int insert(int offset, long long key) {
long long key_promoted = -1;
int return_value = -1;
int new_offset = -1;
int offset_child_right = -1;
int offset_child_left = -1;
page_tree *page;
// verifica se eh necessario criar um novo no raiz
if ((return_value = insertKey(offset, key, &offset_child_left, &offset_child_right, &key_promoted)) == PROMOTED) {
// aloca nova pagina na ram
allocPage(&page);
// insere chave na nova pagina criada (ainda na RAM)
pageInsert(page, key_promoted, offset_child_left, offset_child_right);
//emanuel
page->child[0] = offset_left;
page->child[0] = offset_child_left;
// move o ponteiro para o final do arquivo para pegar a posicao da nova pagina
fseek(bTreeFile, 0L, SEEK_END);
new_offset = ftell(bTreeFile);
// salva a pagina no disco
savePage(new_offset, page);
update_root_offset(new_offset);
free(page);
}
return return_value;
}
void runSimulation(int argc, char **argv) {
FILE *traceFile;
/*create the page table and initialize it*/
PAGETABLE *pageTable = calloc(1, sizeof(PAGETABLE));
pageTable->levelCount = levelCount;
int offsetBits = ADDRESS_LENGTH - initializePageTable(pageTable, argv, (argc - levelCount));
p2AddrTr trace; //this struct contains address when fetched from trace file
if ((traceFile = fopen(argv[argc-levelCount-1],"rb")) == NULL) {
fprintf(stderr,"cannot open %s for reading\n",argv[argc-levelCount-1]);
exit(1);
}
unsigned long addressCount = 0;
while (!feof(traceFile)) {
if (nFlag)
if (addressCount >= limit) //break out of loop if limit is reached
break;
if (NextAddress(traceFile, &trace)) {
unsigned int address = (unsigned int)trace.addr;
if (pageLookup(pageTable, address) == NULL) { //Page has not been seen yet
pageTable->misses++;
pageInsert(pageTable, address, pageTable->frameCount); //insert the new page
if (pFlag) {
unsigned int page = address;
page >>= offsetBits;
MAP *map = pageLookup(pageTable, address);
fprintf(printFile, "%08X -> %08X\n", page, map->frame);
}
}
else
int insertKey(int offset, long long key, int* child_left_promoted, int* child_right_promoted, long long* key_promoted)
{
page_tree *curr_page; // pagina atual para busca
page_tree *new_page; // pagina para split
int pos = -1; // posicao em que a chave deveria ser inserida
// trata o caso de arvore vazia
if (offset == NIL) {
*key_promoted = key;
*child_right_promoted = NIL;
*child_left_promoted = NIL;
return PROMOTED;
}
curr_page = loadPage(offset); // carrega a pagina para inspecao
if (pageSearch(curr_page, key, &pos) == SUCCESS) {
fprintf(stderr, "Chave ja existe na arvore\n\n");
return ERROR;
}
int return_value = -1;
int right_offset_child_promoted = -1;
int left_offset_child_promoted = -1;
long long key_promotion = -1;
return_value = insertKey(curr_page->child[pos], key, &left_offset_child_promoted, &right_offset_child_promoted, &key_promotion);
// verifica se nao eh necessaria mais nenhuma operacao na arvore
// ou seja, a chave foi inserida mas nao ha promocao
// ou entao a chave ja existia e foi retornado um erro
if (return_value == NOT_PROMOTED || return_value == ERROR) {
return return_value;
}
// verifica se a chave cabe na pagina atual
if (curr_page->nKeys < ORDER-1) {
pageInsert(curr_page, key_promotion, left_offset_child_promoted, right_offset_child_promoted);
savePage(offset, curr_page);
return NOT_PROMOTED;
}
// se a chave nao couber na pagina, realiza split
//fprintf(stderr, "chamando split... offset vale %d e chave vale %lld\n", offset, key_promotion);
split(key_promotion, right_offset_child_promoted, curr_page, key_promoted, child_left_promoted, child_right_promoted, &new_page);
*child_left_promoted = offset;
savePage(offset, curr_page); // salva a pagina atual
savePage(*child_right_promoted, new_page); // salva a nova pagina apos split
free(curr_page);
free(new_page);
return PROMOTED;
}
//split(key_promotion, offset_child_promoted, curr_page, key_promoted, child_right_promoted, &new_page);
void split(const long long key_input, const int child_right_input, page_tree* page, long long* key_promoted, int* child_left_promoted, int* child_right_promoted, page_tree** new_page)
{
int i;
int size_split;
int key_idx, child_idx;
//printf("inserindo chave %lld\n", key_input);
/*aloca nova pagina
*note que new_page
*é ponteiro **
*/
/*size_split terá o numero de chaves
* que iremos colocar na pagina nova
*/
allocPage(new_page);
size_split = (ORDER -1)/2;
/*copia as chaves do split para
* a nova pagina
*/
for(i = 0, key_idx = ORDER - 2, child_idx = ORDER -1; i < size_split; i++, key_idx--, child_idx --)
{
pageInsert(*new_page, page->keys[key_idx], page->child[child_idx-1], page->child[child_idx]);
page->child[child_idx] = NIL;
//page->child[child_idx-1] = NIL;
page->nKeys--;
}
/*verifica se a chave atual é maior que a chave da direita
* da página antiga. CAso seja maior, será inserido
* na nova página, caso contrário, será inserido nova página
*/
// printf("comparando %d com %d\n", key_input, page->keys[ORDER-2 - size_split]);
if(key_input > page->keys[ORDER-2 - size_split])
{
/*insere a chave atual*/
pageInsert(*new_page, key_input, NIL, child_right_input);
} else{
/*antes o ultimo nó da pagina antiga é transferido
* pra pagina nova. E depois inseriamos a chave atual na pagina antiga
*/
pageInsert(*new_page, page->keys[ORDER -2 -size_split], page->child[ORDER-1-size_split-1], page->child[ORDER-1-size_split]);
page->child[ORDER-1-size_split] = NIL;
page->nKeys--;
//page->nKeys--;
pageInsert(page, key_input, NIL, child_right_input);
}
/*promovemos a chave da esquerda da nova pagina
* pois será a menor
*/
*key_promoted = (*new_page)->keys[0];
*child_left_promoted = (*new_page)->child[0];
//printf("==>child left promoted vale %d e key promovida vale %d\n", *child_left_promoted, *key_promoted);
/*deslocamos as chaves de nova
* pagina para esquerda
*/
for(i = 0; i < (*new_page)->nKeys-1; i++)
{
(*new_page)->keys[i] = (*new_page)->keys[i+1];
(*new_page)->child[i] = (*new_page)->child[i+1];
}
(*new_page)->child[i] = (*new_page)->child[i+1];
(*new_page)->child[i+1] = NIL;
/*remove de fato a chave na nova pagina*/
(*new_page)->nKeys--;
/*obtem o offset_left: Este offset é o offset
* da pagina antiga (que foi particionada)
*
*/
offset_left = searchKeyOnBTree(offset_root, page->keys[0]);
*child_left_promoted = offset_left;
//printf("||SPLIT e child left vale %d, procurei pela chave %d\n", offset_left, page->keys[0]);
/*obtem o offset da nova pagina:
* basta posicionar no fim do arquivo e retornar o valor
* do offset em bytes
*/
fseek(bTreeFile, 0L, SEEK_END);
*child_right_promoted = ftell(bTreeFile);
//printf("conteudo da pagina atual:\n");
//printf("%d\n", (*new_page)->keys[0]);
}
