solo-auswertung/src/solo_turnier/worker.py

import logging

from solo_turnier import html_parser
class ResultRow:
    def __init__(self, firstName, lastName, club, id, group, class_, dance, place, placeTo, competitionGroup, competitionClass):
        self.firstName = firstName
        self.lastName = lastName
        self.name = f'{firstName} {lastName}'
        self.club = club
        self.id = id
        self.group = group
        self.class_ = class_
        self.dance = dance
        self.place = place
        self.placeTo = placeTo
        self.competitionGroup = competitionGroup
        self.competitionClass = competitionClass

class ResultPerson:
    def __init__(self, firstName, lastName, club, id = None, group = None):
        self.firstName = firstName
        self.lastName = lastName
        self.name = f'{firstName} {lastName}'
        self.club = club
        self.id = id
        self.group = group
    
    @staticmethod
    def extractFromResultRow(row: ResultRow):
        return ResultPerson(
            firstName=row.firstName,
            lastName=row.lastName,
            club=row.club
        )
    
    def __eq__(self, o):
        if not isinstance(o, ResultPerson):
            return False
        
        return (
            self.firstName == o.firstName and
            self.lastName == o.lastName and
            self.club == o.club and
            self.id == o.id
        )
    
    def __repr__(self):
        if self.id is None:
            return f'{self.name} ({self.club})'
        else:
            return f'{self.name} ({self.club}) [{self.id}]'
        
    def __hash__(self):
        text = str(self)
        return text.__hash__()

class CompetitionResult:
    def __init__(self, dance, group, class_, place, placeTo, id, competitionGroup, competitionClass):
        self.dance = dance
        self.group = group
        self.class_ = class_
        self.place = place
        self.placeTo = placeTo
        self.id = int(id)
        self.competitionGroup = competitionGroup
        self.competitionClass = competitionClass
        self.finalist = None
    
    @staticmethod
    def extractFromResultRow(row: ResultRow):
        return CompetitionResult(
            dance=row.dance,
            group=row.group,
            class_=row.class_,
            place=row.place, placeTo=row.placeTo,
            id=row.id,
            competitionGroup=row.competitionGroup,
            competitionClass=row.competitionClass
        )
    
    def __repr__(self):
        if self.place == self.placeTo:
            result = f'{self.place}.'
        else:
            result = f'{self.place}.-{self.placeTo}.'
        
        if self.finalist == True:
            finalist = '[F]'
        else:
            finalist = ''
        return f'Result[{self.id}]({self.group} {self.class_} {self.dance} as {result}{finalist})'

    def __eq__(self, o):
        if not isinstance(o, CompetitionResult):
            return False
        
        return (
            self.dance == o.dance and
            self.competitionClass == o.competitionClass and
            self.competitionGroup == o.competitionGroup and
            self.place == o.place and self.placeTo == o.placeTo and
            self.id == o.id
        )

class CSVExtractor:
    def __init__(self):
        self.l = logging.getLogger('solo_turnier.worker')

    def mapCSVImport(self, imported) -> list[ResultRow]:
        ret = []

        def __processRow(row):
            result = ResultRow(
                competitionGroup=row[2],
                competitionClass=row[3],
                dance=row[4],
                id=row[5],
                firstName=row[6], lastName=row[7],
                club=row[10],
                place=row[12], placeTo=row[13],
                group=row[15], class_=row[16]
            )
            ret.append(result)

        for row in imported['data']:
            __processRow(row)
        
        return ret

class DataWorker:
    def __init__(self):
        self.l = logging.getLogger('solo_turnier.worker')
    
    def combineRowsByPerson(self, rows: list[ResultRow]) -> dict[ResultPerson, list[CompetitionResult]]:
        ret = {}
        for row in rows:
            result = CompetitionResult.extractFromResultRow(row)

            if result.place == '-' or result.placeTo == '-':
                continue
            
            person = ResultPerson.extractFromResultRow(row)
            if person not in ret:
                ret[person] = []
            ret[person].append(result)
        return ret

    def checkUniqueIds(self, data: dict[ResultPerson, list[CompetitionResult]]) -> bool:
        unique = True
        for person in data:
            ids = set([c.id for c in data[person]])
            if len(ids) == 1:
                person.id = list(ids)[0]
            else:
                unique = False

        return unique

    """
    Return a tuple
    The first one is True, if all persons could be unambiguously identified a group
    The second one is True if there was the need to override a group but it was possible to extract from other data
    The second one can be seen as a warning
    """
    def consolidateGroups(self, data:dict[ResultPerson, list[CompetitionResult]]) -> tuple[bool, bool]:
        ambiguous = False
        warnChange = False

        unambiguousGroups = set(['Kin.', 'Jun.', 'Jug.'])
        combinations = set(['Kin./Jun.', 'Jun./Jug.'])

        for person in data:
            groupsRaw = set([c.group for c in data[person]])
            
            unknown = groupsRaw.difference(unambiguousGroups).difference(combinations)
            if len(unknown) > 0:
                raise Exception(f'There were unknown groups found for {person}: {unknown}')
            
            numUnambiguousGroups = len(groupsRaw.intersection(unambiguousGroups))

            if numUnambiguousGroups == 0:
                if len(groupsRaw) == 2:
                    warnChange = True
                    person.group = 'Jun.'
                else:
                    ambiguous = True
                    if len(groupsRaw) == 1:
                        person.group = list(groupsRaw)[0]
                
            elif numUnambiguousGroups == 1:
                if len(groupsRaw.intersection(combinations)) > 0:
                    warnChange = True
                
                person.group = list(groupsRaw.intersection(unambiguousGroups))[0]
            
            else:
                raise Exception(f'{person} cannot have different groups.')
            
        return (not ambiguous, warnChange)

    def _createHtmlLUT(self, htmlImports: list[html_parser.HtmlImport]):
        ret = {}
        parser = html_parser.HtmlParser()
        for imp in htmlImports:
            parsed = parser.guessDataFromHtmlTitle(imp.title)
            key = (parsed['group'], parsed['class_'], parsed['dance'])
            ret[key] = imp
        return ret
Create importer to objects 2022-11-14 19:01:32 +00:00			`import logging`

Extract data from HTML to allow for simpler extraction 2022-11-15 15:52:19 +00:00			`from solo_turnier import html_parser`
Create importer to objects 2022-11-14 19:01:32 +00:00			`class ResultRow:`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`def __init__(self, firstName, lastName, club, id, group, class_, dance, place, placeTo, competitionGroup, competitionClass):`
Create importer to objects 2022-11-14 19:01:32 +00:00			`self.firstName = firstName`
			`self.lastName = lastName`
			`self.name = f'{firstName} {lastName}'`
			`self.club = club`
			`self.id = id`
			`self.group = group`
			`self.class_ = class_`
			`self.dance = dance`
			`self.place = place`
			`self.placeTo = placeTo`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`self.competitionGroup = competitionGroup`
			`self.competitionClass = competitionClass`
Create importer to objects 2022-11-14 19:01:32 +00:00
			`class ResultPerson:`
Consolidate result data 2022-11-15 09:48:50 +00:00			`def __init__(self, firstName, lastName, club, id = None, group = None):`
Create importer to objects 2022-11-14 19:01:32 +00:00			`self.firstName = firstName`
			`self.lastName = lastName`
			`self.name = f'{firstName} {lastName}'`
			`self.club = club`
			`self.id = id`
Consolidate result data 2022-11-15 09:48:50 +00:00			`self.group = group`
Create importer to objects 2022-11-14 19:01:32 +00:00
			`@staticmethod`
			`def extractFromResultRow(row: ResultRow):`
			`return ResultPerson(`
			`firstName=row.firstName,`
			`lastName=row.lastName,`
			`club=row.club`
			`)`
Consolidate result data 2022-11-15 09:48:50 +00:00
			`def __eq__(self, o):`
			`if not isinstance(o, ResultPerson):`
			`return False`

			`return (`
			`self.firstName == o.firstName and`
			`self.lastName == o.lastName and`
			`self.club == o.club and`
			`self.id == o.id`
			`)`

			`def __repr__(self):`
			`if self.id is None:`
			`return f'{self.name} ({self.club})'`
			`else:`
			`return f'{self.name} ({self.club}) [{self.id}]'`

			`def __hash__(self):`
			`text = str(self)`
			`return text.__hash__()`
Create importer to objects 2022-11-14 19:01:32 +00:00
			`class CompetitionResult:`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`def __init__(self, dance, group, class_, place, placeTo, id, competitionGroup, competitionClass):`
Create importer to objects 2022-11-14 19:01:32 +00:00			`self.dance = dance`
Consolidate result data 2022-11-15 09:48:50 +00:00			`self.group = group`
Create importer to objects 2022-11-14 19:01:32 +00:00			`self.class_ = class_`
			`self.place = place`
			`self.placeTo = placeTo`
			`self.id = int(id)`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`self.competitionGroup = competitionGroup`
			`self.competitionClass = competitionClass`
Add finalist attribute to objects 2022-11-15 13:38:46 +00:00			`self.finalist = None`
Create importer to objects 2022-11-14 19:01:32 +00:00
			`@staticmethod`
			`def extractFromResultRow(row: ResultRow):`
			`return CompetitionResult(`
			`dance=row.dance,`
Consolidate result data 2022-11-15 09:48:50 +00:00			`group=row.group,`
Create importer to objects 2022-11-14 19:01:32 +00:00			`class_=row.class_,`
			`place=row.place, placeTo=row.placeTo,`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`id=row.id,`
			`competitionGroup=row.competitionGroup,`
			`competitionClass=row.competitionClass`
Create importer to objects 2022-11-14 19:01:32 +00:00			`)`

Consolidate result data 2022-11-15 09:48:50 +00:00			`def __repr__(self):`
			`if self.place == self.placeTo:`
			`result = f'{self.place}.'`
			`else:`
			`result = f'{self.place}.-{self.placeTo}.'`
Add finalist attribute to objects 2022-11-15 13:38:46 +00:00
			`if self.finalist == True:`
			`finalist = '[F]'`
			`else:`
			`finalist = ''`
			`return f'Result[{self.id}]({self.group} {self.class_} {self.dance} as {result}{finalist})'`
Consolidate result data 2022-11-15 09:48:50 +00:00
			`def __eq__(self, o):`
			`if not isinstance(o, CompetitionResult):`
			`return False`

			`return (`
			`self.dance == o.dance and`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`self.competitionClass == o.competitionClass and`
			`self.competitionGroup == o.competitionGroup and`
Consolidate result data 2022-11-15 09:48:50 +00:00			`self.place == o.place and self.placeTo == o.placeTo and`
			`self.id == o.id`
			`)`

Create importer to objects 2022-11-14 19:01:32 +00:00			`class CSVExtractor:`
			`def __init__(self):`
			`self.l = logging.getLogger('solo_turnier.worker')`

			`def mapCSVImport(self, imported) -> list[ResultRow]:`
			`ret = []`

			`def __processRow(row):`
			`result = ResultRow(`
Add dedicated class and group for competitions for comparirision with HTML 2022-11-15 15:50:08 +00:00			`competitionGroup=row[2],`
			`competitionClass=row[3],`
Create importer to objects 2022-11-14 19:01:32 +00:00			`dance=row[4],`
			`id=row[5],`
			`firstName=row[6], lastName=row[7],`
			`club=row[10],`
			`place=row[12], placeTo=row[13],`
			`group=row[15], class_=row[16]`
			`)`
			`ret.append(result)`

			`for row in imported['data']:`
			`__processRow(row)`

			`return ret`
Consolidate result data 2022-11-15 09:48:50 +00:00
			`class DataWorker:`
			`def __init__(self):`
			`self.l = logging.getLogger('solo_turnier.worker')`

			`def combineRowsByPerson(self, rows: list[ResultRow]) -> dict[ResultPerson, list[CompetitionResult]]:`
			`ret = {}`
			`for row in rows:`
			`result = CompetitionResult.extractFromResultRow(row)`

			`if result.place == '-' or result.placeTo == '-':`
			`continue`

			`person = ResultPerson.extractFromResultRow(row)`
			`if person not in ret:`
			`ret[person] = []`
			`ret[person].append(result)`
			`return ret`

			`def checkUniqueIds(self, data: dict[ResultPerson, list[CompetitionResult]]) -> bool:`
			`unique = True`
			`for person in data:`
			`ids = set([c.id for c in data[person]])`
			`if len(ids) == 1:`
			`person.id = list(ids)[0]`
			`else:`
			`unique = False`

			`return unique`
Extract some commin data from raw imports 2022-11-15 12:00:17 +00:00
			`"""`
			`Return a tuple`
			`The first one is True, if all persons could be unambiguously identified a group`
			`The second one is True if there was the need to override a group but it was possible to extract from other data`
			`The second one can be seen as a warning`
			`"""`
			`def consolidateGroups(self, data:dict[ResultPerson, list[CompetitionResult]]) -> tuple[bool, bool]:`
			`ambiguous = False`
			`warnChange = False`

			`unambiguousGroups = set(['Kin.', 'Jun.', 'Jug.'])`
			`combinations = set(['Kin./Jun.', 'Jun./Jug.'])`

			`for person in data:`
			`groupsRaw = set([c.group for c in data[person]])`

			`unknown = groupsRaw.difference(unambiguousGroups).difference(combinations)`
			`if len(unknown) > 0:`
			`raise Exception(f'There were unknown groups found for {person}: {unknown}')`

			`numUnambiguousGroups = len(groupsRaw.intersection(unambiguousGroups))`

			`if numUnambiguousGroups == 0:`
			`if len(groupsRaw) == 2:`
			`warnChange = True`
			`person.group = 'Jun.'`
			`else:`
			`ambiguous = True`
			`if len(groupsRaw) == 1:`
			`person.group = list(groupsRaw)[0]`

			`elif numUnambiguousGroups == 1:`
			`if len(groupsRaw.intersection(combinations)) > 0:`
			`warnChange = True`

			`person.group = list(groupsRaw.intersection(unambiguousGroups))[0]`

			`else:`
			`raise Exception(f'{person} cannot have different groups.')`

			`return (not ambiguous, warnChange)`
Extract data from HTML to allow for simpler extraction 2022-11-15 15:52:19 +00:00
			`def _createHtmlLUT(self, htmlImports: list[html_parser.HtmlImport]):`
			`ret = {}`
			`parser = html_parser.HtmlParser()`
			`for imp in htmlImports:`
			`parsed = parser.guessDataFromHtmlTitle(imp.title)`
			`key = (parsed['group'], parsed['class_'], parsed['dance'])`
			`ret[key] = imp`
			`return ret`