stasis-bLSM/test/check_merge.cpp

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#include <string>
#include <vector>
#include <iostream>
#include <sstream>
#include "logstore.h"
#include "datapage.h"
#include "merger.h"
#include <assert.h>
#include <limits.h>
#include <math.h>
#include <pthread.h>
#include <sys/time.h>
#include <time.h>
#include <stasis/transactional.h>
#undef begin
#undef end
#include "check_util.h"
void insertProbeIter(size_t NUM_ENTRIES)
{
srand(1000);
unlink("storefile.txt");
unlink("logfile.txt");
logtable<datatuple>::init_stasis();
//data generation
std::vector<std::string> * data_arr = new std::vector<std::string>;
std::vector<std::string> * key_arr = new std::vector<std::string>;
preprandstr(NUM_ENTRIES, data_arr, 10*8192, true);
preprandstr(NUM_ENTRIES+200, key_arr, 100, true);
std::sort(key_arr->begin(), key_arr->end(), &mycmp);
removeduplicates(key_arr);
if(key_arr->size() > NUM_ENTRIES)
key_arr->erase(key_arr->begin()+NUM_ENTRIES, key_arr->end());
NUM_ENTRIES=key_arr->size();
if(data_arr->size() > NUM_ENTRIES)
data_arr->erase(data_arr->begin()+NUM_ENTRIES, data_arr->end());
int xid = Tbegin();
merge_scheduler mscheduler;
logtable<datatuple> ltable(1000, 10000, 5);
recordid table_root = ltable.allocTable(xid);
Tcommit(xid);
writelock(ltable.header_lock,0);
int lindex = mscheduler.addlogtable(&ltable);
ltable.setMergeData(mscheduler.getMergeData(lindex));
mscheduler.startlogtable(lindex, 10 * 1024 * 1024);
unlock(ltable.header_lock);
printf("Stage 1: Writing %d keys\n", NUM_ENTRIES);
struct timeval start_tv, stop_tv, ti_st, ti_end;
double insert_time = 0;
int64_t datasize = 0;
std::vector<pageid_t> dsp;
gettimeofday(&start_tv,0);
for(size_t i = 0; i < NUM_ENTRIES; i++)
{
//prepare the key
datatuple *newtuple = datatuple::create((*key_arr)[i].c_str(), (*key_arr)[i].length()+1,(*data_arr)[i].c_str(), (*data_arr)[i].length()+1);
/*
printf("key: \t, keylen: %u\ndata: datalen: %u\n",
//newtuple.key,
*newtuple.keylen,
//newtuple.data,
*newtuple.datalen);
*/
datasize += newtuple->byte_length();
gettimeofday(&ti_st,0);
ltable.insertTuple(newtuple);
gettimeofday(&ti_end,0);
insert_time += tv_to_double(ti_end) - tv_to_double(ti_st);
datatuple::freetuple(newtuple);
}
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("\nTREE STRUCTURE\n");
//ltable.get_tree_c1()->print_tree(xid);
printf("datasize: %lld\n", (long long)datasize);
//sleep(20);
xid = Tbegin();
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
uint32_t keylen = (*key_arr)[ri].length()+1;
datatuple::key_t rkey = (datatuple::key_t) malloc(keylen);
memcpy((byte*)rkey, (*key_arr)[ri].c_str(), keylen);
//for(int j=0; j<keylen-1; j++)
//rkey[j] = (*key_arr)[ri][j];
//rkey[keylen-1]='\0';
//find the key with the given tuple
datatuple *dt = ltable.findTuple(xid, rkey, keylen);
assert(dt!=0);
//if(dt!=0)
{
found_tuples++;
assert(dt->keylen() == (*key_arr)[ri].length()+1);
assert(dt->datalen() == (*data_arr)[ri].length()+1);
datatuple::freetuple(dt);
}
dt = 0;
free(rkey);
}
printf("found %d\n", found_tuples);
key_arr->clear();
data_arr->clear();
delete key_arr;
delete data_arr;
mscheduler.shutdown();
printf("merge threads finished.\n");
gettimeofday(&stop_tv,0);
printf("run time: %6.1f\n", (tv_to_double(stop_tv) - tv_to_double(start_tv)));
Tcommit(xid);
logtable<datatuple>::deinit_stasis();
}
/** @test
*/
int main()
{
insertProbeIter(5000);
return 0;
}