5940edcfb4
Charles Hannum, and that is the version being imported: cdk-4.9.9-20000407-myc3
278 lines
5.7 KiB
C
278 lines
5.7 KiB
C
#include <cdk.h>
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#include <signal.h>
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/*
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* $Author: garbled $
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* $Date: 2001/01/04 19:58:24 $
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* $Revision: 1.1.1.1 $
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*/
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static void segvTrap (int sig);
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static boolean validObjType(EObjectType type)
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{
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switch (type) {
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case vALPHALIST:
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case vBUTTONBOX:
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case vCALENDAR:
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case vDIALOG:
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case vENTRY:
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case vFSELECT:
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case vGRAPH:
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case vHISTOGRAM:
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case vITEMLIST:
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case vLABEL:
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case vMARQUEE:
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case vMATRIX:
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case vMENTRY:
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case vMENU:
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case vRADIO:
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case vSCALE:
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case vSCROLL:
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case vSELECTION:
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case vSLIDER:
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case vSWINDOW:
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case vTEMPLATE:
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case vVIEWER:
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return TRUE;
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default:
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return FALSE;
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}
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}
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void *_newCDKObject(unsigned size, CDKFUNCS *funcs)
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{
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void *result = malloc(size);
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memset(result, 0, sizeof(CDKOBJS));
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((CDKOBJS *)result)->fn = funcs;
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return result;
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}
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/*
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* This creates a new CDK screen.
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*/
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CDKSCREEN *initCDKScreen(WINDOW *window)
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{
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CDKSCREEN *screen = (CDKSCREEN *)malloc (sizeof(CDKSCREEN));
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int x;
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/* Set signal trap handlers. */
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signal (SIGSEGV, segvTrap);
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signal (SIGBUS, segvTrap);
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/* Set up basic curses settings. */
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noecho();
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cbreak();
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/* Initialize the CDKSCREEN pointer. */
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screen->objectCount = 0;
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screen->window = window;
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for (x=0; x < MAX_OBJECTS; x++)
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{
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screen->object[x] = 0;
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screen->cdktype[x] = vNULL;
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}
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/* OK, we are done. */
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return (screen);
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}
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/*
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* This registers a CDK object with a screen.
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*/
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void registerCDKObject (CDKSCREEN *screen, EObjectType cdktype, void *object)
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{
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/* Set some basic vars. */
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int objectNumber = screen->objectCount;
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CDKOBJS *obj = (CDKOBJS *)object;
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screen->object[objectNumber] = obj;
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if (validObjType(cdktype)) {
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(obj)->screenIndex = objectNumber;
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(obj)->screen = screen;
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screen->cdktype[objectNumber] = cdktype;
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screen->objectCount++;
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}
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}
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/*
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* This removes an object from the CDK screen.
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*/
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void unregisterCDKObject (EObjectType cdktype, void *object)
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{
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/* Declare some vars. */
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CDKSCREEN *screen;
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int Index, x;
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if (validObjType(cdktype)) {
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CDKOBJS *obj = (CDKOBJS *)object;
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screen = (obj)->screen;
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Index = (obj)->screenIndex;
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/*
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* If this is the last object -1 then this is the last. If not
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* we have to shuffle all the other objects to the left.
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*/
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for (x=Index; x < screen->objectCount-1; x++)
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{
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cdktype = screen->cdktype[x+1];
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screen->cdktype[x] = cdktype;
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screen->object[x] = screen->object[x+1];
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(screen->object[x])->screenIndex = x;
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}
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/* Clear out the last widget on the screen list. */
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x = screen->objectCount--;
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screen->object[x] = 0;
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screen->cdktype[x] = vNULL;
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}
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}
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/*
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* This 'brings' a CDK object to the top of the stack.
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*/
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void raiseCDKObject (EObjectType cdktype, void *object)
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{
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CDKOBJS *swapobject;
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int toppos = -1;
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int swapindex = -1;
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EObjectType swaptype;
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if (validObjType(cdktype)) {
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CDKOBJS *obj = (CDKOBJS *)object;
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toppos = (obj)->screen->objectCount;
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swapobject = (obj)->screen->object[toppos];
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swaptype = (obj)->screen->cdktype[toppos];
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swapindex = (obj)->screenIndex;
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(obj)->screenIndex = toppos;
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(obj)->screen->object[toppos] = obj;
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(obj)->screen->cdktype[toppos] = cdktype;
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(obj)->screenIndex = swapindex;
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(obj)->screen->object[swapindex] = swapobject;
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(obj)->screen->cdktype[swapindex] = swaptype;
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}
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}
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/*
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* This 'lowers' an object.
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*/
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void lowerCDKObject (EObjectType cdktype, void *object)
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{
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CDKOBJS *swapobject;
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int toppos = 0;
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int swapindex = -1;
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EObjectType swaptype;
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if (validObjType(cdktype)) {
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CDKOBJS *obj = (CDKOBJS *)object;
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swapobject = (obj)->screen->object[toppos];
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swaptype = (obj)->screen->cdktype[toppos];
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swapindex = (obj)->screenIndex;
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(obj)->screenIndex = toppos;
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(obj)->screen->object[toppos] = obj;
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(obj)->screen->cdktype[toppos] = cdktype;
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(obj)->screenIndex = swapindex;
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(obj)->screen->object[swapindex] = swapobject;
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(obj)->screen->cdktype[swapindex] = swaptype;
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}
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}
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/*
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* This calls refreshCDKScreen. (made consistent with widgets)
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*/
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void drawCDKScreen (CDKSCREEN *cdkscreen)
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{
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refreshCDKScreen (cdkscreen);
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}
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/*
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* This refreshes all the objects in the screen.
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*/
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void refreshCDKScreen (CDKSCREEN *cdkscreen)
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{
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int objectCount = cdkscreen->objectCount;
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int x;
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/* Refresh the screen. */
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wnoutrefresh (cdkscreen->window);
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/* We just call the drawObject function. */
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for (x=0; x < objectCount; x++)
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{
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CDKOBJS *obj = cdkscreen->object[x];
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if (validObjType (cdkscreen->cdktype[x]))
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obj->fn->drawObj(obj, obj->box);
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}
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}
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/*
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* This clears all the objects in the screen.
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*/
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void eraseCDKScreen (CDKSCREEN *cdkscreen)
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{
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int objectCount = cdkscreen->objectCount;
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int x;
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/* Refresh the screen. */
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wnoutrefresh (cdkscreen->window);
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/* We just call the drawObject function. */
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for (x=0; x < objectCount; x++)
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{
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CDKOBJS *obj = cdkscreen->object[x];
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if (validObjType (cdkscreen->cdktype[x]))
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obj->fn->eraseObj(obj);
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}
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}
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/*
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* This destroys a CDK screen.
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*/
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void destroyCDKScreen (CDKSCREEN *screen)
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{
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free (screen);
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}
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/*
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* This is added to remain consistent.
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*/
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void endCDK(void)
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{
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/* Turn echoing back on. */
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echo();
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/* Turn off cbreak. */
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nocbreak();
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/* End the curses windows. */
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endwin();
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#ifdef HAVE_XCURSES
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XCursesExit();
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#endif
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}
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/*
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* This is the function called when we trap a SEGV or a BUS error.
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*/
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static void segvTrap (int sig)
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{
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static int nested;
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if (!nested++)
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{
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endCDK();
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printf ("core dumped. your fault! (signal %d)\n", sig);
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}
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abort();
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}
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