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חב"דטקסט
חיפוש
עריכת הדף "
יחידה:WikidataSelectors
"
אזהרה:
אינכם מחוברים לחשבון. כתובת ה־IP שלכם תוצג בפומבי אם תבצעו עריכות כלשהן. אם
תיכנסו לחשבון
או
תיצרו חשבון
, העריכות שלכם תיוחסנה לשם המשתמש שלכם ותקבלו גם יתרונות אחרים.
בדיקת אנטי־ספאם.
אין
למלא שדה זה!
local i18n = { ["errors"] = { ["rank-not-valid"] = "Некорретное значение приоритета (rank)", ["cant-parse-condition"] = "Не удалось разобрать условие" } } local validRanks = { 'best', 'preferred', 'normal', 'deprecated' } --[[ Internal function for error message Input: key in errors table Output: error message ]] local function throwError( key ) error( i18n.errors[key] ) end local p = {} --[[ Main function for parse selectors and filter statements Input: statements table, selector string Output: filtered statements table ]] function p.filter( allClaims, propertySelector ) propertySelector = mw.text.trim( propertySelector ) -- Get property ID from selector local propertyId = mw.ustring.match( propertySelector, '^[Pp]%d+' ) if not propertyId then propertyId = '' end local initPos = #propertyId + 1 propertyId = string.upper( propertyId ) if ( not allClaims ) then return nil end local allPropertyClaims = allClaims[propertyId] if ( not allPropertyClaims ) then return nil end -- Gathering rules rules = p.matchSelectors( propertySelector, initPos ) -- If there is no rank filter, than default rank is 'best' local isRanked = false for i, subRules in ipairs( rules ) do for j, rule in ipairs( subRules ) do if rule['type'] == 'rank' then isRanked = true break end end end if not isRanked then table.insert( rules, 1, { { type = 'rank', value = 'best' } } ) end -- Execute rules allPropertyClaims = p.applyRules( allPropertyClaims, rules ) return allPropertyClaims end --[[ Match and gather selector rules Input: string with selectors rules, start position Output: rules table ]] function p.matchSelectors( selectorsString, initPos ) local rules = {} local rawRulePattern = '^%s*%[%s*[^%[%]]+%s*%]%s*' local rulePattern = '^%s*%[%s*([^%[%]]+)%s*%]%s*$' if not initPos then initPos = 1 end local rawRule = mw.ustring.match( selectorsString, rawRulePattern, initPos ) while rawRule do initPos = initPos + #rawRule rule = mw.ustring.match( rawRule, rulePattern ) rule = mw.text.trim( rule ) local subRules = mw.text.split( rule, '%s*,%s*' ) local commands = {} local comm for i, subRule in ipairs( subRules ) do local isInversed = false if mw.ustring.match( subRule, '^!' ) then isInversed = true subRule = mw.ustring.match( subRule, '^!%s*(.+)$' ) end -- p123[1] if mw.ustring.match( subRule, '^%d+$' ) then table.insert( commands, { type = 'position', value = subRule, inversed = isInversed } ) -- p123[rank:preferred] elseif mw.ustring.match( subRule, '^rank%s*:%s*(%a+)$' ) then rank = mw.ustring.match( subRule, '^rank%s*:%s*(%a+)$' ) table.insert( commands, { type = 'rank', value = rank, inversed = isInversed } ) -- p123[language:xx] elseif mw.ustring.match( subRule, '^language%s*:%s*([%a%-]+)$' ) then value = mw.ustring.match( subRule, '^language%s*:%s*([%a%-]+)$' ) table.insert( commands, { type = 'language', value = value, inversed = isInversed } ) -- p123[language!:xx] elseif mw.ustring.match( subRule, '^language%s*!:%s*([%a%-]+)$' ) then value = mw.ustring.match( subRule, '^language%s*!:%s*([%a%-]+)$' ) table.insert( commands, { type = 'language', value = value, inversed = not isInversed } ) -- p123[unit:q789] elseif mw.ustring.match( subRule, '^unit%s*:%s*[^%[%],:]+$' ) then value = mw.ustring.match( subRule, ':%s*([^%[%],:]+)$' ) table.insert( commands, { type = 'unit', value = value, inversed = isInversed } ) -- p123[unit!:q789] elseif mw.ustring.match( subRule, '^unit%s*!:%s*[^%[%],:]+$' ) then value = mw.ustring.match( subRule, '!:%s*([^%[%],:]+)$' ) table.insert( commands, { type = 'unit', value = value, inversed = not isInversed } ) -- p123[p456] elseif mw.ustring.match( subRule, '^[Pp]%d+$' ) then qualifier = mw.ustring.match( subRule, '^[Pp]%d+' ) table.insert( commands, { type = 'qualifier', qualifier = qualifier, value = nil, inversed = isInversed } ) -- p123[p456:q789] elseif mw.ustring.match( subRule, '^[Pp]%d+%s*:%s*[^%[%],:]+$' ) then qualifier = mw.ustring.match( subRule, '^([Pp]%d+)%s*:?' ) value = mw.ustring.match( subRule, ':%s*([^%[%],:]+)$' ) table.insert( commands, { type = 'qualifier', qualifier = qualifier, value = value, inversed = isInversed } ) -- p123[p456!:q789] elseif mw.ustring.match( subRule, '^[Pp]%d+%s*!:%s*[^%[%],:]+$' ) then qualifier = mw.ustring.match( subRule, '^([Pp]%d+)%s*!:?' ) value = mw.ustring.match( subRule, '!:%s*([^%[%],:]+)$' ) table.insert( commands, { type = 'qualifier', qualifier = qualifier, value = value, inversed = not isInversed } ) -- p123[q456] elseif mw.ustring.match( subRule, '^[Qq]%d+$' ) then value = mw.ustring.match( subRule, '^[Qq]%d+' ) table.insert( commands, { type = 'value', value = value, inversed = isInversed } ) else throwError( 'cant-parse-condition' ) end end if #commands then table.insert( rules, commands ) end rawRule = mw.ustring.match( selectorsString, rawRulePattern, initPos ) end return rules end --[[ Intercept statements with selector rules Input: statements table, selector rules Output: filtered statements table ]] function p.applyRules( claims, rules ) for i, subRules in ipairs( rules ) do local newClaims = {} for j, rule in ipairs( subRules ) do if rule['type'] == 'rank' then table.insert( newClaims, p.filterByRank( claims, rule['value'], rule['inversed'] ) ) elseif rule['type'] == 'language' then table.insert( newClaims, p.filterByLanguage( claims, rule['value'], rule['inversed'] ) ) elseif rule['type'] == 'unit' then table.insert( newClaims, p.filterByUnit( claims, rule['value'], rule['inversed'] ) ) elseif rule['type'] == 'position' then table.insert( newClaims, p.filterByPosition( claims, rule['value'], rule['inversed'] ) ) elseif rule['type'] == 'qualifier' then table.insert( newClaims, p.filterByQualifier( claims, rule['qualifier'], rule['value'], rule['inversed'] ) ) elseif rule['type'] == 'value' then table.insert( newClaims, p.filterByValue( claims, rule['value'], rule['inversed'] ) ) end end claims = {} --[[ Merge all claims TODO: It's not good ]] for j, newSubClaims in ipairs( newClaims ) do for k, newClaim in ipairs( newSubClaims ) do local isNew = true for l, oldClaim in ipairs( claims ) do if oldClaim['id'] == newClaim['id'] then isNew = false break end end if isNew then table.insert( claims, newClaim ) end end end end return claims end --[[ Filter statements by rank Input: claims table, rank value, inversion Output: filtered statements table ]] function p.filterByRank( claims, rank, inversed ) if not inversed then inversed = false end if not rank then rank = 'best' end -- Check if rank value is valid local isValidRank = false for i, validRank in ipairs( validRanks ) do if rank == validRank then isValidRank = true break end end if not isValidRank then throwError( 'rank-not-valid' ) end -- Find the best rank if rank == 'best' then rank = 'normal' -- default rank (don't use deprecated even if it's no more claims) -- If we have at least one preferred rank, mark it as best for i, statement in pairs( claims ) do if (statement.rank == 'preferred') then rank = 'preferred' break end end end local resultClaims = {}; for i, statement in pairs( claims ) do if ( statement.rank == rank ) ~= inversed then table.insert( resultClaims, statement ) end end return resultClaims end --[[ Filter statements by language of value Input: claims table, language, inversion Output: filtered statements table ]] function p.filterByLanguage( claims, language, inversed ) if not inversed then inversed = false end local resultClaims = {} for i, statement in ipairs( claims ) do isMatchLanguage = false if statement['mainsnak'] and statement['mainsnak']['datavalue'] and statement['mainsnak']['datavalue']['value'] and statement['mainsnak']['datavalue']['value']['language'] and statement['mainsnak']['datavalue']['value']['language'] == language then isMatchLanguage = true end if isMatchLanguage ~= inversed then table.insert( resultClaims, statement ) end end return resultClaims end --[[ Filter statements by unit of value Input: claims table, unit, inversion Output: filtered statements table ]] function p.filterByUnit( claims, unit, inversed ) if not inversed then inversed = false end unit = 'http://www.wikidata.org/entity/' .. string.upper( unit ) local resultClaims = {} for i, statement in ipairs( claims ) do isMatchUnit = false mw.log(statement['mainsnak']['datavalue']['value']['unit']) if statement['mainsnak'] and statement['mainsnak']['datavalue'] and statement['mainsnak']['datavalue']['value'] and statement['mainsnak']['datavalue']['value']['unit'] and statement['mainsnak']['datavalue']['value']['unit'] == unit then isMatchUnit = true end if isMatchUnit ~= inversed then table.insert( resultClaims, statement ) break end end return resultClaims end --[[ Filter statements by position Input: claims table, position, inversion Output: filtered statements table ]] function p.filterByPosition( claims, position, inversed ) if not inversed then inversed = false end local resultClaims = {}; for statementPosition, statement in ipairs( claims ) do if ( statementPosition == tonumber( position ) ) ~= inversed then table.insert( resultClaims, statement ) break end end return resultClaims end --[[ Filter statements by qualifier existance or it's value Input: claims table, ID of qualifier's property, qualifier's value, inversion Output: filtered statements table ]] function p.filterByQualifier( claims, qualifierId, value, inversed ) if not inversed then inversed = false end qualifierId = string.upper( qualifierId ) local resultClaims = {} for i, statement in ipairs( claims ) do if statement['qualifiers'] and statement['qualifiers'][qualifierId] then if value == nil then if ( #statement['qualifiers'][qualifierId] > 0 ) ~= inversed then table.insert( resultClaims, statement ) end else local isQualifierFound = false for j, qualifier in ipairs( statement['qualifiers'][qualifierId] ) do local qualifierValue = qualifier['datavalue']['value'] if qualifier['datavalue']['type'] == 'wikibase-entityid' then qualifierValue = qualifierValue.id value = string.upper( value ) end if qualifierValue == value then isQualifierFound = true break end end if isQualifierFound ~= inversed then table.insert( resultClaims, statement ) end end elseif inversed then table.insert( resultClaims, statement ) end end return resultClaims end --[[ Filter statements by it's values Input: claims table, value, inversion Output: filtered statements table ]] function p.filterByValue( claims, value, inversed ) if not inversed then inversed = false end local resultClaims = {} for i, statement in ipairs( claims ) do local statementValue = statement['mainsnak']['datavalue']['value'] if statement['mainsnak']['datavalue']['type'] == 'wikibase-entityid' then statementValue = statementValue.id value = string.upper( value ) end if ( statementValue == value ) ~= inversed then table.insert( resultClaims, statement ) end end return resultClaims end return p
תקציר:
לתשומת ליבך: תרומתך לאתר חב"דטקסט תפורסם לפי תנאי הרישיון רישיון חופשי למסמכים של גנו גרסה 1.3 או חדשה יותר (אפשר לעיין בדף
חב"דטקסט:זכויות יוצרים
לפרטים נוספים). אם אינך רוצה שעבודתך תהיה זמינה לעריכה על־ידי אחרים, שתופץ לעיני כול, ושאחרים יוכלו להעתיק ממנה תוך ציון המקור – אין לפרסם אותה פה.
כמו־כן, שמירת העריכה משמעה הבטחה שכתבת את הטקסט הזה בעצמך או העתקת אותו ממקור בנחלת הכלל (שאינו מוגבל בזכויות יוצרים) או מקור חופשי דומה.
אין לשלוח חומר מוגבל בזכויות יוצרים ללא רשות!
ביטול
עזרה בעריכה
(נפתח בחלון חדש)
תבנית המופיעה בדף זה:
יחידה:WikidataSelectors/תיעוד
(
עריכה
)