214 lines
6.1 KiB
Go
214 lines
6.1 KiB
Go
package spec
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import (
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"git.kmsign.ru/royalcat/repogen/internal/code"
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)
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// QuerySpec is a set of conditions of querying the database
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type QuerySpec struct {
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Operator Operator
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Predicates []Predicate
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}
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// NumberOfArguments returns number of arguments required to perform the query
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func (q QuerySpec) NumberOfArguments() int {
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var totalArgs int
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for _, predicate := range q.Predicates {
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totalArgs += predicate.Comparator.NumberOfArguments()
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}
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return totalArgs
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}
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// Operator is a boolean operator for merging conditions
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type Operator string
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// boolean operator types
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const (
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OperatorAnd Operator = "AND"
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OperatorOr Operator = "OR"
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)
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// Comparator is a comparison operator of the condition to query the data
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type Comparator string
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// comparator types
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const (
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ComparatorNot Comparator = "NOT"
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ComparatorEqual Comparator = "EQUAL"
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ComparatorLessThan Comparator = "LESS_THAN"
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ComparatorLessThanEqual Comparator = "LESS_THAN_EQUAL"
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ComparatorGreaterThan Comparator = "GREATER_THAN"
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ComparatorGreaterThanEqual Comparator = "GREATER_THAN_EQUAL"
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ComparatorBetween Comparator = "BETWEEN"
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ComparatorIn Comparator = "IN"
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ComparatorNotIn Comparator = "NOT_IN"
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ComparatorTrue Comparator = "EQUAL_TRUE"
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ComparatorFalse Comparator = "EQUAL_FALSE"
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ComparatorExists Comparator = "EXISTS"
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ComparatorNotExists Comparator = "NOT_EXISTS"
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)
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// ArgumentTypeFromFieldType returns a type of required argument from the given
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// struct field type.
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func (c Comparator) ArgumentTypeFromFieldType(t code.Type) code.Type {
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switch c {
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case ComparatorIn, ComparatorNotIn:
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return code.ArrayType{ContainedType: t}
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default:
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return t
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}
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}
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// NumberOfArguments returns the number of arguments required to perform the
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// comparison.
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func (c Comparator) NumberOfArguments() int {
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switch c {
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case ComparatorBetween:
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return 2
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case ComparatorTrue, ComparatorFalse, ComparatorExists, ComparatorNotExists:
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return 0
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default:
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return 1
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}
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}
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// Predicate is a criteria for querying a field
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type Predicate struct {
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FieldReference FieldReference
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Comparator Comparator
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ParamIndex int
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}
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type queryParser struct {
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fieldResolver fieldResolver
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StructModel code.Struct
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}
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func (p queryParser) parseQuery(rawTokens []string, paramIndex int) (QuerySpec,
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error) {
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if len(rawTokens) == 0 {
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return QuerySpec{}, ErrQueryRequired
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}
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tokens := rawTokens
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if len(tokens) == 1 && tokens[0] == "All" {
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return QuerySpec{}, nil
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}
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if tokens[0] == "By" {
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tokens = tokens[1:]
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}
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if len(tokens) == 0 {
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return QuerySpec{}, NewInvalidQueryError(rawTokens)
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}
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operator, predicateTokens, err := p.splitPredicateTokens(tokens)
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if err != nil {
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return QuerySpec{}, err
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}
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querySpec := QuerySpec{
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Operator: operator,
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}
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for _, predicateToken := range predicateTokens {
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predicate, err := p.parsePredicate(predicateToken, paramIndex)
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if err != nil {
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return QuerySpec{}, err
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}
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querySpec.Predicates = append(querySpec.Predicates, predicate)
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paramIndex += predicate.Comparator.NumberOfArguments()
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}
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return querySpec, nil
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}
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func (p queryParser) splitPredicateTokens(tokens []string) (Operator, [][]string, error) {
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var operator Operator
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var predicateTokens [][]string
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var aggregatedToken []string
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for _, token := range tokens {
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if token != "And" && token != "Or" {
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aggregatedToken = append(aggregatedToken, token)
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} else if len(aggregatedToken) == 0 {
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return "", nil, NewInvalidQueryError(tokens)
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} else if token == "And" && operator != OperatorOr {
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operator = OperatorAnd
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predicateTokens = append(predicateTokens, aggregatedToken)
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aggregatedToken = nil
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} else if token == "Or" && operator != OperatorAnd {
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operator = OperatorOr
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predicateTokens = append(predicateTokens, aggregatedToken)
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aggregatedToken = nil
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} else {
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return "", nil, NewInvalidQueryError(tokens)
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}
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}
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if len(aggregatedToken) == 0 {
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return "", nil, NewInvalidQueryError(tokens)
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}
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predicateTokens = append(predicateTokens, aggregatedToken)
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return operator, predicateTokens, nil
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}
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func (p queryParser) parsePredicate(t []string, paramIndex int) (Predicate,
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error) {
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if len(t) > 1 && t[len(t)-1] == "Not" {
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return p.createPredicate(t[:len(t)-1], ComparatorNot, paramIndex)
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}
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if len(t) > 2 && t[len(t)-2] == "Less" && t[len(t)-1] == "Than" {
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return p.createPredicate(t[:len(t)-2], ComparatorLessThan, paramIndex)
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}
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if len(t) > 3 && t[len(t)-3] == "Less" && t[len(t)-2] == "Than" && t[len(t)-1] == "Equal" {
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return p.createPredicate(t[:len(t)-3], ComparatorLessThanEqual, paramIndex)
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}
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if len(t) > 2 && t[len(t)-2] == "Greater" && t[len(t)-1] == "Than" {
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return p.createPredicate(t[:len(t)-2], ComparatorGreaterThan, paramIndex)
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}
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if len(t) > 3 && t[len(t)-3] == "Greater" && t[len(t)-2] == "Than" && t[len(t)-1] == "Equal" {
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return p.createPredicate(t[:len(t)-3], ComparatorGreaterThanEqual, paramIndex)
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}
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if len(t) > 2 && t[len(t)-2] == "Not" && t[len(t)-1] == "In" {
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return p.createPredicate(t[:len(t)-2], ComparatorNotIn, paramIndex)
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}
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if len(t) > 2 && t[len(t)-2] == "Not" && t[len(t)-1] == "Exists" {
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return p.createPredicate(t[:len(t)-2], ComparatorNotExists, paramIndex)
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}
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if len(t) > 1 && t[len(t)-1] == "In" {
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return p.createPredicate(t[:len(t)-1], ComparatorIn, paramIndex)
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}
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if len(t) > 1 && t[len(t)-1] == "Between" {
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return p.createPredicate(t[:len(t)-1], ComparatorBetween, paramIndex)
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}
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if len(t) > 1 && t[len(t)-1] == "True" {
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return p.createPredicate(t[:len(t)-1], ComparatorTrue, paramIndex)
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}
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if len(t) > 1 && t[len(t)-1] == "False" {
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return p.createPredicate(t[:len(t)-1], ComparatorFalse, paramIndex)
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}
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if len(t) > 1 && t[len(t)-1] == "Exists" {
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return p.createPredicate(t[:len(t)-1], ComparatorExists, paramIndex)
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}
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return p.createPredicate(t, ComparatorEqual, paramIndex)
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}
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func (p queryParser) createPredicate(t []string, comparator Comparator,
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paramIndex int) (Predicate, error) {
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fields, ok := p.fieldResolver.ResolveStructField(p.StructModel, t)
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if !ok {
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return Predicate{}, NewStructFieldNotFoundError(t)
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}
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return Predicate{
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FieldReference: fields,
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Comparator: comparator,
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ParamIndex: paramIndex,
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}, nil
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}
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