// Code generated by goyacc -p expr -o pkg/logql/log/pattern/expr.y.go pkg/logql/log/pattern/expr.y. DO NOT EDIT. package pattern import __yyfmt__ "fmt" type exprSymType struct { yys int Expr []node Node node literal rune Literals []rune str string token int } const IDENTIFIER = 57346 const LITERAL = 57347 const LESS_THAN = 57348 const MORE_THAN = 57349 const UNDERSCORE = 57350 var exprToknames = [...]string{ "$end", "error", "$unk", "IDENTIFIER", "LITERAL", "LESS_THAN", "MORE_THAN", "UNDERSCORE", } var exprStatenames = [...]string{} const exprEofCode = 1 const exprErrCode = 2 const exprInitialStackSize = 16 var exprExca = [...]int{ -1, 1, 1, -1, -2, 0, } const exprPrivate = 57344 const exprLast = 8 var exprAct = [...]int{ 4, 6, 8, 3, 5, 2, 7, 1, } var exprPact = [...]int{ -4, -1000, -4, -1000, -1000, -3, -1000, -1000, -1000, } var exprPgo = [...]int{ 0, 7, 5, 3, 4, } var exprR1 = [...]int{ 0, 1, 2, 2, 3, 3, 4, 4, } var exprR2 = [...]int{ 0, 1, 1, 2, 1, 1, 1, 2, } var exprChk = [...]int{ -1000, -1, -2, -3, 4, -4, 5, -3, 5, } var exprDef = [...]int{ 0, -2, 1, 2, 4, 5, 6, 3, 7, } var exprTok1 = [...]int{ 1, } var exprTok2 = [...]int{ 2, 3, 4, 5, 6, 7, 8, } var exprTok3 = [...]int{ 0, } var exprErrorMessages = [...]struct { state int token int msg string }{} /* parser for yacc output */ var ( exprDebug = 0 exprErrorVerbose = false ) type exprLexer interface { Lex(lval *exprSymType) int Error(s string) } type exprParser interface { Parse(exprLexer) int Lookahead() int } type exprParserImpl struct { lval exprSymType stack [exprInitialStackSize]exprSymType char int } func (p *exprParserImpl) Lookahead() int { return p.char } func exprNewParser() exprParser { return &exprParserImpl{} } const exprFlag = -1000 func exprTokname(c int) string { if c >= 1 && c-1 < len(exprToknames) { if exprToknames[c-1] != "" { return exprToknames[c-1] } } return __yyfmt__.Sprintf("tok-%v", c) } func exprStatname(s int) string { if s >= 0 && s < len(exprStatenames) { if exprStatenames[s] != "" { return exprStatenames[s] } } return __yyfmt__.Sprintf("state-%v", s) } func exprErrorMessage(state, lookAhead int) string { const TOKSTART = 4 if !exprErrorVerbose { return "syntax error" } for _, e := range exprErrorMessages { if e.state == state && e.token == lookAhead { return "syntax error: " + e.msg } } res := "syntax error: unexpected " + exprTokname(lookAhead) // To match Bison, suggest at most four expected tokens. expected := make([]int, 0, 4) // Look for shiftable tokens. base := exprPact[state] for tok := TOKSTART; tok-1 < len(exprToknames); tok++ { if n := base + tok; n >= 0 && n < exprLast && exprChk[exprAct[n]] == tok { if len(expected) == cap(expected) { return res } expected = append(expected, tok) } } if exprDef[state] == -2 { i := 0 for exprExca[i] != -1 || exprExca[i+1] != state { i += 2 } // Look for tokens that we accept or reduce. for i += 2; exprExca[i] >= 0; i += 2 { tok := exprExca[i] if tok < TOKSTART || exprExca[i+1] == 0 { continue } if len(expected) == cap(expected) { return res } expected = append(expected, tok) } // If the default action is to accept or reduce, give up. if exprExca[i+1] != 0 { return res } } for i, tok := range expected { if i == 0 { res += ", expecting " } else { res += " or " } res += exprTokname(tok) } return res } func exprlex1(lex exprLexer, lval *exprSymType) (char, token int) { token = 0 char = lex.Lex(lval) if char <= 0 { token = exprTok1[0] goto out } if char < len(exprTok1) { token = exprTok1[char] goto out } if char >= exprPrivate { if char < exprPrivate+len(exprTok2) { token = exprTok2[char-exprPrivate] goto out } } for i := 0; i < len(exprTok3); i += 2 { token = exprTok3[i+0] if token == char { token = exprTok3[i+1] goto out } } out: if token == 0 { token = exprTok2[1] /* unknown char */ } if exprDebug >= 3 { __yyfmt__.Printf("lex %s(%d)\n", exprTokname(token), uint(char)) } return char, token } func exprParse(exprlex exprLexer) int { return exprNewParser().Parse(exprlex) } func (exprrcvr *exprParserImpl) Parse(exprlex exprLexer) int { var exprn int var exprVAL exprSymType var exprDollar []exprSymType _ = exprDollar // silence set and not used exprS := exprrcvr.stack[:] Nerrs := 0 /* number of errors */ Errflag := 0 /* error recovery flag */ exprstate := 0 exprrcvr.char = -1 exprtoken := -1 // exprrcvr.char translated into internal numbering defer func() { // Make sure we report no lookahead when not parsing. exprstate = -1 exprrcvr.char = -1 exprtoken = -1 }() exprp := -1 goto exprstack ret0: return 0 ret1: return 1 exprstack: /* put a state and value onto the stack */ if exprDebug >= 4 { __yyfmt__.Printf("char %v in %v\n", exprTokname(exprtoken), exprStatname(exprstate)) } exprp++ if exprp >= len(exprS) { nyys := make([]exprSymType, len(exprS)*2) copy(nyys, exprS) exprS = nyys } exprS[exprp] = exprVAL exprS[exprp].yys = exprstate exprnewstate: exprn = exprPact[exprstate] if exprn <= exprFlag { goto exprdefault /* simple state */ } if exprrcvr.char < 0 { exprrcvr.char, exprtoken = exprlex1(exprlex, &exprrcvr.lval) } exprn += exprtoken if exprn < 0 || exprn >= exprLast { goto exprdefault } exprn = exprAct[exprn] if exprChk[exprn] == exprtoken { /* valid shift */ exprrcvr.char = -1 exprtoken = -1 exprVAL = exprrcvr.lval exprstate = exprn if Errflag > 0 { Errflag-- } goto exprstack } exprdefault: /* default state action */ exprn = exprDef[exprstate] if exprn == -2 { if exprrcvr.char < 0 { exprrcvr.char, exprtoken = exprlex1(exprlex, &exprrcvr.lval) } /* look through exception table */ xi := 0 for { if exprExca[xi+0] == -1 && exprExca[xi+1] == exprstate { break } xi += 2 } for xi += 2; ; xi += 2 { exprn = exprExca[xi+0] if exprn < 0 || exprn == exprtoken { break } } exprn = exprExca[xi+1] if exprn < 0 { goto ret0 } } if exprn == 0 { /* error ... attempt to resume parsing */ switch Errflag { case 0: /* brand new error */ exprlex.Error(exprErrorMessage(exprstate, exprtoken)) Nerrs++ if exprDebug >= 1 { __yyfmt__.Printf("%s", exprStatname(exprstate)) __yyfmt__.Printf(" saw %s\n", exprTokname(exprtoken)) } fallthrough case 1, 2: /* incompletely recovered error ... try again */ Errflag = 3 /* find a state where "error" is a legal shift action */ for exprp >= 0 { exprn = exprPact[exprS[exprp].yys] + exprErrCode if exprn >= 0 && exprn < exprLast { exprstate = exprAct[exprn] /* simulate a shift of "error" */ if exprChk[exprstate] == exprErrCode { goto exprstack } } /* the current p has no shift on "error", pop stack */ if exprDebug >= 2 { __yyfmt__.Printf("error recovery pops state %d\n", exprS[exprp].yys) } exprp-- } /* there is no state on the stack with an error shift ... abort */ goto ret1 case 3: /* no shift yet; clobber input char */ if exprDebug >= 2 { __yyfmt__.Printf("error recovery discards %s\n", exprTokname(exprtoken)) } if exprtoken == exprEofCode { goto ret1 } exprrcvr.char = -1 exprtoken = -1 goto exprnewstate /* try again in the same state */ } } /* reduction by production exprn */ if exprDebug >= 2 { __yyfmt__.Printf("reduce %v in:\n\t%v\n", exprn, exprStatname(exprstate)) } exprnt := exprn exprpt := exprp _ = exprpt // guard against "declared and not used" exprp -= exprR2[exprn] // exprp is now the index of $0. Perform the default action. Iff the // reduced production is ε, $1 is possibly out of range. if exprp+1 >= len(exprS) { nyys := make([]exprSymType, len(exprS)*2) copy(nyys, exprS) exprS = nyys } exprVAL = exprS[exprp+1] /* consult goto table to find next state */ exprn = exprR1[exprn] exprg := exprPgo[exprn] exprj := exprg + exprS[exprp].yys + 1 if exprj >= exprLast { exprstate = exprAct[exprg] } else { exprstate = exprAct[exprj] if exprChk[exprstate] != -exprn { exprstate = exprAct[exprg] } } // dummy call; replaced with literal code switch exprnt { case 1: exprDollar = exprS[exprpt-1 : exprpt+1] { exprlex.(*lexer).expr = exprDollar[1].Expr } case 2: exprDollar = exprS[exprpt-1 : exprpt+1] { exprVAL.Expr = []node{exprDollar[1].Node} } case 3: exprDollar = exprS[exprpt-2 : exprpt+1] { exprVAL.Expr = append(exprDollar[1].Expr, exprDollar[2].Node) } case 4: exprDollar = exprS[exprpt-1 : exprpt+1] { exprVAL.Node = capture(exprDollar[1].str) } case 5: exprDollar = exprS[exprpt-1 : exprpt+1] { exprVAL.Node = runesToLiterals(exprDollar[1].Literals) } case 6: exprDollar = exprS[exprpt-1 : exprpt+1] { exprVAL.Literals = []rune{exprDollar[1].literal} } case 7: exprDollar = exprS[exprpt-2 : exprpt+1] { exprVAL.Literals = append(exprDollar[1].Literals, exprDollar[2].literal) } } goto exprstack /* stack new state and value */ }