mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-27 00:30:18 +00:00
5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
465 lines
9.9 KiB
Go
465 lines
9.9 KiB
Go
// Copyright (c) 2012-2022 The ANTLR Project. All rights reserved.
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// Use of this file is governed by the BSD 3-clause license that
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// can be found in the LICENSE.txt file in the project root.
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package antlr
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import (
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"fmt"
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"strconv"
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)
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// SemanticContext is a tree structure used to record the semantic context in which
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//
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// an ATN configuration is valid. It's either a single predicate,
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// a conjunction p1 && p2, or a sum of products p1 || p2.
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//
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// I have scoped the AND, OR, and Predicate subclasses of
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// [SemanticContext] within the scope of this outer ``class''
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type SemanticContext interface {
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Equals(other Collectable[SemanticContext]) bool
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Hash() int
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evaluate(parser Recognizer, outerContext RuleContext) bool
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evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext
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String() string
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}
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func SemanticContextandContext(a, b SemanticContext) SemanticContext {
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if a == nil || a == SemanticContextNone {
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return b
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}
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if b == nil || b == SemanticContextNone {
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return a
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}
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result := NewAND(a, b)
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if len(result.opnds) == 1 {
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return result.opnds[0]
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}
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return result
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}
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func SemanticContextorContext(a, b SemanticContext) SemanticContext {
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if a == nil {
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return b
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}
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if b == nil {
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return a
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}
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if a == SemanticContextNone || b == SemanticContextNone {
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return SemanticContextNone
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}
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result := NewOR(a, b)
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if len(result.opnds) == 1 {
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return result.opnds[0]
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}
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return result
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}
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type Predicate struct {
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ruleIndex int
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predIndex int
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isCtxDependent bool
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}
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func NewPredicate(ruleIndex, predIndex int, isCtxDependent bool) *Predicate {
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p := new(Predicate)
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p.ruleIndex = ruleIndex
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p.predIndex = predIndex
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p.isCtxDependent = isCtxDependent // e.g., $i ref in pred
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return p
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}
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//The default {@link SemanticContext}, which is semantically equivalent to
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//a predicate of the form {@code {true}?}.
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var SemanticContextNone = NewPredicate(-1, -1, false)
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func (p *Predicate) evalPrecedence(_ Recognizer, _ RuleContext) SemanticContext {
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return p
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}
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func (p *Predicate) evaluate(parser Recognizer, outerContext RuleContext) bool {
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var localctx RuleContext
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if p.isCtxDependent {
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localctx = outerContext
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}
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return parser.Sempred(localctx, p.ruleIndex, p.predIndex)
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}
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func (p *Predicate) Equals(other Collectable[SemanticContext]) bool {
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if p == other {
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return true
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} else if _, ok := other.(*Predicate); !ok {
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return false
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} else {
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return p.ruleIndex == other.(*Predicate).ruleIndex &&
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p.predIndex == other.(*Predicate).predIndex &&
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p.isCtxDependent == other.(*Predicate).isCtxDependent
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}
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}
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func (p *Predicate) Hash() int {
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h := murmurInit(0)
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h = murmurUpdate(h, p.ruleIndex)
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h = murmurUpdate(h, p.predIndex)
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if p.isCtxDependent {
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h = murmurUpdate(h, 1)
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} else {
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h = murmurUpdate(h, 0)
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}
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return murmurFinish(h, 3)
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}
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func (p *Predicate) String() string {
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return "{" + strconv.Itoa(p.ruleIndex) + ":" + strconv.Itoa(p.predIndex) + "}?"
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}
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type PrecedencePredicate struct {
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precedence int
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}
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func NewPrecedencePredicate(precedence int) *PrecedencePredicate {
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p := new(PrecedencePredicate)
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p.precedence = precedence
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return p
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}
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func (p *PrecedencePredicate) evaluate(parser Recognizer, outerContext RuleContext) bool {
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return parser.Precpred(outerContext, p.precedence)
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}
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func (p *PrecedencePredicate) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext {
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if parser.Precpred(outerContext, p.precedence) {
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return SemanticContextNone
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}
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return nil
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}
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func (p *PrecedencePredicate) compareTo(other *PrecedencePredicate) int {
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return p.precedence - other.precedence
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}
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func (p *PrecedencePredicate) Equals(other Collectable[SemanticContext]) bool {
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var op *PrecedencePredicate
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var ok bool
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if op, ok = other.(*PrecedencePredicate); !ok {
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return false
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}
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if p == op {
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return true
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}
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return p.precedence == other.(*PrecedencePredicate).precedence
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}
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func (p *PrecedencePredicate) Hash() int {
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h := uint32(1)
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h = 31*h + uint32(p.precedence)
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return int(h)
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}
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func (p *PrecedencePredicate) String() string {
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return "{" + strconv.Itoa(p.precedence) + ">=prec}?"
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}
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func PrecedencePredicatefilterPrecedencePredicates(set *JStore[SemanticContext, Comparator[SemanticContext]]) []*PrecedencePredicate {
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result := make([]*PrecedencePredicate, 0)
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set.Each(func(v SemanticContext) bool {
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if c2, ok := v.(*PrecedencePredicate); ok {
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result = append(result, c2)
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}
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return true
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})
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return result
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}
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// A semantic context which is true whenever none of the contained contexts
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// is false.`
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type AND struct {
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opnds []SemanticContext
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}
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func NewAND(a, b SemanticContext) *AND {
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operands := NewJStore[SemanticContext, Comparator[SemanticContext]](semctxEqInst, SemanticContextCollection, "NewAND() operands")
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if aa, ok := a.(*AND); ok {
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for _, o := range aa.opnds {
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operands.Put(o)
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}
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} else {
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operands.Put(a)
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}
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if ba, ok := b.(*AND); ok {
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for _, o := range ba.opnds {
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operands.Put(o)
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}
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} else {
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operands.Put(b)
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}
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precedencePredicates := PrecedencePredicatefilterPrecedencePredicates(operands)
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if len(precedencePredicates) > 0 {
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// interested in the transition with the lowest precedence
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var reduced *PrecedencePredicate
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for _, p := range precedencePredicates {
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if reduced == nil || p.precedence < reduced.precedence {
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reduced = p
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}
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}
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operands.Put(reduced)
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}
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vs := operands.Values()
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opnds := make([]SemanticContext, len(vs))
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copy(opnds, vs)
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and := new(AND)
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and.opnds = opnds
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return and
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}
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func (a *AND) Equals(other Collectable[SemanticContext]) bool {
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if a == other {
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return true
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}
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if _, ok := other.(*AND); !ok {
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return false
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} else {
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for i, v := range other.(*AND).opnds {
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if !a.opnds[i].Equals(v) {
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return false
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}
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}
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return true
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}
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}
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// {@inheritDoc}
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//
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// <p>
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// The evaluation of predicates by a context is short-circuiting, but
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// unordered.</p>
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func (a *AND) evaluate(parser Recognizer, outerContext RuleContext) bool {
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for i := 0; i < len(a.opnds); i++ {
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if !a.opnds[i].evaluate(parser, outerContext) {
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return false
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}
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}
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return true
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}
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func (a *AND) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext {
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differs := false
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operands := make([]SemanticContext, 0)
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for i := 0; i < len(a.opnds); i++ {
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context := a.opnds[i]
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evaluated := context.evalPrecedence(parser, outerContext)
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differs = differs || (evaluated != context)
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if evaluated == nil {
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// The AND context is false if any element is false
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return nil
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} else if evaluated != SemanticContextNone {
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// Reduce the result by Skipping true elements
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operands = append(operands, evaluated)
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}
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}
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if !differs {
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return a
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}
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if len(operands) == 0 {
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// all elements were true, so the AND context is true
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return SemanticContextNone
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}
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var result SemanticContext
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for _, o := range operands {
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if result == nil {
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result = o
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} else {
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result = SemanticContextandContext(result, o)
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}
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}
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return result
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}
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func (a *AND) Hash() int {
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h := murmurInit(37) // Init with a value different from OR
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for _, op := range a.opnds {
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h = murmurUpdate(h, op.Hash())
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}
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return murmurFinish(h, len(a.opnds))
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}
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func (o *OR) Hash() int {
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h := murmurInit(41) // Init with o value different from AND
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for _, op := range o.opnds {
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h = murmurUpdate(h, op.Hash())
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}
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return murmurFinish(h, len(o.opnds))
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}
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func (a *AND) String() string {
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s := ""
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for _, o := range a.opnds {
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s += "&& " + fmt.Sprint(o)
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}
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if len(s) > 3 {
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return s[0:3]
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}
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return s
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}
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//
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// A semantic context which is true whenever at least one of the contained
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// contexts is true.
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//
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type OR struct {
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opnds []SemanticContext
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}
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func NewOR(a, b SemanticContext) *OR {
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operands := NewJStore[SemanticContext, Comparator[SemanticContext]](semctxEqInst, SemanticContextCollection, "NewOR() operands")
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if aa, ok := a.(*OR); ok {
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for _, o := range aa.opnds {
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operands.Put(o)
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}
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} else {
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operands.Put(a)
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}
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if ba, ok := b.(*OR); ok {
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for _, o := range ba.opnds {
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operands.Put(o)
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}
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} else {
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operands.Put(b)
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}
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precedencePredicates := PrecedencePredicatefilterPrecedencePredicates(operands)
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if len(precedencePredicates) > 0 {
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// interested in the transition with the lowest precedence
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var reduced *PrecedencePredicate
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for _, p := range precedencePredicates {
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if reduced == nil || p.precedence > reduced.precedence {
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reduced = p
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}
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}
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operands.Put(reduced)
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}
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vs := operands.Values()
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opnds := make([]SemanticContext, len(vs))
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copy(opnds, vs)
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o := new(OR)
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o.opnds = opnds
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return o
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}
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func (o *OR) Equals(other Collectable[SemanticContext]) bool {
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if o == other {
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return true
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} else if _, ok := other.(*OR); !ok {
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return false
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} else {
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for i, v := range other.(*OR).opnds {
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if !o.opnds[i].Equals(v) {
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return false
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}
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}
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return true
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}
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}
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// <p>
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// The evaluation of predicates by o context is short-circuiting, but
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// unordered.</p>
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func (o *OR) evaluate(parser Recognizer, outerContext RuleContext) bool {
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for i := 0; i < len(o.opnds); i++ {
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if o.opnds[i].evaluate(parser, outerContext) {
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return true
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}
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}
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return false
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}
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func (o *OR) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext {
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differs := false
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operands := make([]SemanticContext, 0)
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for i := 0; i < len(o.opnds); i++ {
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context := o.opnds[i]
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evaluated := context.evalPrecedence(parser, outerContext)
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differs = differs || (evaluated != context)
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if evaluated == SemanticContextNone {
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// The OR context is true if any element is true
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return SemanticContextNone
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} else if evaluated != nil {
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// Reduce the result by Skipping false elements
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operands = append(operands, evaluated)
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}
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}
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if !differs {
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return o
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}
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if len(operands) == 0 {
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// all elements were false, so the OR context is false
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return nil
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}
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var result SemanticContext
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for _, o := range operands {
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if result == nil {
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result = o
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} else {
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result = SemanticContextorContext(result, o)
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}
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}
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return result
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}
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func (o *OR) String() string {
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s := ""
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for _, o := range o.opnds {
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s += "|| " + fmt.Sprint(o)
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}
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if len(s) > 3 {
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return s[0:3]
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}
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return s
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}
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