예제 #1
0
TEST(TestObHashMap, create)
{
  ObHashMap<HashKey, HashValue> hm;
  // 参数错误
  EXPECT_EQ(-1, hm.create(0));
  // 正常create
  EXPECT_EQ(0, hm.create(cal_next_prime(gHashItemNum)));
  // 重复create
  EXPECT_EQ(-1, hm.create(cal_next_prime(gHashItemNum)));
}
예제 #2
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TEST(TestObHashMap, destroy)
{
  ObHashMap<HashKey, HashValue> hm;

  // 没有create
  EXPECT_EQ(0, hm.destroy());
  hm.create(cal_next_prime(gHashItemNum));
  EXPECT_EQ(0, hm.destroy());
  EXPECT_EQ(0, hm.create(gHashItemNum));
}
예제 #3
0
TEST(TestObHashMap, atomic)
{
  ObHashMap<HashKey, HashValue> hm;
  uint64_t key = 1;
  uint64_t value = 100;
  uint64_t value_update = 3000;
  CallBack callback;
  callback.set_v(value_update);
  HashValue value_tmp;

  // 没有create
  EXPECT_EQ(-1, hm.atomic(key, callback));

  hm.create(cal_next_prime(gHashItemNum));

  hm.set(key, value, 0);
  EXPECT_EQ(HASH_EXIST, hm.get(key, value_tmp));
  EXPECT_EQ(value, value_tmp);

  EXPECT_EQ(HASH_EXIST, hm.atomic(key, callback));
  EXPECT_EQ(HASH_EXIST, hm.get(key, value_tmp));
  EXPECT_EQ(value_update, value_tmp);

  EXPECT_EQ(HASH_NOT_EXIST, hm.atomic(key + 1, callback));
  EXPECT_EQ(HASH_EXIST, hm.get(key, value_tmp));
  EXPECT_EQ(value_update, value_tmp);
}
예제 #4
0
static void init_obj_type_map_()
{
  static bool inited = false;
  if (!inited)
  {
    obj_type_map.create(16);
    obj_type_map.set("null", ObNullType);
    obj_type_map.set("int", ObIntType);
    obj_type_map.set("float", ObFloatType);
    obj_type_map.set("double", ObDoubleType);
    obj_type_map.set("date_time", ObDateTimeType);
    obj_type_map.set("precise_date_time", ObPreciseDateTimeType);
    obj_type_map.set("var_char", ObVarcharType);
    obj_type_map.set("seq", ObSeqType);
    obj_type_map.set("create_time", ObCreateTimeType);
    obj_type_map.set("modify_time", ObModifyTimeType);
    inited = true;
  }
}
예제 #5
0
TEST(TestObHashMap, clear)
{
  ObHashMap<HashKey, HashValue> hm;
  uint64_t key[4] = {1, 2, 1, 1 + cal_next_prime(gHashItemNum)};
  uint64_t value[4] = {100, 200, 300, 301};

  // 没有create
  EXPECT_EQ(-1, hm.clear());
  hm.create(cal_next_prime(gHashItemNum));
  EXPECT_EQ(0, hm.clear());
  hm.set(key[0], value[0], 0);
  hm.set(key[1], value[1], 0);
  hm.set(key[3], value[3], 0);
  EXPECT_EQ(3, hm.size());
  EXPECT_EQ(0, hm.clear());
  EXPECT_EQ(0, hm.size());
}
예제 #6
0
TEST(TestObHashMap, set)
{
  ObHashMap<HashKey, HashValue> hm;
  uint64_t key[4] = {1, 2, 1, 1 + cal_next_prime(gHashItemNum)};
  uint64_t value[4] = {100, 200, 300, 301};

  // 没有create
  EXPECT_EQ(-1, hm.set(key[0], value[0], 0));

  hm.create(cal_next_prime(gHashItemNum));
  // 正常插入
  EXPECT_EQ(HASH_INSERT_SUCC, hm.set(key[0], value[0], 0));
  // 正常插入不同bucket的key
  EXPECT_EQ(HASH_INSERT_SUCC, hm.set(key[1], value[1], 0));
  // 正常插入相同bucket的key
  EXPECT_EQ(HASH_INSERT_SUCC, hm.set(key[3], value[3], 0));
  // key存在但不覆盖
  EXPECT_EQ(HASH_EXIST, hm.set(key[2], value[2], 0));
  // key存在覆盖
  EXPECT_EQ(HASH_OVERWRITE_SUCC, hm.set(key[2], value[2], 1));
}
예제 #7
0
TEST(TestObHashMap, erase)
{
  ObHashMap<HashKey, HashValue> hm;
  uint64_t key[4] = {1, 2, 1, 1 + cal_next_prime(gHashItemNum)};
  uint64_t value[4] = {100, 200, 300, 301};

  // 没有create
  EXPECT_EQ(-1, hm.erase(key[0]));

  hm.create(cal_next_prime(gHashItemNum));
  // 删除已存在的数据
  hm.set(key[0], value[0], 0);
  hm.set(key[1], value[1], 0);
  hm.set(key[3], value[3], 0);
  EXPECT_EQ(HASH_EXIST, hm.erase(key[0]));
  EXPECT_EQ(HASH_EXIST, hm.erase(key[1]));
  uint64_t value_ret = 0;
  EXPECT_EQ(HASH_EXIST, hm.erase(key[3], &value_ret));
  EXPECT_EQ(value[3], value_ret);
  // 删除不存在的数据
  EXPECT_EQ(HASH_NOT_EXIST, hm.erase(-1));
}
예제 #8
0
static void init_opt_map_()
{
  static bool inited = false;
  if (!inited)
  {
    opt_map.create(16);
    opt_map.set("update", +ObActionFlag::OP_UPDATE, 1);
    opt_map.set("add", +ObActionFlag::OP_UPDATE, 1);
    opt_map.set("insert", +ObActionFlag::OP_INSERT, 1);
    //opt_map.set("read", +ObActionFlag::OP_READ, 1);
    //opt_map.set("delete", +ObActionFlag::OP_DEL, 1);
    opt_map.set("delete_row", +ObActionFlag::OP_DEL_ROW, 1);
    opt_map.set("db_sem", +ObActionFlag::OP_USE_DB_SEM, 1);
    opt_map.set("ob_sem", +ObActionFlag::OP_USE_OB_SEM, 1);
    inited = true;
  }
}
예제 #9
0
void read_cell_infos(const char *fname, const char *section, PageArena<char> &allocer, ObMutator &mutator, ObMutator &result)
{
  init_opt_map_();
  init_obj_type_map_();
  TBSYS_CONFIG.load(fname);
  int32_t cell_infos_num = TBSYS_CONFIG.getInt(section, CELL_INFOS_NUM);
  std::vector<int64_t> table_ids;
  std::vector<int64_t> column_ids;
  for (int32_t i = 0; i < cell_infos_num; i++)
  {
    const char *str = NULL;
    int32_t len = 0;
    ObCellInfo *ci = (ObCellInfo*)allocer.alloc(sizeof(ObCellInfo));
    //ObCellInfo *op = (ObCellInfo*)allocer.alloc(sizeof(ObCellInfo));
    ci->reset();

    sprintf(buffer, OP_TYPE_KEY_FORMAT, i);
    str = getAndCopySting_(allocer, section, buffer, len);
    int8_t op_type = 0;
    bool is_add = (0 == strncmp("add", str, 3));
    opt_map.get(str, op_type);

    // table name
    sprintf(buffer, TABLE_NAME_KEY_FORMAT, i);
    str = getAndCopySting_(allocer, section, buffer, len);
    ci->table_name_.assign_ptr(const_cast<char*>(str), len);

    // table id
    sprintf(buffer, TABLE_ID_KEY_FORMAT, i);
    ci->table_id_ = TBSYS_CONFIG.getInt(section, buffer);

    // row key
    sprintf(buffer, ROW_KEY_KEY_FORMAT, i);
    str = getAndCopySting_(allocer, section, buffer, len);
    ci->row_key_.assign_ptr(const_cast<char*>(str), len);

    // column name
    sprintf(buffer, COLUMN_NAME_KEY_FORMAT, i);
    str = getAndCopySting_(allocer, section, buffer, len);
    ci->column_name_.assign_ptr(const_cast<char*>(str), len);

    // column id
    sprintf(buffer, COLUMN_ID_KEY_FORMAT, i);
    ci->column_id_ = TBSYS_CONFIG.getInt(section, buffer);

    //*op = *ci;
    //op->value_.set_ext(op_type);
    //mutator.add_cell(*op);
    //table_ids.push_back(op->table_id_);
    //column_ids.push_back(op->column_id_);
    //if (ObActionFlag::OP_DEL_ROW == op_type)
    //{
    //  result.add_cell(*op);
    //  continue;
    //}

    // value type
    sprintf(buffer, VALUE_TYPE_KEY_FORMAT, i);
    str = TBSYS_CONFIG.getString(section, buffer);
    int value_type = 0;
    obj_type_map.get(str, value_type);

    // value
    sprintf(buffer, VALUE_KEY_FORMAT, i);
    if (ObVarcharType == value_type)
    {
      str = getAndCopySting_(allocer, section, buffer, len);
      ObString varchar;
      varchar.assign_ptr(const_cast<char*>(str), len);
      //char *tmp = (char*)malloc(1024 * 1024 + 512 * 1024);
      //memset(tmp, 'a', 1024 * 1024 + 512 * 1024);
      //varchar.assign_ptr(tmp, 1024 * 1024 + 512 * 1024);
      ci->value_.set_varchar(varchar);
    }
    else if (ObIntType == value_type)
    {
      int64_t value = TBSYS_CONFIG.getInt(section, buffer);
      ci->value_.set_int(value, is_add);
    }
    else if (ObFloatType == value_type)
    {
      str = TBSYS_CONFIG.getString(section, buffer);
      float value = atof(str);
      ci->value_.set_float(value, is_add);
    }
    else if (ObDoubleType == value_type)
    {
      str = TBSYS_CONFIG.getString(section, buffer);
      double value = atof(str);
      ci->value_.set_double(value, is_add);
    }
    else if (ObDateTimeType == value_type)
    {
      int64_t value = TBSYS_CONFIG.getInt(section, buffer);
      ci->value_.set_datetime(value);
    }
    else if(ObPreciseDateTimeType == value_type)
    {
      int64_t value = TBSYS_CONFIG.getInt(section, buffer);
      ci->value_.set_precise_datetime(value);
    }
    else if (ObSeqType == value_type)
    {
      ci->value_.set_seq();
    }
    else if (ObCreateTimeType == value_type)
    {
      int64_t value = TBSYS_CONFIG.getInt(section, buffer);
      ci->value_.set_createtime(value);
    }
    else if(ObModifyTimeType == value_type)
    {
      int64_t value = TBSYS_CONFIG.getInt(section, buffer);
      ci->value_.set_modifytime(value);
    }
    else if (ObNullType == value_type)
    {
      ci->value_.set_null();
    }
    else
    {
      fprintf(stderr, "value_type=%d is not supported\n", value_type);
    }

    switch (op_type)
    {
      case ObActionFlag::OP_UPDATE:
        mutator.update(ci->table_name_, ci->row_key_, ci->column_name_, ci->value_);
        break;
      case ObActionFlag::OP_INSERT:
        mutator.insert(ci->table_name_, ci->row_key_, ci->column_name_, ci->value_);
        break;
      case ObActionFlag::OP_DEL_ROW:
        mutator.del_row(ci->table_name_, ci->row_key_);
        break;
      case ObActionFlag::OP_USE_DB_SEM:
        mutator.use_db_sem();
        break;
      case ObActionFlag::OP_USE_OB_SEM:
        mutator.use_ob_sem();
        break;
      default:
        fprintf(stderr, "op_type not support %d\n", op_type);
        break;
    }
    table_ids.push_back(ci->table_id_);
    column_ids.push_back(ci->column_id_);
    ObMutatorCellInfo mutator_ci;
    mutator_ci.cell_info = *ci;
    result.add_cell(mutator_ci);
  }

  for (int32_t i = 0; i < cell_infos_num; i++)
  {
    result.next_cell();
    ObMutatorCellInfo *mutator_ci = NULL;
    ObCellInfo *ci = NULL;
    result.get_cell(&mutator_ci);
    ci = &(mutator_ci->cell_info);

    // table id
    sprintf(buffer, TABLE_ID_KEY_FORMAT, i);
    ci->table_id_ = TBSYS_CONFIG.getInt(section, buffer);

    // column id
    sprintf(buffer, COLUMN_ID_KEY_FORMAT, i);
    ci->column_id_ = TBSYS_CONFIG.getInt(section, buffer);
  }
  result.reset_iter();

  for (uint64_t i = 0; i < table_ids.size(); i++)
  {
    mutator.next_cell();
    ObMutatorCellInfo *mutator_ci = NULL;
    ObCellInfo *ci = NULL;
    mutator.get_cell(&mutator_ci);
    ci = &(mutator_ci->cell_info);

    // table id
    ci->table_id_ = table_ids[i];

    // column id
    ci->column_id_ = column_ids[i];
  }
  mutator.reset_iter();
}
예제 #10
0
TEST(TestObHashMap, get)
{
  ObHashMap<HashKey, HashValue> hm;
  uint64_t key[4] = {1, 2, 1, 1 + cal_next_prime(gHashItemNum)};
  uint64_t value[4] = {100, 200, 300, 301};
  int fail = -1;
  HashValue value_tmp;

  // 没有create
  EXPECT_EQ(fail, hm.get(key[0], value_tmp));

  hm.create(cal_next_prime(gHashItemNum));
  // 查询已存在的数据
  hm.set(key[0], value[0], 0);
  hm.set(key[1], value[1], 0);
  hm.set(key[3], value[3], 0);
  EXPECT_EQ(HASH_EXIST, hm.get(key[0], value_tmp));
  EXPECT_EQ(value[0], value_tmp);
  EXPECT_EQ(HASH_EXIST, hm.get(key[1], value_tmp));
  EXPECT_EQ(value[1], value_tmp);
  EXPECT_EQ(HASH_EXIST, hm.get(key[3], value_tmp));
  EXPECT_EQ(value[3], value_tmp);
  // 查询更新后的数据
  hm.set(key[0], value[2], 1);
  EXPECT_EQ(HASH_EXIST, hm.get(key[0], value_tmp));
  EXPECT_EQ(value[2], value_tmp);
  // 查询不存在的数据
  EXPECT_EQ(HASH_NOT_EXIST, hm.get(-1, value_tmp));
}
예제 #11
0
TEST(TestObHashMap, serialization)
{
  ObHashMap<HashKey, HashValue> hm;
  SimpleArchive arw, arr;
  arw.init("./hash.data", SimpleArchive::FILE_OPEN_WFLAG);
  arr.init("./hash.data", SimpleArchive::FILE_OPEN_RFLAG);
  SimpleArchive arw_nil, arr_nil;

  // 没有create
  EXPECT_EQ(-1, hm.serialization(arw));
  hm.create(cal_next_prime(gHashItemNum));
  // 没有元素
  EXPECT_EQ(0, hm.serialization(arw));
  EXPECT_EQ(0, hm.deserialization(arr));

  uint64_t key[4] = {1, 2, 1, 1 + cal_next_prime(gHashItemNum)};
  uint64_t value[4] = {100, 200, 300, 301};
  for (uint32_t i = 0; i < 4; i++)
  {
    hm.set(key[i], value[i], 0);
  }
  EXPECT_EQ(-1, hm.serialization(arw_nil));

  arw.destroy();
  arr.destroy();
  arw.init("./hash.data", SimpleArchive::FILE_OPEN_WFLAG);
  arr.init("./hash.data", SimpleArchive::FILE_OPEN_RFLAG);
  EXPECT_EQ(0, hm.serialization(arw));
  hm.destroy();
  EXPECT_EQ(0, hm.deserialization(arr));
  EXPECT_EQ(-1, hm.deserialization(arr));
  EXPECT_EQ(3, hm.size());

  arr_nil.init("./hash.data.nil", SimpleArchive::FILE_OPEN_RFLAG);
  EXPECT_EQ(-1, hm.deserialization(arr_nil));

  remove("./hash.data");
  remove("./hash.data.nil");
}
예제 #12
0
TEST(TestObHashMap, iterator)
{
  ObHashMap<HashKey, HashValue> hm;
  const ObHashMap<HashKey, HashValue>& chm = hm;
  ObHashMap<HashKey, HashValue>::iterator iter;
  ObHashMap<HashKey, HashValue>::const_iterator citer;

  // 没有create
  EXPECT_EQ(true, hm.begin() == hm.end());
  iter = hm.begin();
  citer = chm.begin();
  EXPECT_EQ(true, iter == hm.end());
  EXPECT_EQ(true, citer == chm.end());
  EXPECT_EQ(true, (++iter) == hm.end());
  EXPECT_EQ(true, (++citer) == chm.end());

  // 没有数据
  hm.create(cal_next_prime(gHashItemNum));
  EXPECT_EQ(true, hm.begin() == hm.end());
  iter = hm.begin();
  citer = hm.begin();
  EXPECT_EQ(true, iter == hm.end());
  EXPECT_EQ(true, citer == hm.end());
  EXPECT_EQ(true, (++iter) == hm.end());
  EXPECT_EQ(true, (++citer) == hm.end());

  uint64_t key[4] = {1, 2, 5, 5 + cal_next_prime(gHashItemNum)};
  uint64_t value[4] = {100, 200, 500, 501};
  for (int32_t i = 3; i >= 0; i--)
  {
    hm.set(key[i], value[i], 0);
  }
  iter = hm.begin();
  citer = chm.begin();
  for (uint32_t i = 0; iter != hm.end(); iter++, i++)
  {
    EXPECT_EQ(value[i], iter->second);
  }
  for (uint32_t i = 0; citer != chm.end(); citer++, i++)
  {
    EXPECT_EQ(value[i], citer->second);
  }
}