client-py/SessionExample.py

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# to you under the Apache License, Version 2.0 (the
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#
#     http://www.apache.org/licenses/LICENSE-2.0
#
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# KIND, either express or implied.  See the License for the
# specific language governing permissions and limitations
# under the License.
#

# Uncomment the following line to use apache-iotdb module installed by pip3
import numpy as np

from iotdb.Session import Session
from iotdb.template.InternalNode import InternalNode
from iotdb.template.MeasurementNode import MeasurementNode
from iotdb.template.Template import Template
from iotdb.utils.IoTDBConstants import TSDataType, TSEncoding, Compressor
from iotdb.utils.Tablet import Tablet
from iotdb.utils.NumpyTablet import NumpyTablet

# creating session connection.
ip = "127.0.0.1"
port_ = "6667"
username_ = "root"
password_ = "root"
session = Session(ip, port_, username_, password_, fetch_size=1024, zone_id="UTC+8")
session.open(False)

# set and delete storage groups
session.set_storage_group("root.sg_test_01")
session.set_storage_group("root.sg_test_02")
session.set_storage_group("root.sg_test_03")
session.set_storage_group("root.sg_test_04")
session.delete_storage_group("root.sg_test_02")
session.delete_storage_groups(["root.sg_test_03", "root.sg_test_04"])

# setting time series.
session.create_time_series(
    "root.sg_test_01.d_01.s_01", TSDataType.BOOLEAN, TSEncoding.PLAIN, Compressor.SNAPPY
)
session.create_time_series(
    "root.sg_test_01.d_01.s_02", TSDataType.INT32, TSEncoding.PLAIN, Compressor.SNAPPY
)
session.create_time_series(
    "root.sg_test_01.d_01.s_03", TSDataType.INT64, TSEncoding.PLAIN, Compressor.SNAPPY
)
session.create_time_series(
    "root.sg_test_01.d_02.s_01",
    TSDataType.BOOLEAN,
    TSEncoding.PLAIN,
    Compressor.SNAPPY,
    None,
    {"tag1": "v1"},
    {"description": "v1"},
    "temperature",
)

# setting multiple time series once.
ts_path_lst_ = [
    "root.sg_test_01.d_01.s_04",
    "root.sg_test_01.d_01.s_05",
    "root.sg_test_01.d_01.s_06",
    "root.sg_test_01.d_01.s_07",
    "root.sg_test_01.d_01.s_08",
    "root.sg_test_01.d_01.s_09",
]
data_type_lst_ = [
    TSDataType.FLOAT,
    TSDataType.DOUBLE,
    TSDataType.TEXT,
    TSDataType.FLOAT,
    TSDataType.DOUBLE,
    TSDataType.TEXT,
]
encoding_lst_ = [TSEncoding.PLAIN for _ in range(len(data_type_lst_))]
compressor_lst_ = [Compressor.SNAPPY for _ in range(len(data_type_lst_))]
session.create_multi_time_series(
    ts_path_lst_, data_type_lst_, encoding_lst_, compressor_lst_
)

ts_path_lst_ = [
    "root.sg_test_01.d_02.s_04",
    "root.sg_test_01.d_02.s_05",
    "root.sg_test_01.d_02.s_06",
    "root.sg_test_01.d_02.s_07",
    "root.sg_test_01.d_02.s_08",
    "root.sg_test_01.d_02.s_09",
]
data_type_lst_ = [
    TSDataType.FLOAT,
    TSDataType.DOUBLE,
    TSDataType.TEXT,
    TSDataType.FLOAT,
    TSDataType.DOUBLE,
    TSDataType.TEXT,
]
encoding_lst_ = [TSEncoding.PLAIN for _ in range(len(data_type_lst_))]
compressor_lst_ = [Compressor.SNAPPY for _ in range(len(data_type_lst_))]
tags_lst_ = [{"tag2": "v2"} for _ in range(len(data_type_lst_))]
attributes_lst_ = [{"description": "v2"} for _ in range(len(data_type_lst_))]
session.create_multi_time_series(
    ts_path_lst_,
    data_type_lst_,
    encoding_lst_,
    compressor_lst_,
    None,
    tags_lst_,
    attributes_lst_,
    None,
)

# delete time series
session.delete_time_series(
    [
        "root.sg_test_01.d_01.s_07",
        "root.sg_test_01.d_01.s_08",
        "root.sg_test_01.d_01.s_09",
    ]
)

# checking time series
print(
    "s_07 expecting False, checking result: ",
    session.check_time_series_exists("root.sg_test_01.d_01.s_07"),
)
print(
    "s_03 expecting True, checking result: ",
    session.check_time_series_exists("root.sg_test_01.d_01.s_03"),
)
print(
    "d_02.s_01 expecting True, checking result: ",
    session.check_time_series_exists("root.sg_test_01.d_02.s_01"),
)
print(
    "d_02.s_06 expecting True, checking result: ",
    session.check_time_series_exists("root.sg_test_01.d_02.s_06"),
)

# insert one record into the database.
measurements_ = ["s_01", "s_02", "s_03", "s_04", "s_05", "s_06"]
values_ = [False, 10, 11, 1.1, 10011.1, "test_record"]
data_types_ = [
    TSDataType.BOOLEAN,
    TSDataType.INT32,
    TSDataType.INT64,
    TSDataType.FLOAT,
    TSDataType.DOUBLE,
    TSDataType.TEXT,
]
session.insert_record("root.sg_test_01.d_01", 1, measurements_, data_types_, values_)

# insert multiple records into database
measurements_list_ = [
    ["s_01", "s_02", "s_03", "s_04", "s_05", "s_06"],
    ["s_01", "s_02", "s_03", "s_04", "s_05", "s_06"],
]
values_list_ = [
    [False, 22, 33, 4.4, 55.1, "test_records01"],
    [True, 77, 88, 1.25, 8.125, "test_records02"],
]
data_type_list_ = [data_types_, data_types_]
device_ids_ = ["root.sg_test_01.d_01", "root.sg_test_01.d_01"]
session.insert_records(
    device_ids_, [2, 3], measurements_list_, data_type_list_, values_list_
)

# insert one tablet into the database.
values_ = [
    [False, 10, 11, 1.1, 10011.1, "test01"],
    [True, 100, 11111, 1.25, 101.0, "test02"],
    [False, 100, 1, 188.1, 688.25, "test03"],
    [True, 0, 0, 0, 6.25, "test04"],
]  # Non-ASCII text will cause error since bytes can only hold 0-128 nums.
timestamps_ = [4, 5, 6, 7]
tablet_ = Tablet(
    "root.sg_test_01.d_01", measurements_, data_types_, values_, timestamps_
)
session.insert_tablet(tablet_)

# insert one numpy tablet into the database.
np_values_ = [
    np.array([False, True, False, True], TSDataType.BOOLEAN.np_dtype()),
    np.array([10, 100, 100, 0], TSDataType.INT32.np_dtype()),
    np.array([11, 11111, 1, 0], TSDataType.INT64.np_dtype()),
    np.array([1.1, 1.25, 188.1, 0], TSDataType.FLOAT.np_dtype()),
    np.array([10011.1, 101.0, 688.25, 6.25], TSDataType.DOUBLE.np_dtype()),
    np.array(["test01", "test02", "test03", "test04"], TSDataType.TEXT.np_dtype()),
]
np_timestamps_ = np.array([1, 2, 3, 4], TSDataType.INT64.np_dtype())
np_tablet_ = NumpyTablet(
    "root.sg_test_01.d_02", measurements_, data_types_, np_values_, np_timestamps_
)
session.insert_tablet(np_tablet_)

# insert one unsorted numpy tablet into the database.
np_values_unsorted = [
    np.array([False, False, False, True, True], np.dtype(">?")),
    np.array([0, 10, 100, 1000, 10000], np.dtype(">i4")),
    np.array([1, 11, 111, 1111, 11111], np.dtype(">i8")),
    np.array([1.1, 1.25, 188.1, 0, 8.999], np.dtype(">f4")),
    np.array([10011.1, 101.0, 688.25, 6.25, 8, 776], np.dtype(">f8")),
    np.array(["test09", "test08", "test07", "test06", "test05"]),
]
np_timestamps_unsorted = np.array([9, 8, 7, 6, 5], np.dtype(">i8"))
np_tablet_unsorted = NumpyTablet(
    "root.sg_test_01.d_02",
    measurements_,
    data_types_,
    np_values_unsorted,
    np_timestamps_unsorted,
)
session.insert_tablet(np_tablet_unsorted)
print(np_tablet_unsorted.get_timestamps())
for value in np_tablet_unsorted.get_values():
    print(value)

# insert multiple tablets into database
tablet_01 = Tablet(
    "root.sg_test_01.d_01", measurements_, data_types_, values_, [8, 9, 10, 11]
)
tablet_02 = Tablet(
    "root.sg_test_01.d_01", measurements_, data_types_, values_, [12, 13, 14, 15]
)
session.insert_tablets([tablet_01, tablet_02])

# insert one tablet with empty cells into the database.
values_ = [
    [None, 10, 11, 1.1, 10011.1, "test01"],
    [True, None, 11111, 1.25, 101.0, "test02"],
    [False, 100, 1, None, 688.25, "test03"],
    [True, 0, 0, 0, 6.25, None],
]  # Non-ASCII text will cause error since bytes can only hold 0-128 nums.
timestamps_ = [16, 17, 18, 19]
tablet_ = Tablet(
    "root.sg_test_01.d_01", measurements_, data_types_, values_, timestamps_
)
session.insert_tablet(tablet_)

# insert records of one device
time_list = [1, 2, 3]
measurements_list = [
    ["s_01", "s_02", "s_03"],
    ["s_01", "s_02", "s_03"],
    ["s_01", "s_02", "s_03"],
]
data_types_list = [
    [TSDataType.BOOLEAN, TSDataType.INT32, TSDataType.INT64],
    [TSDataType.BOOLEAN, TSDataType.INT32, TSDataType.INT64],
    [TSDataType.BOOLEAN, TSDataType.INT32, TSDataType.INT64],
]
values_list = [[False, 22, 33], [True, 1, 23], [False, 15, 26]]

session.insert_records_of_one_device(
    "root.sg_test_01.d_01", time_list, measurements_list, data_types_list, values_list
)

# execute non-query sql statement
session.execute_non_query_statement(
    "insert into root.sg_test_01.d_01(timestamp, s_02) values(16, 188)"
)

# execute sql query statement
with session.execute_query_statement(
    "select * from root.sg_test_01.d_01"
) as session_data_set:
    session_data_set.set_fetch_size(1024)
    while session_data_set.has_next():
        print(session_data_set.next())
# execute sql query statement
with session.execute_query_statement(
    "select s_01, s_02, s_03, s_04, s_05, s_06 from root.sg_test_01.d_02"
) as session_data_set:
    session_data_set.set_fetch_size(1024)
    while session_data_set.has_next():
        print(session_data_set.next())

# execute statement
with session.execute_statement(
    "select * from root.sg_test_01.d_01"
) as session_data_set:
    while session_data_set.has_next():
        print(session_data_set.next())

session.execute_statement(
    "insert into root.sg_test_01.d_01(timestamp, s_02) values(16, 188)"
)

# insert string records of one device
time_list = [1, 2, 3]
measurements_list = [
    ["s_01", "s_02", "s_03"],
    ["s_01", "s_02", "s_03"],
    ["s_01", "s_02", "s_03"],
]
values_list = [["False", "22", "33"], ["True", "1", "23"], ["False", "15", "26"]]

session.insert_string_records_of_one_device(
    "root.sg_test_01.d_03",
    time_list,
    measurements_list,
    values_list,
)

with session.execute_raw_data_query(
    ["root.sg_test_01.d_03.s_01", "root.sg_test_01.d_03.s_02"], 1, 4
) as session_data_set:
    session_data_set.set_fetch_size(1024)
    while session_data_set.has_next():
        print(session_data_set.next())

with session.execute_last_data_query(
    ["root.sg_test_01.d_03.s_01", "root.sg_test_01.d_03.s_02"], 0
) as session_data_set:
    session_data_set.set_fetch_size(1024)
    while session_data_set.has_next():
        print(session_data_set.next())

# delete storage group
session.delete_storage_group("root.sg_test_01")

# create measurement node template
template = Template(name="template_python", share_time=False)
m_node_1 = MeasurementNode(
    name="s1",
    data_type=TSDataType.INT64,
    encoding=TSEncoding.RLE,
    compression_type=Compressor.SNAPPY,
)
m_node_2 = MeasurementNode(
    name="s2",
    data_type=TSDataType.INT64,
    encoding=TSEncoding.RLE,
    compression_type=Compressor.SNAPPY,
)
m_node_3 = MeasurementNode(
    name="s3",
    data_type=TSDataType.INT64,
    encoding=TSEncoding.RLE,
    compression_type=Compressor.SNAPPY,
)
template.add_template(m_node_1)
template.add_template(m_node_2)
template.add_template(m_node_3)
session.create_schema_template(template)
print("create template success template_python")

# create internal node template
template_name = "treeTemplate_python"
template = Template(name=template_name, share_time=True)
i_node_gps = InternalNode(name="GPS", share_time=False)
i_node_v = InternalNode(name="vehicle", share_time=True)
m_node_x = MeasurementNode("x", TSDataType.FLOAT, TSEncoding.RLE, Compressor.SNAPPY)

i_node_gps.add_child(m_node_x)
i_node_v.add_child(m_node_x)
template.add_template(i_node_gps)
template.add_template(i_node_v)
template.add_template(m_node_x)

session.create_schema_template(template)
print("create template success treeTemplate_python}")

print(session.is_measurement_in_template(template_name, "GPS"))
print(session.is_measurement_in_template(template_name, "GPS.x"))
print(session.show_all_templates())

# # append schema template
data_types = [TSDataType.FLOAT, TSDataType.FLOAT, TSDataType.DOUBLE]
encoding_list = [TSEncoding.RLE, TSEncoding.RLE, TSEncoding.GORILLA]
compressor_list = [Compressor.SNAPPY, Compressor.SNAPPY, Compressor.LZ4]

measurements_aligned_path = ["aligned.s1", "aligned.s2", "aligned.s3"]
session.add_measurements_in_template(
    template_name,
    measurements_aligned_path,
    data_types,
    encoding_list,
    compressor_list,
    is_aligned=True,
)
# session.drop_schema_template("add_template_python")
measurements_aligned_path = ["unaligned.s1", "unaligned.s2", "unaligned.s3"]
session.add_measurements_in_template(
    template_name,
    measurements_aligned_path,
    data_types,
    encoding_list,
    compressor_list,
    is_aligned=False,
)
session.delete_node_in_template(template_name, "aligned.s1")
print(session.count_measurements_in_template(template_name))
print(session.is_path_exist_in_template(template_name, "aligned.s1"))
print(session.is_path_exist_in_template(template_name, "aligned.s2"))

session.set_schema_template(template_name, "root.python.set")
print(session.show_paths_template_using_on(template_name))
print(session.show_paths_template_set_on(template_name))
session.unset_schema_template(template_name, "root.python.set")

# drop template
session.drop_schema_template("template_python")
session.drop_schema_template(template_name)
print("drop template success, template_python and treeTemplate_python")
# close session connection.
session.close()

print("All executions done!!")