#include #include #include #include #include "logstore.h" #include #include #include #include #include #include #include #include "../tcpclient.h" #include "../network.h" #include "check_util.h" #undef begin #undef end static char * svrname = "localhost"; static int svrport = 32432; void insertProbeIter(size_t NUM_ENTRIES) { srand(1000); logstore_handle_t * l = logstore_client_open(svrname, svrport, 100); //data generation typedef std::vector key_v_t; const static size_t max_partition_size = 100000; int KEY_LEN = 100; std::vector *key_v_list = new std::vector; int list_size = NUM_ENTRIES / max_partition_size + 1; for(int i =0; ibegin(), key_arr->end(), &mycmp); key_v_list->push_back(key_arr); printf("size partition %d is %d\n", i+1, key_arr->size()); } key_v_t * key_arr = new key_v_t; std::vector iters; for(int i=0; ibegin())); } int lc = 0; while(true) { int list_index = -1; for(int i=0; iend()) continue; if(list_index == -1 || mycmp(**iters[i], **iters[list_index])) list_index = i; } if(list_index == -1) break; if(key_arr->size() == 0 || mycmp(key_arr->back(), **iters[list_index])) key_arr->push_back(**iters[list_index]); (*iters[list_index])++; lc++; if(lc % max_partition_size == 0) printf("%d/%d completed.\n", lc, NUM_ENTRIES); } for(int i=0; iclear(); delete (*key_v_list)[i]; delete iters[i]; } key_v_list->clear(); delete key_v_list; printf("key arr size: %d\n", key_arr->size()); if(key_arr->size() > NUM_ENTRIES) key_arr->erase(key_arr->begin()+NUM_ENTRIES, key_arr->end()); NUM_ENTRIES=key_arr->size(); printf("Stage 1: Writing %d keys\n", NUM_ENTRIES); struct timeval start_tv, stop_tv, ti_st, ti_end; double insert_time = 0; int delcount = 0, upcount = 0; int64_t datasize = 0; std::vector dsp; std::vector del_list; gettimeofday(&start_tv,0); for(size_t i = 0; i < NUM_ENTRIES; i++) { //prepare the key len_t keylen = (*key_arr)[i].length()+1; //prepare the data std::string ditem; getnextdata(ditem, 8192); len_t datalen = ditem.length()+1; datatuple* newtuple = datatuple::create((*key_arr)[i].c_str(), keylen, ditem.c_str(), datalen); datasize += newtuple->byte_length(); gettimeofday(&ti_st,0); //send the data datatuple * ret = logstore_client_op(l, OP_INSERT, newtuple); assert(ret); gettimeofday(&ti_end,0); insert_time += tv_to_double(ti_end) - tv_to_double(ti_st); datatuple::freetuple(newtuple); if(i % 10000 == 0 && i > 0) printf("%d / %d inserted.\n", i, NUM_ENTRIES); } gettimeofday(&stop_tv,0); printf("insert time: %6.1f\n", insert_time); printf("insert time: %6.1f\n", (tv_to_double(stop_tv) - tv_to_double(start_tv))); printf("#deletions: %d\n#updates: %d\n", delcount, upcount); printf("Stage 2: Looking up %d keys:\n", NUM_ENTRIES); int found_tuples=0; for(int i=NUM_ENTRIES-1; i>=0; i--) { int ri = i; //printf("key index%d\n", i); //fflush(stdout); //get the key len_t keylen = (*key_arr)[ri].length()+1; datatuple* searchtuple = datatuple::create((*key_arr)[ri].c_str(), keylen); //find the key with the given tuple datatuple *dt = logstore_client_op(l, OP_FIND, searchtuple); assert(dt!=0); assert(!dt->isDelete()); found_tuples++; assert(dt->keylen() == (*key_arr)[ri].length()+1); //free dt datatuple::freetuple(dt); dt = 0; datatuple::freetuple(searchtuple); } printf("found %d\n", found_tuples); printf("Stage 3: Initiating scan TODO: look at results\n"); logstore_client_op(l, OP_SCAN, NULL, NULL, 0); // start = NULL stop = NULL limit = NONE key_arr->clear(); delete key_arr; logstore_client_close(l); gettimeofday(&stop_tv,0); printf("run time: %6.1f\n", (tv_to_double(stop_tv) - tv_to_double(start_tv))); } /** @test */ int main(int argc, char* argv[]) { if(argc > 1) { svrname = argv[1]; } if(argc > 2) { svrport = atoi(argv[2]); } //insertProbeIter(25000); insertProbeIter(100000); //insertProbeIter(5000); // insertProbeIter(100); /* insertProbeIter(5000); insertProbeIter(2500); insertProbeIter(1000); insertProbeIter(500); insertProbeIter(1000); insertProbeIter(100); insertProbeIter(10); */ return 0; }