ListSpace.c
- define MAXITEMS 10000
- define ROOT 0
typedef int item; item items = 0; int *space;
// Create a new listItem in the space and return its index item listInsert() { //printf("listInsert(): new item %d\n", items); return items++; }
// Start at subject listItem and traverse the object as an association to a new listItem // - object is also a listItem reference and its binary address is used as the traversal path // - subject and object (all list-item references are ints starting at item 0) item listTraverse(item subject, item object) { object += 2; // tmp: can't traverse items 0 or 1 int i,j; for (i=1; i<=object>>1; i<<=1) subject = space[j=subject*3+(object&i?1:0)]?space[j]:(space[j]=listInsert()); return subject; }
// Get the value (payload key) of the subject Item item listGetValue(item subject) { return space[subject*3+2]; }
// Set the payload key of the subject Item to the passed value void listSetValue(item subject, item value) { space[subject*3+2] = value; }
// - treat each character in text as a list-item-index to traverse from root item traverseText(char *text) { item subject = ROOT; int i; for (i=0; i<strlen(text); i++) subject = listTraverse(subject, (item)text[i]); return subject; }
// Allocate memory for maximum ListItems space = calloc(MAXITEMS*3, sizeof(item)); printf("%d bytes of memory allocated\n", MAXITEMS*3*sizeof(item));
// Insert items 0-127 as ascii character nodes // - this allows us to temporarily use list-space as a dictionary // since C/C++ doesn't inherently have one for (i=0; i<128; i++) listInsert();
// Print listSpace statistics
// - currently just counts how many nodes have payloads and displays content
void listStatistics() {
int i,j,p=0;
for (i=0; i<MAXITEMS; i++) if (listGetValue(i)) p++;
printf("%d items in use:\n", p);
for (i=0; i<MAXITEMS; i++) if (j=listGetValue(i)) printf(" %d = %d\n",i,j);
printf("\n\n");
}
