /* not same event as starting event and not timer */ {
+ unsigned int type = sTypeMatch->eventType;
+ unsigned int t = typeMatch->eventType;
+ if ( (type == ButtonPress && t != ButtonRelease)
+ || (type == ButtonRelease && t != ButtonPress)
+ || (type == KeyPress && t != KeyRelease)
+ || (type == KeyRelease && t != KeyPress)
+ || typeMatch->eventCode != sTypeMatch->eventCode
+ || modMatch->modifiers != sModMatch->modifiers
+ || modMatch->modifierMask != sModMatch->modifierMask
+ || modMatch->lateModifiers != sModMatch->lateModifiers
+ || typeMatch->eventCodeMask != sTypeMatch->eventCodeMask
+ || typeMatch->matchEvent != sTypeMatch->matchEvent
+ || modMatch->standard != sModMatch->standard)
+ /* not inverse of starting event, either */
+ break;
+ }
+ }
+ *countP = repeatCount;
+ UNLOCK_PROCESS;
+ return isCycle;
+}
+
+static void PrintComplexState(sb, includeRHS, state, stateTree, accelWidget, dpy)
+ TMStringBuf sb;
+ Boolean includeRHS;
+ StatePtr state;
+ TMStateTree stateTree;
+ Widget accelWidget;
+ Display *dpy;
+{
+ int clickCount = 0;
+ Boolean cycle;
+ StatePtr nextLevel = NULL;
+ StatePtr triggerState = NULL;
+
+ /* print the current state */
+ if (! state) return;
+ LOCK_PROCESS;
+ cycle = LookAheadForCycleOrMulticlick(state, &triggerState, &clickCount,
+ &nextLevel);
+
+ PrintEvent(sb, TMGetTypeMatch(triggerState->typeIndex),
+ TMGetModifierMatch(triggerState->modIndex), dpy);
+
+ if (cycle || clickCount) {
+ if (clickCount)
+ sprintf(sb->current, "(%d%s)", clickCount+1, cycle ? "+" : "");
+ else
+ (void) strncpy(sb->current, "(+)", 4);
+ sb->current += strlen(sb->current);
+ if (! state->actions && nextLevel)
+ state = nextLevel;
+ while (! state->actions && ! state->isCycleEnd)
+ state = state->nextLevel; /* should be trigger state */
+ }
+
+ if (state->actions) {
+ if (includeRHS) {
+ CHECK_STR_OVERFLOW(sb);
+ *sb->current++ = ':';
+ PrintActions(sb,
+ state->actions,
+ ((TMSimpleStateTree)stateTree)->quarkTbl,
+ accelWidget);
+ *sb->current++ = '\n';
+ }
+ }
+ else {
+ if (state->nextLevel && !cycle && !clickCount)
+ *sb->current++ = ',';
+ else {
+ /* no actions are attached to this production */
+ *sb->current++ = ':';
+ *sb->current++ = '\n';
+ }
+ }
+ *sb->current = '\0';
+
+ /* print succeeding states */
+ if (state->nextLevel && !cycle && !clickCount)
+ PrintComplexState(sb, includeRHS, state->nextLevel,
+ stateTree, accelWidget, dpy);
+ UNLOCK_PROCESS;
+}
+
+typedef struct{
+ TMShortCard tIndex;
+ TMShortCard bIndex;
+}PrintRec, *Print;
+
+static int FindNextMatch(printData, numPrints, xlations,
+ branchHead, nextLevel, startIndex)
+ PrintRec *printData;
+ TMShortCard numPrints;
+ XtTranslations xlations;
+ TMBranchHead branchHead;
+ StatePtr nextLevel;
+ TMShortCard startIndex;
+{
+ TMShortCard i;
+ TMComplexStateTree stateTree;
+ StatePtr currState, candState;
+ Boolean noMatch = True;
+ TMBranchHead prBranchHead;
+
+ for (i = startIndex; noMatch && i < numPrints; i++) {
+ stateTree = (TMComplexStateTree)
+ xlations->stateTreeTbl[printData[i].tIndex];
+ prBranchHead =
+ &(stateTree->branchHeadTbl[printData[i].bIndex]);
+
+ if ((prBranchHead->typeIndex == branchHead->typeIndex) &&
+ (prBranchHead->modIndex == branchHead->modIndex)) {
+ if (prBranchHead->isSimple) {
+ if (!nextLevel)
+ return i;
+ }
+ else {
+ currState = TMComplexBranchHead(stateTree, prBranchHead);
+ currState = currState->nextLevel;
+ candState = nextLevel;
+ for (;
+ ((currState && !currState->isCycleEnd) &&
+ (candState && !candState->isCycleEnd));
+ currState = currState->nextLevel,
+ candState = candState->nextLevel) {
+ if ((currState->typeIndex != candState->typeIndex) ||
+ (currState->modIndex != candState->modIndex))
+ break;
+ }
+ if (candState == currState) {
+ return i;
+ }
+ }
+ }
+ }
+ return TM_NO_MATCH;
+}
+
+static void ProcessLaterMatches(printData,xlations,tIndex,bIndex,numPrintsRtn)
+ PrintRec *printData;
+ XtTranslations xlations;
+ TMShortCard tIndex;
+ int bIndex;
+ TMShortCard *numPrintsRtn;
+{
+ TMComplexStateTree stateTree;
+ int i, j;
+ TMBranchHead branchHead, matchBranch = NULL;
+
+ for (i = tIndex; i < (int)xlations->numStateTrees; i++) {
+ stateTree = (TMComplexStateTree)xlations->stateTreeTbl[i];
+ if (i == tIndex) {
+ matchBranch = &stateTree->branchHeadTbl[bIndex];
+ j = bIndex+1;
+ }
+ else j = 0;
+ for (branchHead = &stateTree->branchHeadTbl[j];
+ j < (int)stateTree->numBranchHeads;
+ j++, branchHead++) {
+ if ((branchHead->typeIndex == matchBranch->typeIndex) &&
+ (branchHead->modIndex == matchBranch->modIndex)) {
+ StatePtr state;
+ if (!branchHead->isSimple)
+ state = TMComplexBranchHead(stateTree, branchHead);
+ else
+ state = NULL;
+ if ((!branchHead->isSimple || branchHead->hasActions) &&
+ (FindNextMatch(printData,
+ *numPrintsRtn,
+ xlations,
+ branchHead,
+ (state ? state->nextLevel : NULL),
+ 0) == TM_NO_MATCH)) {
+ printData[*numPrintsRtn].tIndex = i;
+ printData[*numPrintsRtn].bIndex = j;
+ (*numPrintsRtn)++;
+ }
+ }
+ }
+ }
+}
+
+static void ProcessStateTree(printData, xlations, tIndex, numPrintsRtn)
+ PrintRec *printData;
+ XtTranslations xlations;
+ TMShortCard tIndex;
+ TMShortCard *numPrintsRtn;
+{
+ TMComplexStateTree stateTree;
+ int i;
+ TMBranchHead branchHead;
+
+ stateTree = (TMComplexStateTree)xlations->stateTreeTbl[tIndex];
+
+ for (i = 0, branchHead = stateTree->branchHeadTbl;
+ i < (int)stateTree->numBranchHeads;
+ i++, branchHead++) {
+ StatePtr state;
+ if (!branchHead->isSimple)
+ state = TMComplexBranchHead(stateTree, branchHead);
+ else
+ state = NULL;
+ if (FindNextMatch(printData, *numPrintsRtn, xlations, branchHead,
+ (state ? state->nextLevel : NULL), 0)
+ == TM_NO_MATCH) {
+ if (!branchHead->isSimple || branchHead->hasActions) {
+ printData[*numPrintsRtn].tIndex = tIndex;
+ printData[*numPrintsRtn].bIndex = i;
+ (*numPrintsRtn)++;
+ }
+ LOCK_PROCESS;
+ if (_XtGlobalTM.newMatchSemantics == False)
+ ProcessLaterMatches(printData,
+ xlations,
+ tIndex,
+ i,
+ numPrintsRtn);
+ UNLOCK_PROCESS;
+ }
+ }
+}
+
+static void PrintState(sb, tree, branchHead, includeRHS, accelWidget, dpy)
+ TMStringBuf sb;
+ TMStateTree tree;
+ TMBranchHead branchHead;
+ Boolean includeRHS;
+ Widget accelWidget;
+ Display *dpy;
+{
+ TMComplexStateTree stateTree = (TMComplexStateTree)tree;
+ LOCK_PROCESS;
+ if (branchHead->isSimple) {
+ PrintEvent(sb,
+ TMGetTypeMatch(branchHead->typeIndex),
+ TMGetModifierMatch(branchHead->modIndex),
+ dpy);
+ if (includeRHS) {
+ ActionRec actRec;
+
+ CHECK_STR_OVERFLOW(sb);
+ *sb->current++ = ':';
+ actRec.idx = TMBranchMore(branchHead);
+ actRec.num_params = 0;
+ actRec.params = NULL;
+ actRec.next = NULL;
+ PrintActions(sb,
+ &actRec,
+ stateTree->quarkTbl,
+ accelWidget);
+ *sb->current++ = '\n';
+ }
+ else
+ *sb->current++ = ',';
+#ifdef TRACE_TM
+ if (!branchHead->hasActions)
+ printf(" !! no actions !! ");
+#endif
+ }
+ else { /* it's a complex branchHead */
+ StatePtr state = TMComplexBranchHead(stateTree, branchHead);
+ PrintComplexState(sb,
+ includeRHS,
+ state,
+ tree,
+ accelWidget,
+ (Display *)NULL);
+ }
+ *sb->current = '\0';
+ UNLOCK_PROCESS;
+}
+
+#if NeedFunctionPrototypes
+String _XtPrintXlations(
+ Widget w,
+ XtTranslations xlations,
+ Widget accelWidget,
+ _XtBoolean includeRHS
+ )
+#else
+String _XtPrintXlations(w, xlations, accelWidget, includeRHS)
+ Widget w;
+ XtTranslations xlations;
+ Widget accelWidget;
+ Boolean includeRHS;
+#endif
+{
+ register Cardinal i;
+#define STACKPRINTSIZE 250
+ PrintRec stackPrints[STACKPRINTSIZE];
+ PrintRec *prints;
+ TMStringBufRec sbRec, *sb = &sbRec;
+ TMShortCard numPrints, maxPrints;
+#ifdef TRACE_TM
+ TMBindData bindData = (TMBindData)w->core.tm.proc_table;
+ Boolean hasAccel = (accelWidget ? True : False);
+#endif /* TRACE_TM */
+ if (xlations == NULL) return NULL;
+
+ sb->current = sb->start = __XtMalloc((Cardinal)1000);
+ sb->max = 1000;
+ maxPrints = 0;
+ for (i = 0; i < xlations->numStateTrees; i++)
+ maxPrints +=
+ ((TMSimpleStateTree)(xlations->stateTreeTbl[i]))->numBranchHeads;
+ prints = (PrintRec *)
+ XtStackAlloc(maxPrints * sizeof(PrintRec), stackPrints);
+
+ numPrints = 0;
+ for (i = 0; i < xlations->numStateTrees; i++)
+ ProcessStateTree(prints, xlations, i, &numPrints);
+
+ for (i = 0; i < numPrints; i++) {
+ TMSimpleStateTree stateTree = (TMSimpleStateTree)
+ xlations->stateTreeTbl[prints[i].tIndex];
+ TMBranchHead branchHead =
+ &stateTree->branchHeadTbl[prints[i].bIndex];
+#ifdef TRACE_TM
+ TMComplexBindProcs complexBindProcs;
+
+ if (hasAccel == False) {
+ accelWidget = NULL;
+ if (bindData->simple.isComplex) {
+ complexBindProcs = TMGetComplexBindEntry(bindData, 0);
+ accelWidget = complexBindProcs[prints[i].tIndex].widget;
+ }
+ }
+#endif /* TRACE_TM */
+ PrintState(sb, (TMStateTree)stateTree, branchHead,
+ includeRHS, accelWidget, XtDisplay(w));
+ }
+ XtStackFree((XtPointer)prints, (XtPointer)stackPrints);
+ return (sb->start);
+}
+
+
+#ifndef NO_MIT_HACKS
+/*ARGSUSED*/
+void _XtDisplayTranslations(widget, event, params, num_params)
+ Widget widget;
+ XEvent *event;
+ String *params;
+ Cardinal *num_params;
+{
+ String xString;
+
+ xString = _XtPrintXlations(widget,
+ widget->core.tm.translations,
+ NULL,
+ True);
+ printf("%s\n",xString);
+ XtFree(xString);
+}
+
+/*ARGSUSED*/
+void _XtDisplayAccelerators(widget, event, params, num_params)
+ Widget widget;
+ XEvent *event;
+ String *params;
+ Cardinal *num_params;
+{
+ String xString;
+
+
+ xString = _XtPrintXlations(widget,
+ widget->core.accelerators,
+ NULL,
+ True);
+ printf("%s\n",xString);
+ XtFree(xString);
+}
+
+/*ARGSUSED*/
+void _XtDisplayInstalledAccelerators(widget, event, params, num_params)
+ Widget widget;
+ XEvent *event;
+ String *params;
+ Cardinal *num_params;
+{
+ Widget eventWidget
+ = XtWindowToWidget(event->xany.display, event->xany.window);
+ register Cardinal i;
+ TMStringBufRec sbRec, *sb = &sbRec;
+ XtTranslations xlations;
+#define STACKPRINTSIZE 250
+ PrintRec stackPrints[STACKPRINTSIZE];
+ PrintRec *prints;
+ TMShortCard numPrints, maxPrints;
+ TMBindData bindData = (TMBindData) eventWidget->core.tm.proc_table;
+ TMComplexBindProcs complexBindProcs;
+
+ if ((eventWidget == NULL) ||
+ ((xlations = eventWidget->core.tm.translations) == NULL) ||
+ (bindData->simple.isComplex == False))
+ return;
+
+ sb->current = sb->start = __XtMalloc((Cardinal)1000);
+ sb->start[0] = '\0';
+ sb->max = 1000;
+ maxPrints = 0;
+ for (i = 0; i < xlations->numStateTrees; i++)
+ maxPrints +=
+ ((TMSimpleStateTree)xlations->stateTreeTbl[i])->numBranchHeads;
+ prints = (PrintRec *)
+ XtStackAlloc(maxPrints * sizeof(PrintRec), stackPrints);
+
+ numPrints = 0;
+
+ complexBindProcs = TMGetComplexBindEntry(bindData, 0);
+ for (i = 0;
+ i < xlations->numStateTrees;
+ i++, complexBindProcs++) {
+ if (complexBindProcs->widget)
+ {
+ ProcessStateTree(prints, xlations, i, &numPrints);
+ }
+ }
+ for (i = 0; i < numPrints; i++) {
+ TMSimpleStateTree stateTree = (TMSimpleStateTree)
+ xlations->stateTreeTbl[prints[i].tIndex];
+ TMBranchHead branchHead =
+ &stateTree->branchHeadTbl[prints[i].bIndex];
+
+ complexBindProcs = TMGetComplexBindEntry(bindData, 0);
+
+ PrintState(sb, (TMStateTree)stateTree, branchHead, True,
+ complexBindProcs[prints[i].tIndex].widget,
+ XtDisplay(widget));
+ }
+ XtStackFree((XtPointer)prints, (XtPointer)stackPrints);
+ printf("%s\n", sb->start);
+ XtFree(sb->start);
+}
+#endif /*NO_MIT_HACKS*/
+
+String _XtPrintActions(actions, quarkTbl)
+ register ActionRec *actions;
+ XrmQuark *quarkTbl;
+{
+ TMStringBufRec sbRec, *sb = &sbRec;
+
+ sb->max = 1000;
+ sb->current = sb->start = __XtMalloc((Cardinal)1000);
+ PrintActions(sb,
+ actions,
+ quarkTbl,
+ (Widget)NULL);
+ return sb->start;
+}
+
+String _XtPrintState(stateTree, branchHead)
+ TMStateTree stateTree;
+ TMBranchHead branchHead;
+{
+ TMStringBufRec sbRec, *sb = &sbRec;
+
+ sb->current = sb->start = __XtMalloc((Cardinal)1000);
+ sb->max = 1000;
+ PrintState(sb, stateTree, branchHead,
+ True, (Widget)NULL, (Display *)NULL);
+ return sb->start;
+}
+
+
+String _XtPrintEventSeq(eventSeq, dpy)
+ register EventSeqPtr eventSeq;
+ Display *dpy;
+{
+ TMStringBufRec sbRec, *sb = &sbRec;
+ TMTypeMatch typeMatch;
+ TMModifierMatch modMatch;
+#define MAXSEQS 100
+ EventSeqPtr eventSeqs[MAXSEQS];
+ TMShortCard i, j;
+ Boolean cycle = False;
+
+ sb->current = sb->start = __XtMalloc((Cardinal)1000);
+ sb->max = 1000;
+ for (i = 0;
+ i < MAXSEQS && eventSeq != NULL && !cycle;
+ eventSeq = eventSeq->next, i++)
+ {
+ eventSeqs[i] = eventSeq;
+ for (j = 0; j < i && !cycle; j++)
+ if (eventSeqs[j] == eventSeq)
+ cycle = True;
+ }
+ LOCK_PROCESS;
+ for (j = 0; j < i; j++) {
+ typeMatch =
+ TMGetTypeMatch(_XtGetTypeIndex(&eventSeqs[j]->event));
+ modMatch =
+ TMGetModifierMatch(_XtGetModifierIndex(&eventSeqs[j]->event));
+ PrintEvent(sb, typeMatch, modMatch, dpy);
+ if (j < i)
+ *sb->current++ = ',';
+ }
+ UNLOCK_PROCESS;
+ return sb->start;
+}
+