tsio.py 26.4 KB
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from datetime import datetime
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import logging
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import hashlib
import uuid
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from threading import Lock
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import pandas as pd

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from sqlalchemy import Table, Column, Integer, ForeignKey, Index
from sqlalchemy.sql.elements import NONE_NAME
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from sqlalchemy.engine.base import Engine
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from sqlalchemy.sql.expression import select, func, desc
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from sqlalchemy.dialects.postgresql import TIMESTAMP
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from tshistory.schema import tsschema
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from tshistory.util import (
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    closed_overlaps,
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    num2float,
    SeriesServices,
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    start_end,
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    tzaware_serie
)
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from tshistory.snapshot import Snapshot, TABLES as SNAPTABLES
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L = logging.getLogger('tshistory.tsio')
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TABLES = {}
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def tx(func):
    def check_tx_and_call(self, cn, *a, **kw):
        # safety belt to make sure important api points are tx-safe
        if isinstance(cn, Engine) or not cn.in_transaction():
            if not getattr(self, '_testing', False):
                raise TypeError('You must use a transaction object')

        return func(self, cn, *a, **kw)
    return check_tx_and_call


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class TimeSerie(SeriesServices):
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    namespace = 'tsh'
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    schema = None
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    metadatacache = None
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    metakeys = {
        'tzaware',
        'index_type',
        'index_names',
        'index_dtype',
        'value_dtype',
        'value_type'
    }
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    registry_map = None
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    serie_tablename = None
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    create_lock_id = None
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    cachelock = Lock()
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    def __init__(self, namespace='tsh'):
        self.namespace = namespace
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        self.schema = tsschema(namespace)
        self.schema.define()
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        self.metadatacache = {}
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        self.registry_map = {}
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        self.serie_tablename = {}
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        self.create_lock_id = sum(ord(c) for c in namespace)
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    @tx
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    def insert(self, cn, newts, seriename, author,
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               metadata=None,
               _insertion_date=None):
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        """Create a new revision of a given time series
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        newts: pandas.Series with date index
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        seriename: str unique identifier of the serie
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        author: str free-form author name
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        metadata: optional dict for changeset metadata
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        """
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        assert isinstance(newts, pd.Series), 'Not a pd.Series'
        assert isinstance(seriename, str), 'Name not a string'
        assert isinstance(author, str), 'Author not a string'
        assert metadata is None or isinstance(metadata, dict), 'Bad format for metadata'
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        assert (_insertion_date is None or
                isinstance(_insertion_date, datetime)), 'Bad format for insertion date'
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        assert not newts.index.duplicated().any(), 'There are some duplicates in the index'
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        assert newts.index.notna().all(), 'The index contains NaT entries'
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        if not newts.index.is_monotonic_increasing:
            newts = newts.sort_index()
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        newts = num2float(newts)
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        if not len(newts):
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            return
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        assert ('<M8[ns]' == newts.index.dtype or
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                'datetime' in str(newts.index.dtype) and not
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                isinstance(newts.index, pd.MultiIndex))

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        newts.name = seriename
        table = self._get_ts_table(cn, seriename)
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        if table is None:
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            return self._create(cn, newts, seriename, author,
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                                metadata, _insertion_date)
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        return self._update(cn, table, newts, seriename, author,
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                            metadata, _insertion_date)
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    def get(self, cn, seriename, revision_date=None,
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            from_value_date=None, to_value_date=None,
            _keep_nans=False):
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        """Compute and return the serie of a given name

        revision_date: datetime filter to get previous versions of the
        serie

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        """
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        if not self.exists(cn, seriename):
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            return
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        csetfilter = []
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        if revision_date:
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            csetfilter.append(lambda cset: cset.c.insertion_date <= revision_date)
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        snap = Snapshot(cn, self, seriename)
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        _, current = snap.find(csetfilter=csetfilter,
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                               from_value_date=from_value_date,
                               to_value_date=to_value_date)
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        if current is not None and not _keep_nans:
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            current.name = seriename
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            current = current[~current.isnull()]
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        return current
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    def metadata(self, cn, seriename):
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        """Return metadata dict of timeserie."""
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        if seriename in self.metadatacache:
            return self.metadatacache[seriename]
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        reg = self.schema.registry
        sql = select([reg.c.metadata]).where(
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            reg.c.seriename == seriename
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        )
        meta = cn.execute(sql).scalar()
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        self.metadatacache[seriename] = meta
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        return meta

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    @tx
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    def update_metadata(self, cn, seriename, metadata):
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        assert isinstance(metadata, dict)
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        assert not set(metadata.keys()) & self.metakeys
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        meta = self.metadata(cn, seriename)
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        # remove al but internal stuff
        newmeta = {key: meta[key] for key in self.metakeys}
        newmeta.update(metadata)
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        reg = self.schema.registry
        sql = reg.update().where(
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            reg.c.seriename == seriename
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        ).values(metadata=newmeta)
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        self.metadatacache.pop(seriename)
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        cn.execute(sql)

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    def changeset_metadata(self, cn, csid):
        sql = 'select metadata from "{ns}".changeset where id = {id}'.format(
            ns=self.namespace,
            id=csid
        )
        return cn.execute(sql).scalar()

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    def type(self, cn, name):
        return 'primary'

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    def get_history(self, cn, seriename,
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                    from_insertion_date=None,
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                    to_insertion_date=None,
                    from_value_date=None,
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                    to_value_date=None,
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                    deltabefore=None,
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                    deltaafter=None,
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                    diffmode=False,
                    _keep_nans=False):
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        table = self._get_ts_table(cn, seriename)
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        if table is None:
            return

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        cset = self.schema.changeset
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        revsql = select(
            [cset.c.id, cset.c.insertion_date]
        ).order_by(
            cset.c.id
        ).where(
            table.c.cset == cset.c.id
        )

        if from_insertion_date:
            revsql = revsql.where(cset.c.insertion_date >= from_insertion_date)
        if to_insertion_date:
            revsql = revsql.where(cset.c.insertion_date <= to_insertion_date)
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        if from_value_date or to_value_date:
            revsql = revsql.where(
                closed_overlaps(from_value_date, to_value_date)
            )

        revs = cn.execute(
            revsql,
            {'fromdate': from_value_date, 'todate': to_value_date}
        ).fetchall()
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        if not revs:
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            return {}
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        if diffmode:
            # compute the previous serie value
            first_csid = revs[0][0]
            previous_csid = self._previous_cset(cn, seriename, first_csid)
            revs.insert(0, (previous_csid, None))

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        snapshot = Snapshot(cn, self, seriename)
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        series = []
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        if (deltabefore, deltaafter) != (None, None):
            for csid, idate in revs:
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                from_date = None
                to_date = None
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                if deltabefore is not None:
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                    from_date = idate - deltabefore
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                if deltaafter is not None:
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                    to_date = idate + deltaafter
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                series.append((
                    idate,
                    snapshot.find(csetfilter=[lambda cset: cset.c.id == csid],
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                                  from_value_date=from_date,
                                  to_value_date=to_date)[1]
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                ))
        else:
            series = snapshot.findall(revs,
                                      from_value_date,
                                      to_value_date
            )
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        if diffmode:
            diffs = []
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            for (_revdate_a, serie_a), (revdate_b, serie_b) in zip(series, series[1:]):
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                if serie_a is None:
                    # when we scan the entirety of the history: there exists no "previous" serie
                    # we therefore consider the first serie as a diff to the "null" serie
                    diffs.append((revdate_b, serie_b))
                else:
                    diffs.append((revdate_b, self.diff(serie_a, serie_b)))
            series = diffs
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        else:
            series = [
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                (idate, ts if _keep_nans else ts.dropna() )
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                 for idate, ts in series
            ]
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        return {
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            pd.Timestamp(idate).astimezone('UTC'): serie
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            for idate, serie in series
        }
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    @tx
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    def get_delta(self, cn, seriename, delta,
                  from_value_date=None,
                  to_value_date=None):
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        """ compute a series whose value dates are bounded to be
        `delta` time after the insertion dates and where we
        keep the most recent ones
        """
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        histo = self.get_history(
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            cn, seriename, deltabefore=-delta,
            from_value_date=from_value_date,
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            to_value_date=to_value_date,
            _keep_nans=True
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        )
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        if histo is None:
            return None
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        vimap = {}
        vvmap = {}
        for idate, series in histo.items():
            for vdate, value in series.iteritems():
                if vdate not in vimap or vimap[vdate] < idate:
                    vimap[vdate] = idate
                    vvmap[vdate] = value

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        ts = pd.Series(vvmap).sort_index().loc[from_value_date:to_value_date]
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        ts.name = seriename
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        return ts.dropna()
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    def exists(self, cn, seriename):
        return self._get_ts_table(cn, seriename) is not None
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    def latest_insertion_date(self, cn, seriename):
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        cset = self.schema.changeset
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        tstable = self._get_ts_table(cn, seriename)
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        sql = select(
            [func.max(cset.c.insertion_date)]
        ).where(
            tstable.c.cset == cset.c.id
        )
        return pd.Timestamp(
            cn.execute(sql).scalar()
        ).astimezone('UTC')
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    def insertion_dates(self, cn, seriename,
                        fromdate=None, todate=None):
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        cset = self.schema.changeset
        tstable = self._get_ts_table(cn, seriename)
        sql = select(
            [cset.c.insertion_date]
        ).where(
            tstable.c.cset == cset.c.id
        ).order_by(
            cset.c.id
        )
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        if fromdate:
            sql = sql.where(cset.c.insertion_date >= fromdate)
        if todate:
            sql = sql.where(cset.c.insertion_date <= todate)

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        return [
            pd.Timestamp(idate).astimezone('UTC')
            for idate, in cn.execute(sql).fetchall()
        ]

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    def last_id(self, cn, seriename):
        snapshot = Snapshot(cn, self, seriename)
        return snapshot.last_id()

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    def changeset_at(self, cn, seriename, revdate, mode='strict'):
        assert mode in ('strict', 'before', 'after')
        cset = self.schema.changeset
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        table = self._table_definition_for(cn, seriename)
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        sql = select([table.c.cset]).where(
            table.c.cset == cset.c.id
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        )
        if mode == 'strict':
            sql = sql.where(cset.c.insertion_date == revdate)
        elif mode == 'before':
            sql = sql.where(cset.c.insertion_date <= revdate)
        else:
            sql = sql.where(cset.c.insertion_date >= revdate)
        return cn.execute(sql).scalar()

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    @tx
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    def delete(self, cn, seriename):
        assert not isinstance(cn, Engine), 'use a transaction object'
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        if not self.exists(cn, seriename):
            print('not deleting unknown series', seriename, self.namespace)
            return
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        # changeset will keep ghost entries
        # we cleanup changeset series, then registry
        # then we drop the two remaining tables
        # cn *must* be a transaction scope
        rid, tablename = cn.execute(
            'select id, table_name from "{}".registry '
            'where seriename = %(seriename)s'.format(self.namespace),
            seriename=seriename
        ).fetchone()
        # drop series tables
        cn.execute(
            'drop table "{}.timeserie"."{}" cascade'.format(self.namespace, tablename)
        )
        cn.execute(
            'drop table "{}.snapshot"."{}" cascade'.format(self.namespace, tablename)
        )
        # cleanup changesets table
        cn.execute('with csets as ('
                   ' select cset from "{ns}".changeset_series '
                   ' where serie = %(rid)s'
                   ') '
                   'delete from "{ns}".changeset as cset using csets '
                   'where cset.id = csets.cset'.format(ns=self.namespace),
                   rid=rid
        )
        cn.execute('delete from "{}".registry '
                   'where id = %(rid)s'.format(self.namespace),
                   rid=rid)
        # -> this will transitively cleanup state changeset_series entries
        self._resetcaches()
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        print('deleted', seriename, self.namespace)
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    @tx
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    def strip(self, cn, seriename, csid):
        logs = self.log(cn, fromrev=csid, names=(seriename,))
        assert logs

        # put stripping info in the metadata
        cset = self.schema.changeset
        cset_serie = self.schema.changeset_series
        for log in logs:
            # update changeset.metadata
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            metadata = self.changeset_metadata(cn, log['rev']) or {}
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            metadata['tshistory.info'] = 'got stripped from {}'.format(csid)
            sql = cset.update().where(cset.c.id == log['rev']
            ).values(metadata=metadata)
            cn.execute(sql)
            # delete changset_serie item
            sql = cset_serie.delete().where(
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                cset_serie.c.cset == log['rev']
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            ).where(
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                cset_serie.c.serie == self._name_to_regid(cn, seriename)
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            )
            cn.execute(sql)

        # wipe the diffs
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        table = self._table_definition_for(cn, seriename)
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        cn.execute(table.delete().where(table.c.cset >= csid))
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    def info(self, cn):
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        """Gather global statistics on the current tshistory repository
        """
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        sql = 'select count(*) from "{}".registry'.format(self.namespace)
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        stats = {'series count': cn.execute(sql).scalar()}
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        sql = 'select max(id) from "{}".changeset'.format(self.namespace)
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        stats['changeset count'] = cn.execute(sql).scalar()
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        sql = 'select distinct seriename from "{}".registry order by seriename'.format(
            self.namespace
        )
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        stats['serie names'] = [row for row, in cn.execute(sql).fetchall()]
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        return stats

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    def log(self, cn, limit=0, names=None, authors=None,
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            stripped=False,
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            fromrev=None, torev=None,
            fromdate=None, todate=None):
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        """Build a structure showing the history of all the series in the db,
        per changeset, in chronological order.
        """
        log = []
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        cset, cset_series, reg = (
            self.schema.changeset,
            self.schema.changeset_series,
            self.schema.registry
        )
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        sql = select([cset.c.id, cset.c.author, cset.c.insertion_date, cset.c.metadata]
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        ).distinct().order_by(desc(cset.c.id))
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        if limit:
            sql = sql.limit(limit)
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        if names:
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            sql = sql.where(reg.c.seriename.in_(names))
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        if authors:
            sql = sql.where(cset.c.author.in_(authors))
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        if fromrev:
            sql = sql.where(cset.c.id >= fromrev)
        if torev:
            sql = sql.where(cset.c.id <= torev)
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        if fromdate:
            sql = sql.where(cset.c.insertion_date >= fromdate)
        if todate:
            sql = sql.where(cset.c.insertion_date <= todate)
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        if stripped:
            # outerjoin to show dead things
            sql = sql.select_from(cset.outerjoin(cset_series))
        else:
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            sql = sql.where(cset.c.id == cset_series.c.cset
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            ).where(cset_series.c.serie == reg.c.id)
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        rset = cn.execute(sql)
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        for csetid, author, revdate, meta in rset.fetchall():
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            log.append({'rev': csetid, 'author': author,
                        'date': pd.Timestamp(revdate, tz='utc'),
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                        'meta': meta or {},
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                        'names': self._changeset_series(cn, csetid)})
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        log.sort(key=lambda rev: rev['rev'])
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        return log

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    def interval(self, cn, seriename, notz=False):
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        tablename = self._serie_to_tablename(cn, seriename)
        if tablename is None:
            raise ValueError(f'no such serie: {seriename}')
        sql = (f'select start, "end" '
               f'from "{self.namespace}.timeserie"."{tablename}" '
               f'order by cset desc limit 1')
        res = cn.execute(sql).fetchone()
        start, end = res.start, res.end
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        if self.metadata(cn, seriename).get('tzaware') and not notz:
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            start, end = pd.Timestamp(start, tz='UTC'), pd.Timestamp(end, tz='UTC')
        return pd.Interval(left=start, right=end, closed='both')

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    # /API
    # Helpers
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    # creation / update

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    def _create(self, cn, newts, seriename, author,
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                metadata=None, insertion_date=None):
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        start, end = start_end(newts, notz=False)
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        if start is None:
            assert end is None
            # this is just full of nans
            return None
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        # chop off unwanted nans
        newts = newts.loc[start:end]
        if len(newts) == 0:
            return None

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        # at creation time we take an exclusive lock to avoid
        # a deadlock on created tables against the changeset-series fk
        cn.execute(
            'select pg_advisory_xact_lock({})'.format(self.create_lock_id)
        )
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        self._register_serie(cn, seriename, newts)
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        snapshot = Snapshot(cn, self, seriename)
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        csid = self._newchangeset(cn, author, insertion_date, metadata)
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        head = snapshot.create(newts)
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        start, end = start_end(newts)
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        value = {
            'cset': csid,
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            'snapshot': head,
            'start': start,
            'end': end
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        }
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        table = self._make_ts_table(cn, seriename)
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        cn.execute(table.insert().values(value))
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        self._finalize_insertion(cn, csid, seriename)
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        L.info('first insertion of %s (size=%s) by %s',
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               seriename, len(newts), author)
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        return newts

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    def _update(self, cn, table, newts, seriename, author,
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                metadata=None, insertion_date=None):
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        self._validate(cn, newts, seriename)
        snapshot = Snapshot(cn, self, seriename)
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        diff = self.diff(snapshot.last(newts.index.min(),
                                       newts.index.max()),
                         newts)
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        if not len(diff):
            L.info('no difference in %s by %s (for ts of size %s)',
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                   seriename, author, len(newts))
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            return

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        # compute series start/end stamps
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        tsstart, tsend = start_end(newts)
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        ival = self.interval(cn, seriename, notz=True)
        start = min(tsstart or ival.left, ival.left)
        end = max(tsend or ival.right, ival.right)
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        if pd.isnull(diff[0]) or pd.isnull(diff[-1]):
            # we *might* be shrinking, let's look at the full series
            # and yes, shrinkers have a slow path
            last = snapshot.last()
            patched = self.patch(last, diff).dropna()
            if not len(patched):
                raise ValueError('complete erasure of a series is forbidden')
            if pd.isnull(diff[0]):
                start = patched.index[0]
            if pd.isnull(diff[-1]):
                end = patched.index[-1]

        csid = self._newchangeset(cn, author, insertion_date, metadata)
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        head = snapshot.update(diff)
        value = {
            'cset': csid,
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            'snapshot': head,
            'start': start,
            'end': end
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        }
        cn.execute(table.insert().values(value))
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        self._finalize_insertion(cn, csid, seriename)
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        L.info('inserted diff (size=%s) for ts %s by %s',
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               len(diff), seriename, author)
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        return diff

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    # serie table handling
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    def _make_tablename(self, cn, seriename):
        """ compute the unqualified (no namespace) table name
        from a serie name, to allow arbitrary serie names
        """
        # postgresql table names are limited to 63 chars.
        if len(seriename) > 63:
            seriename = hashlib.sha1(seriename.encode('utf-8')).hexdigest()

        # collision detection (collision can happen after a rename)
        if cn.execute(f'select table_name '
                      f'from "{self.namespace}".registry '
                      f'where table_name = %(seriename)s',
                      seriename=seriename).scalar():
            return str(uuid.uuid4())

        return seriename

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    def _serie_to_tablename(self, cn, seriename):
        tablename = self.serie_tablename.get(seriename)
        if tablename is not None:
            return tablename
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        reg = self.schema.registry
        sql = select([reg.c.table_name]).where(reg.c.seriename == seriename)
        tablename = cn.execute(sql).scalar()
        if tablename is None:
            # creation time
            return
        self.serie_tablename[seriename] = tablename
        return tablename

    def _table_definition_for(self, cn, seriename):
        tablename = self._serie_to_tablename(cn, seriename)
        if tablename is None:
            # creation time
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            tablename = self._make_tablename(cn, seriename)
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        fq_tablename = '{}.timeserie.{}'.format(self.namespace, tablename)
        table = TABLES.get(fq_tablename)
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        if table is None:
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            TABLES[fq_tablename] = table = Table(
                tablename, self.schema.meta,
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                Column('id', Integer, primary_key=True),
                Column('cset', Integer,
                       ForeignKey('{}.changeset.id'.format(self.namespace)),
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                       nullable=False),
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                Column('start', TIMESTAMP, nullable=False),
                Column('end', TIMESTAMP, nullable=False),
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                Column('snapshot', Integer,
                       ForeignKey('{}.snapshot.{}.id'.format(
                           self.namespace,
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                           tablename))),
                Index(NONE_NAME, 'cset'),
                Index(NONE_NAME, 'snapshot'),
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                Index(NONE_NAME, 'start'),
                Index(NONE_NAME, 'end'),
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                schema='{}.timeserie'.format(self.namespace),
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                keep_existing=True
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            )
        return table
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    def _make_ts_table(self, cn, seriename):
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        table = self._table_definition_for(cn, seriename)
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        table.create(cn)
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        return table

    def _register_serie(self, cn, seriename, ts):
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        index = ts.index
        inames = [name for name in index.names if name]
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        sql = self.schema.registry.insert().values(
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            seriename=seriename,
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            table_name=self._make_tablename(cn, seriename),
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            metadata={
                'tzaware': tzaware_serie(ts),
                'index_type': index.dtype.name,
                'index_names': inames,
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                'index_dtype': index.dtype.str,
                'value_dtype': ts.dtypes.str,
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                'value_type': ts.dtypes.name
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            }
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        )
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        regid = cn.execute(sql).inserted_primary_key[0]
        self.registry_map[seriename] = regid
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    def _get_ts_table(self, cn, seriename):
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        tablename = self._serie_to_tablename(cn, seriename)
        if tablename:
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            return self._table_definition_for(cn, seriename)
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    # changeset handling

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    def _newchangeset(self, cn, author, insertion_date=None, metadata=None):
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        table = self.schema.changeset
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        if insertion_date is not None:
            assert insertion_date.tzinfo is not None
        idate = pd.Timestamp(insertion_date or datetime.utcnow(), tz='UTC')
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        sql = table.insert().values(
            author=author,
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            metadata=metadata,
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            insertion_date=idate)
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        return cn.execute(sql).inserted_primary_key[0]
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    def _changeset_series(self, cn, csid):
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        cset_serie = self.schema.changeset_series
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        reg = self.schema.registry
        sql = select(
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            [reg.c.seriename]
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        ).where(cset_serie.c.cset == csid
        ).where(cset_serie.c.serie == reg.c.id)
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        return [
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            row.seriename
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            for row in cn.execute(sql).fetchall()
        ]
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    def _previous_cset(self, cn, seriename, csid):
        tablename = self._serie_to_tablename(cn, seriename)
        sql = ('select cset from "{}.timeserie"."{}" '
               'where cset < %(csid)s '
               'order by cset desc limit 1').format(self.namespace, tablename)
        return cn.execute(sql, csid=csid).scalar()

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    # insertion handling

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    def _validate(self, cn, ts, seriename):
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        if ts.isnull().all():
            # ts erasure
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            return
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        tstype = ts.dtype
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        meta = self.metadata(cn, seriename)
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        if tstype != meta['value_type']:
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            m = 'Type error when inserting {}, new type is {}, type in base is {}'.format(
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                seriename, tstype, meta['value_type'])
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            raise Exception(m)
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        if ts.index.dtype.name != meta['index_type']:
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            raise Exception('Incompatible index types')
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    def _name_to_regid(self, cn, seriename):
        regid = self.registry_map.get(seriename)
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        if regid is not None:
            return regid

        registry = self.schema.registry
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        sql = select([registry.c.id]).where(registry.c.seriename == seriename)
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        regid = self.registry_map[seriename] = cn.execute(sql).scalar()
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        return regid

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    def _finalize_insertion(self, cn, csid, seriename):
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        table = self.schema.changeset_series
        sql = table.insert().values(
            cset=csid,
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            serie=self._name_to_regid(cn, seriename)
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        )
        cn.execute(sql)
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    def _resetcaches(self):
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        with self.cachelock:
            TABLES.clear()
            SNAPTABLES.clear()
            self.metadatacache.clear()
            self.registry_map.clear()
            self.serie_tablename.clear()