/****************************************************************************** * listkey.cpp - code for base class 'ListKey'. ListKey is the basis for all * types of keys that have lists of specified indexes * (e.g. a list of verses, place, etc.) */ #include #include #include #include #include static const char *classes[] = {"ListKey", "SWKey", "SWObject", 0}; SWClass ListKey::classdef(classes); /****************************************************************************** * ListKey Constructor - initializes instance of ListKey * * ENT: ikey - text key */ ListKey::ListKey(const char *ikey): SWKey(ikey) { arraymax = 0; ClearList(); init(); } ListKey::ListKey(ListKey const &k) : SWKey(k.keytext) { arraymax = k.arraymax; arraypos = k.arraypos; arraycnt = k.arraycnt; array = (arraymax)?(SWKey **)malloc(k.arraymax * sizeof(SWKey *)):0; for (int i = 0; i < arraycnt; i++) array[i] = k.array[i]->clone(); init(); } void ListKey::init() { myclass = &classdef; } SWKey *ListKey::clone() const { return new ListKey(*this); } /****************************************************************************** * ListKey Destructor - cleans up instance of ListKey */ ListKey::~ListKey() { ClearList(); } /****************************************************************************** * ListKey::ClearList - Clears out elements of list */ void ListKey::ClearList() { int loop; if (arraymax) { for (loop = 0; loop < arraycnt; loop++) delete array[loop]; free(array); arraymax = 0; } arraycnt = 0; arraypos = 0; array = 0; } /****************************************************************************** * ListKey::copyFrom Equates this ListKey to another ListKey object * * ENT: ikey - other ListKey object */ void ListKey::copyFrom(const ListKey &ikey) { ClearList(); arraymax = ikey.arraymax; arraypos = ikey.arraypos; arraycnt = ikey.arraycnt; array = (arraymax)?(SWKey **)malloc(ikey.arraymax * sizeof(SWKey *)):0; for (int i = 0; i < arraycnt; i++) array[i] = ikey.array[i]->clone(); SetToElement(0); } /****************************************************************************** * ListKey::add - Adds an element to the list */ void ListKey::add(const SWKey &ikey) { if (++arraycnt > arraymax) { array = (SWKey **) ((array) ? realloc(array, (arraycnt + 32) * sizeof(SWKey *)) : calloc(arraycnt + 32, sizeof(SWKey *))); arraymax = arraycnt + 32; } array[arraycnt-1] = ikey.clone(); SetToElement(arraycnt-1); } /****************************************************************************** * ListKey::setPosition(SW_POSITION) - Positions this key * * ENT: p - position * * RET: *this */ void ListKey::setPosition(SW_POSITION p) { switch (p) { case 1: // GCC won't compile P_TOP SetToElement(0); break; case 2: // GCC won't compile P_BOTTOM SetToElement(arraycnt-1); break; } } /****************************************************************************** * ListKey::increment - Increments a number of elements */ void ListKey::increment(int step) { if (step < 0) { decrement(step*-1); return; } Error(); // clear error for(; step && !Error(); step--) { if (arraypos < arraycnt) { if (array[arraypos]->isBoundSet()) (*(array[arraypos]))++; if ((array[arraypos]->Error()) || (!array[arraypos]->isBoundSet())) { SetToElement(arraypos+1); } else *this = (const char *)(*array[arraypos]); } else error = KEYERR_OUTOFBOUNDS; } } /****************************************************************************** * ListKey::decrement - Decrements a number of elements */ void ListKey::decrement(int step) { if (step < 0) { increment(step*-1); return; } Error(); // clear error for(; step && !Error(); step--) { if (arraypos > -1) { if (array[arraypos]->isBoundSet()) (*(array[arraypos]))--; if ((array[arraypos]->Error()) || (!array[arraypos]->isBoundSet())) { SetToElement(arraypos-1, BOTTOM); } else *this = (const char *)(*array[arraypos]); } else error = KEYERR_OUTOFBOUNDS; } } /****************************************************************************** * ListKey::Count - Returns number of elements in list */ int ListKey::Count() { return arraycnt; } /****************************************************************************** * ListKey::SetToElement - Sets key to element number * * ENT: ielement - element number to set to * * RET: error status */ char ListKey::SetToElement(int ielement, SW_POSITION pos) { arraypos = ielement; if (arraypos >= arraycnt) { arraypos = (arraycnt>0)?arraycnt - 1:0; error = KEYERR_OUTOFBOUNDS; } else { if (arraypos < 0) { arraypos = 0; error = KEYERR_OUTOFBOUNDS; } else { error = 0; } } if (arraycnt) { if (array[arraypos]->isBoundSet()) (*array[arraypos]) = pos; *this = (const char *)(*array[arraypos]); } else *this = ""; return error; } /****************************************************************************** * ListKey::GetElement - Gets a key element number * * ENT: pos - element number to get (or default current) * * RET: Key or null on error */ SWKey *ListKey::GetElement(int pos) { if (pos < 0) pos = arraypos; if (pos >=arraycnt) error = KEYERR_OUTOFBOUNDS; return (error) ? 0:array[pos]; } /****************************************************************************** * ListKey::Remove - Removes current element from list */ void ListKey::Remove() { if ((arraypos > -1) && (arraypos < arraycnt)) { delete array[arraypos]; if (arraypos < arraycnt - 1) memmove(&array[arraypos], &array[arraypos+1], (arraycnt - arraypos - 1) * sizeof(SWKey *)); arraycnt--; SetToElement((arraypos)?arraypos-1:0); } } /****************************************************************************** * ListKey::getRangeText - returns parsable range text for this key */ const char *ListKey::getRangeText() const { char *buf = new char[(arraycnt + 1) * 255]; buf[0] = 0; for (int i = 0; i < arraycnt; i++) { strcat(buf, array[i]->getRangeText()); if (i < arraycnt-1) strcat(buf, "; "); } stdstr(&rangeText, buf); delete [] buf; return rangeText; } /****************************************************************************** * ListKey::getText - returns text key if (const char *) cast is requested */ const char *ListKey::getText() const { int pos = arraypos; SWKey *key = (pos >= arraycnt) ? 0:array[pos]; return (key) ? key->getText() : keytext; }