/* struct::set - critcl - layer 0 declarations * Tcl_ObjType 'set'. */ #include "s.h" /* .................................................. */ static void free_rep (Tcl_Obj* obj); static void dup_rep (Tcl_Obj* obj, Tcl_Obj* dup); static void string_rep (Tcl_Obj* obj); static int from_any (Tcl_Interp* ip, Tcl_Obj* obj); static Tcl_ObjType s_type = { "tcllib::struct::set/critcl::set", free_rep, dup_rep, string_rep, from_any }; /* .................................................. */ int s_get (Tcl_Interp* interp, Tcl_Obj* o, SPtr* sStar) { if (o->typePtr != &s_type) { int res = from_any (interp, o); if (res != TCL_OK) { return res; } } *sStar = (SPtr) o->internalRep.otherValuePtr; return TCL_OK; } Tcl_Obj* s_new (SPtr s) { Tcl_Obj* o = Tcl_NewObj(); Tcl_InvalidateStringRep(o); o->internalRep.otherValuePtr = s; o->typePtr = &s_type; return o; } Tcl_ObjType* s_stype (void) { return &s_type; } Tcl_ObjType* s_ltype (void) { static Tcl_ObjType* l; if (l == NULL) { l = Tcl_GetObjType ("list"); } return l; } /* .................................................. */ static void free_rep (Tcl_Obj* o) { s_free ((SPtr) o->internalRep.otherValuePtr); o->internalRep.otherValuePtr = NULL; } static void dup_rep (Tcl_Obj* obj, Tcl_Obj* dup) { SPtr s = s_dup ((SPtr) obj->internalRep.otherValuePtr); dup->internalRep.otherValuePtr = s; dup->typePtr = &s_type; } static void string_rep (Tcl_Obj* obj) { SPtr s = (SPtr) obj->internalRep.otherValuePtr; int numElems = s->el.numEntries; /* iterate hash table and generate list-like string rep */ # define LOCAL_SIZE 20 int localFlags[LOCAL_SIZE], *flagPtr; int localLen [LOCAL_SIZE], *lenPtr; register int i; char *elem, *dst; int length; Tcl_HashSearch hs; Tcl_HashEntry* he; /* * Convert each key of the hash to string form and then convert it to * proper list element form, adding it to the result buffer. */ /* * Pass 1: estimate space, gather flags. */ if (numElems <= LOCAL_SIZE) { flagPtr = localFlags; lenPtr = localLen; } else { flagPtr = (int *) ckalloc((unsigned) numElems*sizeof(int)); lenPtr = (int *) ckalloc((unsigned) numElems*sizeof(int)); } obj->length = 1; for(i = 0, he = Tcl_FirstHashEntry(&s->el, &hs); he != NULL; he = Tcl_NextHashEntry(&hs), i++) { elem = Tcl_GetHashKey (&s->el, he); lenPtr [i] = strlen (elem); obj->length += Tcl_ScanCountedElement(elem, lenPtr[i], &flagPtr[i]) + 1; } /* * Pass 2: copy into string rep buffer. */ obj->bytes = ckalloc((unsigned) obj->length); dst = obj->bytes; for(i = 0, he = Tcl_FirstHashEntry(&s->el, &hs); he != NULL; he = Tcl_NextHashEntry(&hs), i++) { elem = Tcl_GetHashKey (&s->el, he); dst += Tcl_ConvertCountedElement(elem, lenPtr[i], dst, flagPtr[i]); *dst = ' '; dst++; } if (flagPtr != localFlags) { ckfree((char *) flagPtr); ckfree((char *) lenPtr); } if (dst == obj->bytes) { *dst = 0; } else { dst--; *dst = 0; } obj->length = dst - obj->bytes; } static int from_any (Tcl_Interp* ip, Tcl_Obj* obj) { /* Go through an intermediate list rep. */ int lc, i, new; Tcl_Obj** lv; Tcl_ObjType* oldTypePtr; SPtr s; if (Tcl_ListObjGetElements (ip, obj, &lc, &lv) != TCL_OK) { return TCL_ERROR; } /* * Remember the old type after the conversion to list, or we will try to * free a list intrep using the free-proc of whatever type the word had * before. For example 'parsedvarname'. That would be bad. Segfault like * bad. */ oldTypePtr = obj->typePtr; /* Now, if the value was pure we forcibly generate the string-rep, to * capture the existing semantics of the value. Because we now enter the * realm of unordered, and the actual value may not be. If so, then not * having the string-rep will later cause the generation of an arbitrarily * ordered string-rep when the value is shimmered to some other type. This * is most visible for lists, which are ordered. A shimmer list->set->list * may reorder the elements if we do not capture their order in the * string-rep. * * See test case -15.0 in sets.testsuite demonstrating this. * Disable the Tcl_GetString below and see the test fail. */ Tcl_GetString (obj); /* Gen hash table from list */ s = (SPtr) ckalloc (sizeof (S)); Tcl_InitHashTable(&s->el, TCL_STRING_KEYS); for (i=0; i < lc; i++) { (void) Tcl_CreateHashEntry(&s->el, Tcl_GetString (lv[i]), &new); } /* * Free the old internalRep before setting the new one. We do this as * late as possible to allow the conversion code, in particular * Tcl_ListObjGetElements, to use that old internalRep. */ if ((oldTypePtr != NULL) && (oldTypePtr->freeIntRepProc != NULL)) { oldTypePtr->freeIntRepProc(obj); } obj->internalRep.otherValuePtr = s; obj->typePtr = &s_type; return TCL_OK; } /* .................................................. */ int s_size (SPtr a) { return a->el.numEntries; } int s_empty (SPtr a) { return (a->el.numEntries == 0); } void s_free (SPtr a) { Tcl_DeleteHashTable(&a->el); ckfree ((char*) a); } SPtr s_dup (SPtr a) { SPtr s = (SPtr) ckalloc (sizeof (S)); Tcl_InitHashTable(&s->el, TCL_STRING_KEYS); if (!a) return s; s_add (s, a, NULL); return s; } int s_contains (SPtr a, const char* item) { return Tcl_FindHashEntry (&a->el, item) != NULL; } SPtr s_difference (SPtr a, SPtr b) { int new; Tcl_HashSearch hs; Tcl_HashEntry* he; CONST char* key; SPtr s; /* a - nothing = a. Just duplicate */ if (!b->el.numEntries) { return s_dup (a); } s = (SPtr) ckalloc (sizeof (S)); Tcl_InitHashTable(&s->el, TCL_STRING_KEYS); /* nothing - b = nothing */ if (!a->el.numEntries) return s; /* Have to get it the hard way, no shortcut */ for(he = Tcl_FirstHashEntry(&a->el, &hs); he != NULL; he = Tcl_NextHashEntry(&hs)) { key = Tcl_GetHashKey (&a->el, he); if (Tcl_FindHashEntry (&b->el, key) != NULL) continue; /* key is in a, not in b <=> in (a-b) */ (void*) Tcl_CreateHashEntry(&s->el, key, &new); } return s; } SPtr s_intersect (SPtr a, SPtr b) { int new; Tcl_HashSearch hs; Tcl_HashEntry* he; CONST char* key; SPtr s = (SPtr) ckalloc (sizeof (S)); Tcl_InitHashTable(&s->el, TCL_STRING_KEYS); /* Shortcut when we know that the result is empty */ if (!a->el.numEntries) return s; if (!b->el.numEntries) return s; /* Ensure that we iterate over the smaller of the two sets */ if (b->el.numEntries < a->el.numEntries) { SPtr t = a ; a = b ; b = t; } for(he = Tcl_FirstHashEntry(&a->el, &hs); he != NULL; he = Tcl_NextHashEntry(&hs)) { key = Tcl_GetHashKey (&a->el, he); if (Tcl_FindHashEntry (&b->el, key) == NULL) continue; /* key is in a, in b <=> in (a*b) */ (void*) Tcl_CreateHashEntry(&s->el, key, &new); } return s; } SPtr s_union (SPtr a, SPtr b) { int new; Tcl_HashSearch hs; Tcl_HashEntry* he; CONST char* key; SPtr s = (SPtr) ckalloc (sizeof (S)); Tcl_InitHashTable(&s->el, TCL_STRING_KEYS); s_add (s, a, NULL); s_add (s, b, NULL); return s; } void s_add (SPtr a, SPtr b, int* newPtr) { int new, nx = 0; Tcl_HashSearch hs; Tcl_HashEntry* he; CONST char* key; if (b->el.numEntries) { for(he = Tcl_FirstHashEntry(&b->el, &hs); he != NULL; he = Tcl_NextHashEntry(&hs)) { key = Tcl_GetHashKey (&b->el, he); (void*) Tcl_CreateHashEntry(&a->el, key, &new); if (new) {nx = 1;} } } if(newPtr) {*newPtr = nx;} } void s_add1 (SPtr a, const char* item) { int new; (void*) Tcl_CreateHashEntry(&a->el, item, &new); } void s_subtract (SPtr a, SPtr b, int* delPtr) { int new; Tcl_HashSearch hs; Tcl_HashEntry* he, *dhe; CONST char* key; int dx = 0; if (b->el.numEntries) { for(he = Tcl_FirstHashEntry(&b->el, &hs); he != NULL; he = Tcl_NextHashEntry(&hs)) { key = Tcl_GetHashKey (&b->el, he); dhe = Tcl_FindHashEntry(&a->el, key); if (!dhe) continue; /* Key is known, to be removed */ dx = 1; Tcl_DeleteHashEntry (dhe); } } if(delPtr) {*delPtr = dx;} } void s_subtract1 (SPtr a, const char* item) { Tcl_HashEntry* he; he = Tcl_FindHashEntry(&a->el, item); if (!he) return; Tcl_DeleteHashEntry (he); } int s_equal (SPtr a, SPtr b) { /* (a == b) <=> (|a| == |b| && (a-b) = {}) */ int res = 0; if (s_size (a) == s_size(b)) { SPtr t = s_difference (a, b); res = s_empty (t); s_free (t); } return res; } int s_subsetof (SPtr a, SPtr b) { /* (a <= b) <=> (|a| <= |b| && (a-b) = {}) */ int res = 0; if (s_size (a) <= s_size(b)) { SPtr t = s_difference (a, b); res = s_empty (t); s_free (t); } return res; } /* .................................................. */ /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 78 * End: */