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"""Calibration configuration."""

import random
import config
from random_generator import RangeGenerator, RandomDistribution, ArrayRandomDistribution, DataType

__all__ = ['main_config', 'distributions']

# A string value to fill up collections and not used in queries.
HIDDEN_STRING_VALUE = '__hidden_string_value'

# Data distributions settings.
distributions = {}

string_choice_values = [
    'h',
    'hi',
    'hi!',
    'hola',
    'hello',
    'square',
    'squared',
    'gaussian',
    'chisquare',
    'chisquared',
    'hello world',
    'distribution',
]

string_choice_weights = [10, 20, 5, 17, 30, 7, 9, 15, 40, 2, 12, 1]

distributions['string_choice'] = RandomDistribution.choice(string_choice_values,
                                                           string_choice_weights)

small_query_weights = [i for i in range(10, 201, 10)]
small_query_cardinality = sum(small_query_weights)

int_choice_values = [i for i in range(1, 1000, 50)]
random.shuffle(int_choice_values)
distributions['int_choice'] = RandomDistribution.choice(int_choice_values, small_query_weights)

distributions['random_string'] = ArrayRandomDistribution(
    RandomDistribution.uniform(RangeGenerator(DataType.INTEGER, 5, 10, 2)),
    RandomDistribution.uniform(RangeGenerator(DataType.STRING, "a", "z")))


def generate_random_str(num: int):
    strs = distributions['random_string'].generate(num)
    str_list = []
    for char_array in strs:
        str_res = "".join(char_array)
        str_list.append(str_res)

    return str_list


def random_strings_distr(size: int, count: int):
    distr = ArrayRandomDistribution(
        RandomDistribution.uniform([size]),
        RandomDistribution.uniform(RangeGenerator(DataType.STRING, "a", "z")))

    return RandomDistribution.uniform([''.join(s) for s in distr.generate(count)])


small_string_choice = generate_random_str(20)

distributions['string_choice_small'] = RandomDistribution.choice(small_string_choice,
                                                                 small_query_weights)

string_range_4 = RandomDistribution.normal(RangeGenerator(DataType.STRING, "abca", "abc_"))
string_range_5 = RandomDistribution.normal(RangeGenerator(DataType.STRING, "abcda", "abcd_"))
string_range_7 = RandomDistribution.normal(RangeGenerator(DataType.STRING, "hello_a", "hello__"))
string_range_12 = RandomDistribution.normal(
    RangeGenerator(DataType.STRING, "helloworldaa", "helloworldd_"))

distributions['string_mixed'] = RandomDistribution.mixed(
    [string_range_4, string_range_5, string_range_7, string_range_12], [0.1, 0.15, 0.25, 0.5])

distributions['string_uniform'] = RandomDistribution.uniform(
    RangeGenerator(DataType.STRING, "helloworldaa", "helloworldd_"))

distributions['int_normal'] = RandomDistribution.normal(
    RangeGenerator(DataType.INTEGER, 0, 1000, 2))

lengths_distr = RandomDistribution.uniform(RangeGenerator(DataType.INTEGER, 1, 10))
distributions['array_small'] = ArrayRandomDistribution(lengths_distr, distributions['int_normal'])

# Database settings
database = config.DatabaseConfig(connection_string='mongodb://localhost',
                                 database_name='abt_calibration', dump_path='~/data/dump',
                                 restore_from_dump=config.RestoreMode.NEVER, dump_on_exit=False)


# Collection template settings
def create_index_scan_collection_template(name: str, cardinality: int) -> config.CollectionTemplate:
    values = [
        'iqtbr5b5is', 'vt5s3tf8o6', 'b0rgm58qsn', '9m59if353m', 'biw2l9ok17', 'b9ct0ue14d',
        'oxj0vxjsti', 'f3k8w9vb49', 'ec7v82k6nk', 'f49ufwaqx7'
    ]

    start_weight = 10
    step_weight = 25
    finish_weight = start_weight + len(values) * step_weight
    weights = list(range(start_weight, finish_weight, step_weight))
    fill_up_weight = cardinality - sum(weights)
    if fill_up_weight > 0:
        values.append(HIDDEN_STRING_VALUE)
        weights.append(fill_up_weight)

    distr = RandomDistribution.choice(values, weights)

    return config.CollectionTemplate(
        name=name, fields=[
            config.FieldTemplate(name="choice", data_type=config.DataType.STRING,
                                 distribution=distr, indexed=True),
            config.FieldTemplate(name="mixed1", data_type=config.DataType.STRING,
                                 distribution=distributions["string_mixed"], indexed=False),
            config.FieldTemplate(name="uniform1", data_type=config.DataType.STRING,
                                 distribution=distributions["string_uniform"], indexed=False),
            config.FieldTemplate(name="choice2", data_type=config.DataType.STRING,
                                 distribution=distributions["string_choice"], indexed=False),
            config.FieldTemplate(name="mixed2", data_type=config.DataType.STRING,
                                 distribution=distributions["string_mixed"], indexed=False),
        ], compound_indexes=[], cardinalities=[cardinality])


def create_physical_scan_collection_template(name: str,
                                             payload_size: int = 0) -> config.CollectionTemplate:
    template = config.CollectionTemplate(
        name=name, fields=[
            config.FieldTemplate(name="choice1", data_type=config.DataType.STRING,
                                 distribution=distributions["string_choice"], indexed=False),
            config.FieldTemplate(name="mixed1", data_type=config.DataType.STRING,
                                 distribution=distributions["string_mixed"], indexed=False),
            config.FieldTemplate(name="uniform1", data_type=config.DataType.STRING,
                                 distribution=distributions["string_uniform"], indexed=False),
            config.FieldTemplate(name="choice", data_type=config.DataType.STRING,
                                 distribution=distributions["string_choice"], indexed=False),
            config.FieldTemplate(name="mixed2", data_type=config.DataType.STRING,
                                 distribution=distributions["string_mixed"], indexed=False),
        ], compound_indexes=[], cardinalities=[1000, 5000, 10000])

    if payload_size > 0:
        payload_distr = random_strings_distr(payload_size, 1000)
        template.fields.append(
            config.FieldTemplate(name="payload", data_type=config.DataType.STRING,
                                 distribution=payload_distr, indexed=False))
    return template


collection_caridinalities = list(range(10000, 50001, 10000))

c_int_05 = config.CollectionTemplate(
    name="c_int_05", fields=[
        config.FieldTemplate(name="in1", data_type=config.DataType.INTEGER,
                             distribution=distributions["int_normal"], indexed=True),
        config.FieldTemplate(name="mixed1", data_type=config.DataType.STRING,
                             distribution=distributions["string_mixed"], indexed=False),
        config.FieldTemplate(name="uniform1", data_type=config.DataType.STRING,
                             distribution=distributions["string_uniform"], indexed=False),
        config.FieldTemplate(name="in2", data_type=config.DataType.INTEGER,
                             distribution=distributions["int_normal"], indexed=True),
        config.FieldTemplate(name="mixed2", data_type=config.DataType.STRING,
                             distribution=distributions["string_mixed"], indexed=False),
    ], compound_indexes=[], cardinalities=collection_caridinalities)

c_arr_01 = config.CollectionTemplate(
    name="c_arr_01", fields=[
        config.FieldTemplate(name="as", data_type=config.DataType.INTEGER,
                             distribution=distributions["array_small"], indexed=True)
    ], compound_indexes=[], cardinalities=collection_caridinalities)

index_scan = create_index_scan_collection_template('index_scan', 1000000)

physical_scan = create_physical_scan_collection_template('physical_scan', 2000)

# Data Generator settings
data_generator = config.DataGeneratorConfig(
    enabled=True, create_indexes=True, batch_size=10000,
    collection_templates=[index_scan, physical_scan, c_int_05, c_arr_01],
    write_mode=config.WriteMode.REPLACE, collection_name_with_card=True)

# Workload Execution settings
workload_execution = config.WorkloadExecutionConfig(
    enabled=True, output_collection_name='calibrationData', write_mode=config.WriteMode.REPLACE,
    warmup_runs=3, runs=30)


def make_filter_by_note(note_value: any):
    def impl(df):
        return df[df.note == note_value]

    return impl


abt_nodes = [
    config.AbtNodeCalibrationConfig(type='PhysicalScan',
                                    filter_function=make_filter_by_note('PhysicalScan')),
    config.AbtNodeCalibrationConfig(type='IndexScan',
                                    filter_function=make_filter_by_note('IndexScan')),
    config.AbtNodeCalibrationConfig(type='Seek', filter_function=make_filter_by_note('IndexScan')),
    config.AbtNodeCalibrationConfig(type='Filter',
                                    filter_function=make_filter_by_note('PhysicalScan')),
    config.AbtNodeCalibrationConfig(type='Evaluation',
                                    filter_function=make_filter_by_note('Evaluation')),
    config.AbtNodeCalibrationConfig(type='NestedLoopJoin'),
    config.AbtNodeCalibrationConfig(type='HashJoin'),
    config.AbtNodeCalibrationConfig(type='MergeJoin'),
    config.AbtNodeCalibrationConfig(type='Union'),
    config.AbtNodeCalibrationConfig(type='LimitSkip',
                                    filter_function=make_filter_by_note('LimitSkip')),
    config.AbtNodeCalibrationConfig(type='GroupBy'),
    config.AbtNodeCalibrationConfig(type='Unwind'),
    config.AbtNodeCalibrationConfig(type='Unique'),
]

# Calibrator settings
abt_calibrator = config.AbtCalibratorConfig(
    enabled=True, test_size=0.2, input_collection_name=workload_execution.output_collection_name,
    trace=False, nodes=abt_nodes)

main_config = config.Config(database=database, data_generator=data_generator,
                            abt_calibrator=abt_calibrator, workload_execution=workload_execution)