| /* |
| Derived from Inferno's utils/iyacc/yacc.c |
| http://code.google.com/p/inferno-os/source/browse/utils/iyacc/yacc.c |
| |
| This copyright NOTICE applies to all files in this directory and |
| subdirectories, unless another copyright notice appears in a given |
| file or subdirectory. If you take substantial code from this software to use in |
| other programs, you must somehow include with it an appropriate |
| copyright notice that includes the copyright notice and the other |
| notices below. It is fine (and often tidier) to do that in a separate |
| file such as NOTICE, LICENCE or COPYING. |
| |
| Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved. |
| Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net) |
| Portions Copyright © 1997-1999 Vita Nuova Limited |
| Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com) |
| Portions Copyright © 2004,2006 Bruce Ellis |
| Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net) |
| Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others |
| Portions Copyright © 2009 The Go Authors. All rights reserved. |
| |
| Permission is hereby granted, free of charge, to any person obtaining a copy |
| of this software and associated documentation files (the "Software"), to deal |
| in the Software without restriction, including without limitation the rights |
| to use, copy, modify, merge, publish, distribute, sublicense, and/or sell |
| copies of the Software, and to permit persons to whom the Software is |
| furnished to do so, subject to the following conditions: |
| |
| The above copyright notice and this permission notice shall be included in |
| all copies or substantial portions of the Software. |
| |
| THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR |
| IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, |
| FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE |
| AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER |
| LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, |
| OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN |
| THE SOFTWARE. |
| */ |
| |
| package main |
| |
| // yacc |
| // major difference is lack of stem ("y" variable) |
| // |
| |
| import ( |
| "bufio" |
| "bytes" |
| "flag" |
| "fmt" |
| "os" |
| "strings" |
| ) |
| |
| // the following are adjustable |
| // according to memory size |
| const ( |
| ACTSIZE = 30000 |
| NSTATES = 2000 |
| TEMPSIZE = 2000 |
| |
| SYMINC = 50 // increase for non-term or term |
| RULEINC = 50 // increase for max rule length prodptr[i] |
| PRODINC = 100 // increase for productions prodptr |
| WSETINC = 50 // increase for working sets wsets |
| STATEINC = 200 // increase for states statemem |
| |
| NAMESIZE = 50 |
| NTYPES = 63 |
| ISIZE = 400 |
| |
| PRIVATE = 0xE000 // unicode private use |
| |
| // relationships which must hold: |
| // TEMPSIZE >= NTERMS + NNONTERM + 1; |
| // TEMPSIZE >= NSTATES; |
| // |
| |
| NTBASE = 010000 |
| ERRCODE = 8190 |
| ACCEPTCODE = 8191 |
| YYLEXUNK = 3 |
| TOKSTART = 4 //index of first defined token |
| ) |
| |
| // no, left, right, binary assoc. |
| const ( |
| NOASC = iota |
| LASC |
| RASC |
| BASC |
| ) |
| |
| // flags for state generation |
| const ( |
| DONE = iota |
| MUSTDO |
| MUSTLOOKAHEAD |
| ) |
| |
| // flags for a rule having an action, and being reduced |
| const ( |
| ACTFLAG = 1 << (iota + 2) |
| REDFLAG |
| ) |
| |
| // output parser flags |
| const yyFlag = -1000 |
| |
| // parse tokens |
| const ( |
| IDENTIFIER = PRIVATE + iota |
| MARK |
| TERM |
| LEFT |
| RIGHT |
| BINARY |
| PREC |
| LCURLY |
| IDENTCOLON |
| NUMBER |
| START |
| TYPEDEF |
| TYPENAME |
| UNION |
| ) |
| |
| const ENDFILE = 0 |
| const EMPTY = 1 |
| const WHOKNOWS = 0 |
| const OK = 1 |
| const NOMORE = -1000 |
| |
| // macros for getting associativity and precedence levels |
| func ASSOC(i int) int { return i & 3 } |
| |
| func PLEVEL(i int) int { return (i >> 4) & 077 } |
| |
| func TYPE(i int) int { return (i >> 10) & 077 } |
| |
| // macros for setting associativity and precedence levels |
| func SETASC(i, j int) int { return i | j } |
| |
| func SETPLEV(i, j int) int { return i | (j << 4) } |
| |
| func SETTYPE(i, j int) int { return i | (j << 10) } |
| |
| // I/O descriptors |
| var finput *bufio.Reader // input file |
| var stderr *bufio.Writer |
| var ftable *bufio.Writer // y.go file |
| var fcode = &bytes.Buffer{} // saved code |
| var foutput *bufio.Writer // y.output file |
| |
| var oflag string // -o [y.go] - y.go file |
| var vflag string // -v [y.output] - y.output file |
| var lflag bool // -l - disable line directives |
| var prefix string // name prefix for identifiers, default yy |
| |
| func init() { |
| flag.StringVar(&oflag, "o", "y.go", "parser output") |
| flag.StringVar(&prefix, "p", "yy", "name prefix to use in generated code") |
| flag.StringVar(&vflag, "v", "y.output", "create parsing tables") |
| flag.BoolVar(&lflag, "l", false, "disable line directives") |
| } |
| |
| var stacksize = 200 |
| |
| // communication variables between various I/O routines |
| var infile string // input file name |
| var numbval int // value of an input number |
| var tokname string // input token name, slop for runes and 0 |
| var tokflag = false |
| |
| // structure declarations |
| type Lkset []int |
| |
| type Pitem struct { |
| prod []int |
| off int // offset within the production |
| first int // first term or non-term in item |
| prodno int // production number for sorting |
| } |
| |
| type Item struct { |
| pitem Pitem |
| look Lkset |
| } |
| |
| type Symb struct { |
| name string |
| value int |
| } |
| |
| type Wset struct { |
| pitem Pitem |
| flag int |
| ws Lkset |
| } |
| |
| // storage of types |
| var ntypes int // number of types defined |
| var typeset [NTYPES]string // pointers to type tags |
| |
| // token information |
| |
| var ntokens = 0 // number of tokens |
| var tokset []Symb |
| var toklev []int // vector with the precedence of the terminals |
| |
| // nonterminal information |
| |
| var nnonter = -1 // the number of nonterminals |
| var nontrst []Symb |
| var start int // start symbol |
| |
| // state information |
| |
| var nstate = 0 // number of states |
| var pstate = make([]int, NSTATES+2) // index into statemem to the descriptions of the states |
| var statemem []Item |
| var tystate = make([]int, NSTATES) // contains type information about the states |
| var tstates []int // states generated by terminal gotos |
| var ntstates []int // states generated by nonterminal gotos |
| var mstates = make([]int, NSTATES) // chain of overflows of term/nonterm generation lists |
| var lastred int // number of last reduction of a state |
| var defact = make([]int, NSTATES) // default actions of states |
| |
| // lookahead set information |
| |
| var lkst []Lkset |
| var nolook = 0 // flag to turn off lookahead computations |
| var tbitset = 0 // size of lookahead sets |
| var clset Lkset // temporary storage for lookahead computations |
| |
| // working set information |
| |
| var wsets []Wset |
| var cwp int |
| |
| // storage for action table |
| |
| var amem []int // action table storage |
| var memp int // next free action table position |
| var indgo = make([]int, NSTATES) // index to the stored goto table |
| |
| // temporary vector, indexable by states, terms, or ntokens |
| |
| var temp1 = make([]int, TEMPSIZE) // temporary storage, indexed by terms + ntokens or states |
| var lineno = 1 // current input line number |
| var fatfl = 1 // if on, error is fatal |
| var nerrors = 0 // number of errors |
| |
| // assigned token type values |
| |
| var extval = 0 |
| |
| // grammar rule information |
| |
| var nprod = 1 // number of productions |
| var prdptr [][]int // pointers to descriptions of productions |
| var levprd []int // precedence levels for the productions |
| var rlines []int // line number for this rule |
| |
| // statistics collection variables |
| |
| var zzgoent = 0 |
| var zzgobest = 0 |
| var zzacent = 0 |
| var zzexcp = 0 |
| var zzclose = 0 |
| var zzrrconf = 0 |
| var zzsrconf = 0 |
| var zzstate = 0 |
| |
| // optimizer arrays |
| |
| var yypgo [][]int |
| var optst [][]int |
| var ggreed []int |
| var pgo []int |
| |
| var maxspr int // maximum spread of any entry |
| var maxoff int // maximum offset into a array |
| var maxa int |
| |
| // storage for information about the nonterminals |
| |
| var pres [][][]int // vector of pointers to productions yielding each nonterminal |
| var pfirst []Lkset |
| var pempty []int // vector of nonterminals nontrivially deriving e |
| |
| // random stuff picked out from between functions |
| |
| var indebug = 0 // debugging flag for cpfir |
| var pidebug = 0 // debugging flag for putitem |
| var gsdebug = 0 // debugging flag for stagen |
| var cldebug = 0 // debugging flag for closure |
| var pkdebug = 0 // debugging flag for apack |
| var g2debug = 0 // debugging for go2gen |
| var adb = 0 // debugging for callopt |
| |
| type Resrv struct { |
| name string |
| value int |
| } |
| |
| var resrv = []Resrv{ |
| {"binary", BINARY}, |
| {"left", LEFT}, |
| {"nonassoc", BINARY}, |
| {"prec", PREC}, |
| {"right", RIGHT}, |
| {"start", START}, |
| {"term", TERM}, |
| {"token", TERM}, |
| {"type", TYPEDEF}, |
| {"union", UNION}, |
| {"struct", UNION}, |
| } |
| |
| var zznewstate = 0 |
| |
| const EOF = -1 |
| const UTFmax = 0x3f |
| |
| func main() { |
| |
| setup() // initialize and read productions |
| |
| tbitset = (ntokens + 32) / 32 |
| cpres() // make table of which productions yield a given nonterminal |
| cempty() // make a table of which nonterminals can match the empty string |
| cpfir() // make a table of firsts of nonterminals |
| |
| stagen() // generate the states |
| |
| yypgo = make([][]int, nnonter+1) |
| optst = make([][]int, nstate) |
| output() // write the states and the tables |
| go2out() |
| |
| hideprod() |
| summary() |
| |
| callopt() |
| |
| others() |
| |
| exit(0) |
| } |
| |
| func setup() { |
| var j, ty int |
| |
| stderr = bufio.NewWriter(os.NewFile(2, "stderr")) |
| foutput = nil |
| |
| flag.Parse() |
| if flag.NArg() != 1 { |
| usage() |
| } |
| if stacksize < 1 { |
| // never set so cannot happen |
| fmt.Fprintf(stderr, "yacc: stack size too small\n") |
| usage() |
| } |
| yaccpar = strings.Replace(yaccpartext, "$$", prefix, -1) |
| openup() |
| |
| defin(0, "$end") |
| extval = PRIVATE // tokens start in unicode 'private use' |
| defin(0, "error") |
| defin(1, "$accept") |
| defin(0, "$unk") |
| i := 0 |
| |
| t := gettok() |
| |
| outer: |
| for { |
| switch t { |
| default: |
| errorf("syntax error tok=%v", t-PRIVATE) |
| |
| case MARK, ENDFILE: |
| break outer |
| |
| case ';': |
| |
| case START: |
| t = gettok() |
| if t != IDENTIFIER { |
| errorf("bad %%start construction") |
| } |
| start = chfind(1, tokname) |
| |
| case TYPEDEF: |
| t = gettok() |
| if t != TYPENAME { |
| errorf("bad syntax in %%type") |
| } |
| ty = numbval |
| for { |
| t = gettok() |
| switch t { |
| case IDENTIFIER: |
| t = chfind(1, tokname) |
| if t < NTBASE { |
| j = TYPE(toklev[t]) |
| if j != 0 && j != ty { |
| errorf("type redeclaration of token %s", |
| tokset[t].name) |
| } else { |
| toklev[t] = SETTYPE(toklev[t], ty) |
| } |
| } else { |
| j = nontrst[t-NTBASE].value |
| if j != 0 && j != ty { |
| errorf("type redeclaration of nonterminal %v", |
| nontrst[t-NTBASE].name) |
| } else { |
| nontrst[t-NTBASE].value = ty |
| } |
| } |
| continue |
| |
| case ',': |
| continue |
| } |
| break |
| } |
| continue |
| |
| case UNION: |
| cpyunion() |
| |
| case LEFT, BINARY, RIGHT, TERM: |
| // nonzero means new prec. and assoc. |
| lev := t - TERM |
| if lev != 0 { |
| i++ |
| } |
| ty = 0 |
| |
| // get identifiers so defined |
| t = gettok() |
| |
| // there is a type defined |
| if t == TYPENAME { |
| ty = numbval |
| t = gettok() |
| } |
| for { |
| switch t { |
| case ',': |
| t = gettok() |
| continue |
| |
| case ';': |
| break |
| |
| case IDENTIFIER: |
| j = chfind(0, tokname) |
| if j >= NTBASE { |
| errorf("%v defined earlier as nonterminal", tokname) |
| } |
| if lev != 0 { |
| if ASSOC(toklev[j]) != 0 { |
| errorf("redeclaration of precedence of %v", tokname) |
| } |
| toklev[j] = SETASC(toklev[j], lev) |
| toklev[j] = SETPLEV(toklev[j], i) |
| } |
| if ty != 0 { |
| if TYPE(toklev[j]) != 0 { |
| errorf("redeclaration of type of %v", tokname) |
| } |
| toklev[j] = SETTYPE(toklev[j], ty) |
| } |
| t = gettok() |
| if t == NUMBER { |
| tokset[j].value = numbval |
| t = gettok() |
| } |
| |
| continue |
| } |
| break |
| } |
| continue |
| |
| case LCURLY: |
| cpycode() |
| } |
| t = gettok() |
| } |
| |
| if t == ENDFILE { |
| errorf("unexpected EOF before %%") |
| } |
| |
| // put out non-literal terminals |
| for i := TOKSTART; i <= ntokens; i++ { |
| // non-literals |
| c := tokset[i].name[0] |
| if c != ' ' && c != '$' { |
| fmt.Fprintf(ftable, "const %v = %v\n", tokset[i].name, tokset[i].value) |
| } |
| } |
| |
| // put out names of token names |
| ftable.WriteRune('\n') |
| fmt.Fprintf(ftable, "var %sToknames = []string{\n", prefix) |
| for i := TOKSTART; i <= ntokens; i++ { |
| fmt.Fprintf(ftable, "\t\"%v\",\n", tokset[i].name) |
| } |
| fmt.Fprintf(ftable, "}\n") |
| |
| // put out names of state names |
| fmt.Fprintf(ftable, "var %sStatenames = []string{", prefix) |
| // for i:=TOKSTART; i<=ntokens; i++ { |
| // fmt.Fprintf(ftable, "\t\"%v\",\n", tokset[i].name); |
| // } |
| fmt.Fprintf(ftable, "}\n") |
| |
| fmt.Fprintf(fcode, "switch %snt {\n", prefix) |
| |
| moreprod() |
| prdptr[0] = []int{NTBASE, start, 1, 0} |
| |
| nprod = 1 |
| curprod := make([]int, RULEINC) |
| t = gettok() |
| if t != IDENTCOLON { |
| errorf("bad syntax on first rule") |
| } |
| |
| if start == 0 { |
| prdptr[0][1] = chfind(1, tokname) |
| } |
| |
| // read rules |
| // put into prdptr array in the format |
| // target |
| // followed by id's of terminals and non-terminals |
| // followed by -nprod |
| |
| for t != MARK && t != ENDFILE { |
| mem := 0 |
| |
| // process a rule |
| rlines[nprod] = lineno |
| if t == '|' { |
| curprod[mem] = prdptr[nprod-1][0] |
| mem++ |
| } else if t == IDENTCOLON { |
| curprod[mem] = chfind(1, tokname) |
| if curprod[mem] < NTBASE { |
| errorf("token illegal on LHS of grammar rule") |
| } |
| mem++ |
| } else { |
| errorf("illegal rule: missing semicolon or | ?") |
| } |
| |
| // read rule body |
| t = gettok() |
| for { |
| for t == IDENTIFIER { |
| curprod[mem] = chfind(1, tokname) |
| if curprod[mem] < NTBASE { |
| levprd[nprod] = toklev[curprod[mem]] |
| } |
| mem++ |
| if mem >= len(curprod) { |
| ncurprod := make([]int, mem+RULEINC) |
| copy(ncurprod, curprod) |
| curprod = ncurprod |
| } |
| t = gettok() |
| } |
| if t == PREC { |
| if gettok() != IDENTIFIER { |
| errorf("illegal %%prec syntax") |
| } |
| j = chfind(2, tokname) |
| if j >= NTBASE { |
| errorf("nonterminal " + nontrst[j-NTBASE].name + " illegal after %%prec") |
| } |
| levprd[nprod] = toklev[j] |
| t = gettok() |
| } |
| if t != '=' { |
| break |
| } |
| levprd[nprod] |= ACTFLAG |
| fmt.Fprintf(fcode, "\n\tcase %v:", nprod) |
| cpyact(curprod, mem) |
| |
| // action within rule... |
| t = gettok() |
| if t == IDENTIFIER { |
| // make it a nonterminal |
| j = chfind(1, fmt.Sprintf("$$%v", nprod)) |
| |
| // |
| // the current rule will become rule number nprod+1 |
| // enter null production for action |
| // |
| prdptr[nprod] = make([]int, 2) |
| prdptr[nprod][0] = j |
| prdptr[nprod][1] = -nprod |
| |
| // update the production information |
| nprod++ |
| moreprod() |
| levprd[nprod] = levprd[nprod-1] & ^ACTFLAG |
| levprd[nprod-1] = ACTFLAG |
| rlines[nprod] = lineno |
| |
| // make the action appear in the original rule |
| curprod[mem] = j |
| mem++ |
| if mem >= len(curprod) { |
| ncurprod := make([]int, mem+RULEINC) |
| copy(ncurprod, curprod) |
| curprod = ncurprod |
| } |
| } |
| } |
| |
| for t == ';' { |
| t = gettok() |
| } |
| curprod[mem] = -nprod |
| mem++ |
| |
| // check that default action is reasonable |
| if ntypes != 0 && (levprd[nprod]&ACTFLAG) == 0 && |
| nontrst[curprod[0]-NTBASE].value != 0 { |
| // no explicit action, LHS has value |
| tempty := curprod[1] |
| if tempty < 0 { |
| errorf("must return a value, since LHS has a type") |
| } |
| if tempty >= NTBASE { |
| tempty = nontrst[tempty-NTBASE].value |
| } else { |
| tempty = TYPE(toklev[tempty]) |
| } |
| if tempty != nontrst[curprod[0]-NTBASE].value { |
| errorf("default action causes potential type clash") |
| } |
| fmt.Fprintf(fcode, "\n\tcase %v:", nprod) |
| fmt.Fprintf(fcode, "\n\t\t%sVAL.%v = %sS[%spt-0].%v", |
| prefix, typeset[tempty], prefix, prefix, typeset[tempty]) |
| } |
| moreprod() |
| prdptr[nprod] = make([]int, mem) |
| copy(prdptr[nprod], curprod) |
| nprod++ |
| moreprod() |
| levprd[nprod] = 0 |
| } |
| |
| // |
| // end of all rules |
| // dump out the prefix code |
| // |
| |
| fmt.Fprintf(fcode, "\n\t}") |
| |
| ftable.WriteRune('\n') |
| fmt.Fprintf(ftable, "const %sEofCode = 1\n", prefix) |
| fmt.Fprintf(ftable, "const %sErrCode = 2\n", prefix) |
| fmt.Fprintf(ftable, "const %sMaxDepth = %v\n", prefix, stacksize) |
| |
| // |
| // copy any postfix code |
| // |
| if t == MARK { |
| if !lflag { |
| fmt.Fprintf(ftable, "\n//line %v:%v\n", infile, lineno) |
| } |
| for { |
| c := getrune(finput) |
| if c == EOF { |
| break |
| } |
| ftable.WriteRune(c) |
| } |
| } |
| } |
| |
| // |
| // allocate enough room to hold another production |
| // |
| func moreprod() { |
| n := len(prdptr) |
| if nprod >= n { |
| nn := n + PRODINC |
| aprod := make([][]int, nn) |
| alevprd := make([]int, nn) |
| arlines := make([]int, nn) |
| |
| copy(aprod, prdptr) |
| copy(alevprd, levprd) |
| copy(arlines, rlines) |
| |
| prdptr = aprod |
| levprd = alevprd |
| rlines = arlines |
| } |
| } |
| |
| // |
| // define s to be a terminal if t=0 |
| // or a nonterminal if t=1 |
| // |
| func defin(nt int, s string) int { |
| val := 0 |
| if nt != 0 { |
| nnonter++ |
| if nnonter >= len(nontrst) { |
| anontrst := make([]Symb, nnonter+SYMINC) |
| copy(anontrst, nontrst) |
| nontrst = anontrst |
| } |
| nontrst[nnonter] = Symb{s, 0} |
| return NTBASE + nnonter |
| } |
| |
| // must be a token |
| ntokens++ |
| if ntokens >= len(tokset) { |
| nn := ntokens + SYMINC |
| atokset := make([]Symb, nn) |
| atoklev := make([]int, nn) |
| |
| copy(atoklev, toklev) |
| copy(atokset, tokset) |
| |
| tokset = atokset |
| toklev = atoklev |
| } |
| tokset[ntokens].name = s |
| toklev[ntokens] = 0 |
| |
| // establish value for token |
| // single character literal |
| if s[0] == ' ' && len(s) == 1+1 { |
| val = int(s[1]) |
| } else if s[0] == ' ' && s[1] == '\\' { // escape sequence |
| if len(s) == 2+1 { |
| // single character escape sequence |
| switch s[2] { |
| case '\'': |
| val = '\'' |
| case '"': |
| val = '"' |
| case '\\': |
| val = '\\' |
| case 'a': |
| val = '\a' |
| case 'b': |
| val = '\b' |
| case 'n': |
| val = '\n' |
| case 'r': |
| val = '\r' |
| case 't': |
| val = '\t' |
| case 'v': |
| val = '\v' |
| default: |
| errorf("invalid escape %v", s[1:3]) |
| } |
| } else if s[2] == 'u' && len(s) == 2+1+4 { // \unnnn sequence |
| val = 0 |
| s = s[3:] |
| for s != "" { |
| c := int(s[0]) |
| switch { |
| case c >= '0' && c <= '9': |
| c -= '0' |
| case c >= 'a' && c <= 'f': |
| c -= 'a' - 10 |
| case c >= 'A' && c <= 'F': |
| c -= 'A' - 10 |
| default: |
| errorf("illegal \\unnnn construction") |
| } |
| val = val*16 + c |
| s = s[1:] |
| } |
| if val == 0 { |
| errorf("'\\u0000' is illegal") |
| } |
| } else { |
| errorf("unknown escape") |
| } |
| } else { |
| val = extval |
| extval++ |
| } |
| |
| tokset[ntokens].value = val |
| return ntokens |
| } |
| |
| var peekline = 0 |
| |
| func gettok() int { |
| var i int |
| var match, c rune |
| |
| tokname = "" |
| for { |
| lineno += peekline |
| peekline = 0 |
| c = getrune(finput) |
| for c == ' ' || c == '\n' || c == '\t' || c == '\v' || c == '\r' { |
| if c == '\n' { |
| lineno++ |
| } |
| c = getrune(finput) |
| } |
| |
| // skip comment -- fix |
| if c != '/' { |
| break |
| } |
| lineno += skipcom() |
| } |
| |
| switch c { |
| case EOF: |
| if tokflag { |
| fmt.Printf(">>> ENDFILE %v\n", lineno) |
| } |
| return ENDFILE |
| |
| case '{': |
| ungetrune(finput, c) |
| if tokflag { |
| fmt.Printf(">>> ={ %v\n", lineno) |
| } |
| return '=' |
| |
| case '<': |
| // get, and look up, a type name (union member name) |
| c = getrune(finput) |
| for c != '>' && c != EOF && c != '\n' { |
| tokname += string(c) |
| c = getrune(finput) |
| } |
| |
| if c != '>' { |
| errorf("unterminated < ... > clause") |
| } |
| |
| for i = 1; i <= ntypes; i++ { |
| if typeset[i] == tokname { |
| numbval = i |
| if tokflag { |
| fmt.Printf(">>> TYPENAME old <%v> %v\n", tokname, lineno) |
| } |
| return TYPENAME |
| } |
| } |
| ntypes++ |
| numbval = ntypes |
| typeset[numbval] = tokname |
| if tokflag { |
| fmt.Printf(">>> TYPENAME new <%v> %v\n", tokname, lineno) |
| } |
| return TYPENAME |
| |
| case '"', '\'': |
| match = c |
| tokname = " " |
| for { |
| c = getrune(finput) |
| if c == '\n' || c == EOF { |
| errorf("illegal or missing ' or \"") |
| } |
| if c == '\\' { |
| tokname += string('\\') |
| c = getrune(finput) |
| } else if c == match { |
| if tokflag { |
| fmt.Printf(">>> IDENTIFIER \"%v\" %v\n", tokname, lineno) |
| } |
| return IDENTIFIER |
| } |
| tokname += string(c) |
| } |
| |
| case '%': |
| c = getrune(finput) |
| switch c { |
| case '%': |
| if tokflag { |
| fmt.Printf(">>> MARK %%%% %v\n", lineno) |
| } |
| return MARK |
| case '=': |
| if tokflag { |
| fmt.Printf(">>> PREC %%= %v\n", lineno) |
| } |
| return PREC |
| case '{': |
| if tokflag { |
| fmt.Printf(">>> LCURLY %%{ %v\n", lineno) |
| } |
| return LCURLY |
| } |
| |
| getword(c) |
| // find a reserved word |
| for i := range resrv { |
| if tokname == resrv[i].name { |
| if tokflag { |
| fmt.Printf(">>> %%%v %v %v\n", tokname, |
| resrv[i].value-PRIVATE, lineno) |
| } |
| return resrv[i].value |
| } |
| } |
| errorf("invalid escape, or illegal reserved word: %v", tokname) |
| |
| case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9': |
| numbval = int(c - '0') |
| for { |
| c = getrune(finput) |
| if !isdigit(c) { |
| break |
| } |
| numbval = numbval*10 + int(c-'0') |
| } |
| ungetrune(finput, c) |
| if tokflag { |
| fmt.Printf(">>> NUMBER %v %v\n", numbval, lineno) |
| } |
| return NUMBER |
| |
| default: |
| if isword(c) || c == '.' || c == '$' { |
| getword(c) |
| break |
| } |
| if tokflag { |
| fmt.Printf(">>> OPERATOR %v %v\n", string(c), lineno) |
| } |
| return int(c) |
| } |
| |
| // look ahead to distinguish IDENTIFIER from IDENTCOLON |
| c = getrune(finput) |
| for c == ' ' || c == '\t' || c == '\n' || c == '\v' || c == '\r' || c == '/' { |
| if c == '\n' { |
| peekline++ |
| } |
| // look for comments |
| if c == '/' { |
| peekline += skipcom() |
| } |
| c = getrune(finput) |
| } |
| if c == ':' { |
| if tokflag { |
| fmt.Printf(">>> IDENTCOLON %v: %v\n", tokname, lineno) |
| } |
| return IDENTCOLON |
| } |
| |
| ungetrune(finput, c) |
| if tokflag { |
| fmt.Printf(">>> IDENTIFIER %v %v\n", tokname, lineno) |
| } |
| return IDENTIFIER |
| } |
| |
| func getword(c rune) { |
| tokname = "" |
| for isword(c) || isdigit(c) || c == '_' || c == '.' || c == '$' { |
| tokname += string(c) |
| c = getrune(finput) |
| } |
| ungetrune(finput, c) |
| } |
| |
| // |
| // determine the type of a symbol |
| // |
| func fdtype(t int) int { |
| var v int |
| var s string |
| |
| if t >= NTBASE { |
| v = nontrst[t-NTBASE].value |
| s = nontrst[t-NTBASE].name |
| } else { |
| v = TYPE(toklev[t]) |
| s = tokset[t].name |
| } |
| if v <= 0 { |
| errorf("must specify type for %v", s) |
| } |
| return v |
| } |
| |
| func chfind(t int, s string) int { |
| if s[0] == ' ' { |
| t = 0 |
| } |
| for i := 0; i <= ntokens; i++ { |
| if s == tokset[i].name { |
| return i |
| } |
| } |
| for i := 0; i <= nnonter; i++ { |
| if s == nontrst[i].name { |
| return NTBASE + i |
| } |
| } |
| |
| // cannot find name |
| if t > 1 { |
| errorf("%v should have been defined earlier", s) |
| } |
| return defin(t, s) |
| } |
| |
| // |
| // copy the union declaration to the output, and the define file if present |
| // |
| func cpyunion() { |
| |
| if !lflag { |
| fmt.Fprintf(ftable, "\n//line %v:%v\n", infile, lineno) |
| } |
| fmt.Fprintf(ftable, "type %sSymType struct", prefix) |
| |
| level := 0 |
| |
| out: |
| for { |
| c := getrune(finput) |
| if c == EOF { |
| errorf("EOF encountered while processing %%union") |
| } |
| ftable.WriteRune(c) |
| switch c { |
| case '\n': |
| lineno++ |
| case '{': |
| if level == 0 { |
| fmt.Fprintf(ftable, "\n\tyys int") |
| } |
| level++ |
| case '}': |
| level-- |
| if level == 0 { |
| break out |
| } |
| } |
| } |
| fmt.Fprintf(ftable, "\n\n") |
| } |
| |
| // |
| // saves code between %{ and %} |
| // |
| func cpycode() { |
| lno := lineno |
| |
| c := getrune(finput) |
| if c == '\n' { |
| c = getrune(finput) |
| lineno++ |
| } |
| if !lflag { |
| fmt.Fprintf(ftable, "\n//line %v:%v\n", infile, lineno) |
| } |
| for c != EOF { |
| if c == '%' { |
| c = getrune(finput) |
| if c == '}' { |
| return |
| } |
| ftable.WriteRune('%') |
| } |
| ftable.WriteRune(c) |
| if c == '\n' { |
| lineno++ |
| } |
| c = getrune(finput) |
| } |
| lineno = lno |
| errorf("eof before %%}") |
| } |
| |
| // |
| // skip over comments |
| // skipcom is called after reading a '/' |
| // |
| func skipcom() int { |
| var c rune |
| |
| c = getrune(finput) |
| if c == '/' { |
| for c != EOF { |
| if c == '\n' { |
| return 1 |
| } |
| c = getrune(finput) |
| } |
| errorf("EOF inside comment") |
| return 0 |
| } |
| if c != '*' { |
| errorf("illegal comment") |
| } |
| |
| nl := 0 // lines skipped |
| c = getrune(finput) |
| |
| l1: |
| switch c { |
| case '*': |
| c = getrune(finput) |
| if c == '/' { |
| break |
| } |
| goto l1 |
| |
| case '\n': |
| nl++ |
| fallthrough |
| |
| default: |
| c = getrune(finput) |
| goto l1 |
| } |
| return nl |
| } |
| |
| func dumpprod(curprod []int, max int) { |
| fmt.Printf("\n") |
| for i := 0; i < max; i++ { |
| p := curprod[i] |
| if p < 0 { |
| fmt.Printf("[%v] %v\n", i, p) |
| } else { |
| fmt.Printf("[%v] %v\n", i, symnam(p)) |
| } |
| } |
| } |
| |
| // |
| // copy action to the next ; or closing } |
| // |
| func cpyact(curprod []int, max int) { |
| |
| if !lflag { |
| fmt.Fprintf(fcode, "\n\t\t//line %v:%v\n\t\t", infile, lineno) |
| } |
| |
| lno := lineno |
| brac := 0 |
| |
| loop: |
| for { |
| c := getrune(finput) |
| |
| swt: |
| switch c { |
| case ';': |
| if brac == 0 { |
| fcode.WriteRune(c) |
| return |
| } |
| |
| case '{': |
| if brac == 0 { |
| } |
| brac++ |
| |
| case '$': |
| s := 1 |
| tok := -1 |
| c = getrune(finput) |
| |
| // type description |
| if c == '<' { |
| ungetrune(finput, c) |
| if gettok() != TYPENAME { |
| errorf("bad syntax on $<ident> clause") |
| } |
| tok = numbval |
| c = getrune(finput) |
| } |
| if c == '$' { |
| fmt.Fprintf(fcode, "%sVAL", prefix) |
| |
| // put out the proper tag... |
| if ntypes != 0 { |
| if tok < 0 { |
| tok = fdtype(curprod[0]) |
| } |
| fmt.Fprintf(fcode, ".%v", typeset[tok]) |
| } |
| continue loop |
| } |
| if c == '-' { |
| s = -s |
| c = getrune(finput) |
| } |
| j := 0 |
| if isdigit(c) { |
| for isdigit(c) { |
| j = j*10 + int(c-'0') |
| c = getrune(finput) |
| } |
| ungetrune(finput, c) |
| j = j * s |
| if j >= max { |
| errorf("Illegal use of $%v", j) |
| } |
| } else if isword(c) || c == '_' || c == '.' { |
| // look for $name |
| ungetrune(finput, c) |
| if gettok() != IDENTIFIER { |
| errorf("$ must be followed by an identifier") |
| } |
| tokn := chfind(2, tokname) |
| fnd := -1 |
| c = getrune(finput) |
| if c != '@' { |
| ungetrune(finput, c) |
| } else if gettok() != NUMBER { |
| errorf("@ must be followed by number") |
| } else { |
| fnd = numbval |
| } |
| for j = 1; j < max; j++ { |
| if tokn == curprod[j] { |
| fnd-- |
| if fnd <= 0 { |
| break |
| } |
| } |
| } |
| if j >= max { |
| errorf("$name or $name@number not found") |
| } |
| } else { |
| fcode.WriteRune('$') |
| if s < 0 { |
| fcode.WriteRune('-') |
| } |
| ungetrune(finput, c) |
| continue loop |
| } |
| fmt.Fprintf(fcode, "%sS[%spt-%v]", prefix, prefix, max-j-1) |
| |
| // put out the proper tag |
| if ntypes != 0 { |
| if j <= 0 && tok < 0 { |
| errorf("must specify type of $%v", j) |
| } |
| if tok < 0 { |
| tok = fdtype(curprod[j]) |
| } |
| fmt.Fprintf(fcode, ".%v", typeset[tok]) |
| } |
| continue loop |
| |
| case '}': |
| brac-- |
| if brac != 0 { |
| break |
| } |
| fcode.WriteRune(c) |
| return |
| |
| case '/': |
| nc := getrune(finput) |
| if nc != '/' && nc != '*' { |
| ungetrune(finput, nc) |
| break |
| } |
| // a comment |
| fcode.WriteRune(c) |
| fcode.WriteRune(nc) |
| c = getrune(finput) |
| for c != EOF { |
| switch { |
| case c == '\n': |
| lineno++ |
| if nc == '/' { // end of // comment |
| break swt |
| } |
| case c == '*' && nc == '*': // end of /* comment? |
| nnc := getrune(finput) |
| if nnc == '/' { |
| fcode.WriteRune('*') |
| fcode.WriteRune('/') |
| c = getrune(finput) |
| break swt |
| } |
| ungetrune(finput, nnc) |
| } |
| fcode.WriteRune(c) |
| c = getrune(finput) |
| } |
| errorf("EOF inside comment") |
| |
| case '\'', '"': |
| // character string or constant |
| match := c |
| fcode.WriteRune(c) |
| c = getrune(finput) |
| for c != EOF { |
| if c == '\\' { |
| fcode.WriteRune(c) |
| c = getrune(finput) |
| if c == '\n' { |
| lineno++ |
| } |
| } else if c == match { |
| break swt |
| } |
| if c == '\n' { |
| errorf("newline in string or char const") |
| } |
| fcode.WriteRune(c) |
| c = getrune(finput) |
| } |
| errorf("EOF in string or character constant") |
| |
| case EOF: |
| lineno = lno |
| errorf("action does not terminate") |
| |
| case '\n': |
| fmt.Fprint(fcode, "\n\t") |
| lineno++ |
| continue loop |
| } |
| |
| fcode.WriteRune(c) |
| } |
| } |
| |
| func openup() { |
| infile = flag.Arg(0) |
| finput = open(infile) |
| if finput == nil { |
| errorf("cannot open %v", infile) |
| } |
| |
| foutput = nil |
| if vflag != "" { |
| foutput = create(vflag) |
| if foutput == nil { |
| errorf("can't create file %v", vflag) |
| } |
| } |
| |
| ftable = nil |
| if oflag == "" { |
| oflag = "y.go" |
| } |
| ftable = create(oflag) |
| if ftable == nil { |
| errorf("can't create file %v", oflag) |
| } |
| |
| } |
| |
| // |
| // return a pointer to the name of symbol i |
| // |
| func symnam(i int) string { |
| var s string |
| |
| if i >= NTBASE { |
| s = nontrst[i-NTBASE].name |
| } else { |
| s = tokset[i].name |
| } |
| if s[0] == ' ' { |
| s = s[1:] |
| } |
| return s |
| } |
| |
| // |
| // set elements 0 through n-1 to c |
| // |
| func aryfil(v []int, n, c int) { |
| for i := 0; i < n; i++ { |
| v[i] = c |
| } |
| } |
| |
| // |
| // compute an array with the beginnings of productions yielding given nonterminals |
| // The array pres points to these lists |
| // the array pyield has the lists: the total size is only NPROD+1 |
| // |
| func cpres() { |
| pres = make([][][]int, nnonter+1) |
| curres := make([][]int, nprod) |
| |
| if false { |
| for j := 0; j <= nnonter; j++ { |
| fmt.Printf("nnonter[%v] = %v\n", j, nontrst[j].name) |
| } |
| for j := 0; j < nprod; j++ { |
| fmt.Printf("prdptr[%v][0] = %v+NTBASE\n", j, prdptr[j][0]-NTBASE) |
| } |
| } |
| |
| fatfl = 0 // make undefined symbols nonfatal |
| for i := 0; i <= nnonter; i++ { |
| n := 0 |
| c := i + NTBASE |
| for j := 0; j < nprod; j++ { |
| if prdptr[j][0] == c { |
| curres[n] = prdptr[j][1:] |
| n++ |
| } |
| } |
| if n == 0 { |
| errorf("nonterminal %v not defined", nontrst[i].name) |
| continue |
| } |
| pres[i] = make([][]int, n) |
| copy(pres[i], curres) |
| } |
| fatfl = 1 |
| if nerrors != 0 { |
| summary() |
| exit(1) |
| } |
| } |
| |
| func dumppres() { |
| for i := 0; i <= nnonter; i++ { |
| fmt.Printf("nonterm %d\n", i) |
| curres := pres[i] |
| for j := 0; j < len(curres); j++ { |
| fmt.Printf("\tproduction %d:", j) |
| prd := curres[j] |
| for k := 0; k < len(prd); k++ { |
| fmt.Printf(" %d", prd[k]) |
| } |
| fmt.Print("\n") |
| } |
| } |
| } |
| |
| // |
| // mark nonterminals which derive the empty string |
| // also, look for nonterminals which don't derive any token strings |
| // |
| func cempty() { |
| var i, p, np int |
| var prd []int |
| |
| pempty = make([]int, nnonter+1) |
| |
| // first, use the array pempty to detect productions that can never be reduced |
| // set pempty to WHONOWS |
| aryfil(pempty, nnonter+1, WHOKNOWS) |
| |
| // now, look at productions, marking nonterminals which derive something |
| more: |
| for { |
| for i = 0; i < nprod; i++ { |
| prd = prdptr[i] |
| if pempty[prd[0]-NTBASE] != 0 { |
| continue |
| } |
| np = len(prd) - 1 |
| for p = 1; p < np; p++ { |
| if prd[p] >= NTBASE && pempty[prd[p]-NTBASE] == WHOKNOWS { |
| break |
| } |
| } |
| // production can be derived |
| if p == np { |
| pempty[prd[0]-NTBASE] = OK |
| continue more |
| } |
| } |
| break |
| } |
| |
| // now, look at the nonterminals, to see if they are all OK |
| for i = 0; i <= nnonter; i++ { |
| // the added production rises or falls as the start symbol ... |
| if i == 0 { |
| continue |
| } |
| if pempty[i] != OK { |
| fatfl = 0 |
| errorf("nonterminal " + nontrst[i].name + " never derives any token string") |
| } |
| } |
| |
| if nerrors != 0 { |
| summary() |
| exit(1) |
| } |
| |
| // now, compute the pempty array, to see which nonterminals derive the empty string |
| // set pempty to WHOKNOWS |
| aryfil(pempty, nnonter+1, WHOKNOWS) |
| |
| // loop as long as we keep finding empty nonterminals |
| |
| again: |
| for { |
| next: |
| for i = 1; i < nprod; i++ { |
| // not known to be empty |
| prd = prdptr[i] |
| if pempty[prd[0]-NTBASE] != WHOKNOWS { |
| continue |
| } |
| np = len(prd) - 1 |
| for p = 1; p < np; p++ { |
| if prd[p] < NTBASE || pempty[prd[p]-NTBASE] != EMPTY { |
| continue next |
| } |
| } |
| |
| // we have a nontrivially empty nonterminal |
| pempty[prd[0]-NTBASE] = EMPTY |
| |
| // got one ... try for another |
| continue again |
| } |
| return |
| } |
| } |
| |
| func dumpempty() { |
| for i := 0; i <= nnonter; i++ { |
| if pempty[i] == EMPTY { |
| fmt.Printf("non-term %d %s matches empty\n", i, symnam(i+NTBASE)) |
| } |
| } |
| } |
| |
| // |
| // compute an array with the first of nonterminals |
| // |
| func cpfir() { |
| var s, n, p, np, ch, i int |
| var curres [][]int |
| var prd []int |
| |
| wsets = make([]Wset, nnonter+WSETINC) |
| pfirst = make([]Lkset, nnonter+1) |
| for i = 0; i <= nnonter; i++ { |
| wsets[i].ws = mkset() |
| pfirst[i] = mkset() |
| curres = pres[i] |
| n = len(curres) |
| |
| // initially fill the sets |
| for s = 0; s < n; s++ { |
| prd = curres[s] |
| np = len(prd) - 1 |
| for p = 0; p < np; p++ { |
| ch = prd[p] |
| if ch < NTBASE { |
| setbit(pfirst[i], ch) |
| break |
| } |
| if pempty[ch-NTBASE] == 0 { |
| break |
| } |
| } |
| } |
| } |
| |
| // now, reflect transitivity |
| changes := 1 |
| for changes != 0 { |
| changes = 0 |
| for i = 0; i <= nnonter; i++ { |
| curres = pres[i] |
| n = len(curres) |
| for s = 0; s < n; s++ { |
| prd = curres[s] |
| np = len(prd) - 1 |
| for p = 0; p < np; p++ { |
| ch = prd[p] - NTBASE |
| if ch < 0 { |
| break |
| } |
| changes |= setunion(pfirst[i], pfirst[ch]) |
| if pempty[ch] == 0 { |
| break |
| } |
| } |
| } |
| } |
| } |
| |
| if indebug == 0 { |
| return |
| } |
| if foutput != nil { |
| for i = 0; i <= nnonter; i++ { |
| fmt.Fprintf(foutput, "\n%v: %v %v\n", |
| nontrst[i].name, pfirst[i], pempty[i]) |
| } |
| } |
| } |
| |
| // |
| // generate the states |
| // |
| func stagen() { |
| // initialize |
| nstate = 0 |
| tstates = make([]int, ntokens+1) // states generated by terminal gotos |
| ntstates = make([]int, nnonter+1) // states generated by nonterminal gotos |
| amem = make([]int, ACTSIZE) |
| memp = 0 |
| |
| clset = mkset() |
| pstate[0] = 0 |
| pstate[1] = 0 |
| aryfil(clset, tbitset, 0) |
| putitem(Pitem{prdptr[0], 0, 0, 0}, clset) |
| tystate[0] = MUSTDO |
| nstate = 1 |
| pstate[2] = pstate[1] |
| |
| // |
| // now, the main state generation loop |
| // first pass generates all of the states |
| // later passes fix up lookahead |
| // could be sped up a lot by remembering |
| // results of the first pass rather than recomputing |
| // |
| first := 1 |
| for more := 1; more != 0; first = 0 { |
| more = 0 |
| for i := 0; i < nstate; i++ { |
| if tystate[i] != MUSTDO { |
| continue |
| } |
| |
| tystate[i] = DONE |
| aryfil(temp1, nnonter+1, 0) |
| |
| // take state i, close it, and do gotos |
| closure(i) |
| |
| // generate goto's |
| for p := 0; p < cwp; p++ { |
| pi := wsets[p] |
| if pi.flag != 0 { |
| continue |
| } |
| wsets[p].flag = 1 |
| c := pi.pitem.first |
| if c <= 1 { |
| if pstate[i+1]-pstate[i] <= p { |
| tystate[i] = MUSTLOOKAHEAD |
| } |
| continue |
| } |
| |
| // do a goto on c |
| putitem(wsets[p].pitem, wsets[p].ws) |
| for q := p + 1; q < cwp; q++ { |
| // this item contributes to the goto |
| if c == wsets[q].pitem.first { |
| putitem(wsets[q].pitem, wsets[q].ws) |
| wsets[q].flag = 1 |
| } |
| } |
| |
| if c < NTBASE { |
| state(c) // register new state |
| } else { |
| temp1[c-NTBASE] = state(c) |
| } |
| } |
| |
| if gsdebug != 0 && foutput != nil { |
| fmt.Fprintf(foutput, "%v: ", i) |
| for j := 0; j <= nnonter; j++ { |
| if temp1[j] != 0 { |
| fmt.Fprintf(foutput, "%v %v,", nontrst[j].name, temp1[j]) |
| } |
| } |
| fmt.Fprintf(foutput, "\n") |
| } |
| |
| if first != 0 { |
| indgo[i] = apack(temp1[1:], nnonter-1) - 1 |
| } |
| |
| more++ |
| } |
| } |
| } |
| |
| // |
| // generate the closure of state i |
| // |
| func closure(i int) { |
| zzclose++ |
| |
| // first, copy kernel of state i to wsets |
| cwp = 0 |
| q := pstate[i+1] |
| for p := pstate[i]; p < q; p++ { |
| wsets[cwp].pitem = statemem[p].pitem |
| wsets[cwp].flag = 1 // this item must get closed |
| copy(wsets[cwp].ws, statemem[p].look) |
| cwp++ |
| } |
| |
| // now, go through the loop, closing each item |
| work := 1 |
| for work != 0 { |
| work = 0 |
| for u := 0; u < cwp; u++ { |
| if wsets[u].flag == 0 { |
| continue |
| } |
| |
| // dot is before c |
| c := wsets[u].pitem.first |
| if c < NTBASE { |
| wsets[u].flag = 0 |
| // only interesting case is where . is before nonterminal |
| continue |
| } |
| |
| // compute the lookahead |
| aryfil(clset, tbitset, 0) |
| |
| // find items involving c |
| for v := u; v < cwp; v++ { |
| if wsets[v].flag != 1 || wsets[v].pitem.first != c { |
| continue |
| } |
| pi := wsets[v].pitem.prod |
| ipi := wsets[v].pitem.off + 1 |
| |
| wsets[v].flag = 0 |
| if nolook != 0 { |
| continue |
| } |
| |
| ch := pi[ipi] |
| ipi++ |
| for ch > 0 { |
| // terminal symbol |
| if ch < NTBASE { |
| setbit(clset, ch) |
| break |
| } |
| |
| // nonterminal symbol |
| setunion(clset, pfirst[ch-NTBASE]) |
| if pempty[ch-NTBASE] == 0 { |
| break |
| } |
| ch = pi[ipi] |
| ipi++ |
| } |
| if ch <= 0 { |
| setunion(clset, wsets[v].ws) |
| } |
| } |
| |
| // |
| // now loop over productions derived from c |
| // |
| curres := pres[c-NTBASE] |
| n := len(curres) |
| |
| nexts: |
| // initially fill the sets |
| for s := 0; s < n; s++ { |
| prd := curres[s] |
| |
| // |
| // put these items into the closure |
| // is the item there |
| // |
| for v := 0; v < cwp; v++ { |
| // yes, it is there |
| if wsets[v].pitem.off == 0 && |
| aryeq(wsets[v].pitem.prod, prd) != 0 { |
| if nolook == 0 && |
| setunion(wsets[v].ws, clset) != 0 { |
| wsets[v].flag = 1 |
| work = 1 |
| } |
| continue nexts |
| } |
| } |
| |
| // not there; make a new entry |
| if cwp >= len(wsets) { |
| awsets := make([]Wset, cwp+WSETINC) |
| copy(awsets, wsets) |
| wsets = awsets |
| } |
| wsets[cwp].pitem = Pitem{prd, 0, prd[0], -prd[len(prd)-1]} |
| wsets[cwp].flag = 1 |
| wsets[cwp].ws = mkset() |
| if nolook == 0 { |
| work = 1 |
| copy(wsets[cwp].ws, clset) |
| } |
| cwp++ |
| } |
| } |
| } |
| |
| // have computed closure; flags are reset; return |
| if cldebug != 0 && foutput != nil { |
| fmt.Fprintf(foutput, "\nState %v, nolook = %v\n", i, nolook) |
| for u := 0; u < cwp; u++ { |
| if wsets[u].flag != 0 { |
| fmt.Fprintf(foutput, "flag set\n") |
| } |
| wsets[u].flag = 0 |
| fmt.Fprintf(foutput, "\t%v", writem(wsets[u].pitem)) |
| prlook(wsets[u].ws) |
| fmt.Fprintf(foutput, "\n") |
| } |
| } |
| } |
| |
| // |
| // sorts last state,and sees if it equals earlier ones. returns state number |
| // |
| func state(c int) int { |
| zzstate++ |
| p1 := pstate[nstate] |
| p2 := pstate[nstate+1] |
| if p1 == p2 { |
| return 0 // null state |
| } |
| |
| // sort the items |
| var k, l int |
| for k = p1 + 1; k < p2; k++ { // make k the biggest |
| for l = k; l > p1; l-- { |
| if statemem[l].pitem.prodno < statemem[l-1].pitem.prodno || |
| statemem[l].pitem.prodno == statemem[l-1].pitem.prodno && |
| statemem[l].pitem.off < statemem[l-1].pitem.off { |
| s := statemem[l] |
| statemem[l] = statemem[l-1] |
| statemem[l-1] = s |
| } else { |
| break |
| } |
| } |
| } |
| |
| size1 := p2 - p1 // size of state |
| |
| var i int |
| if c >= NTBASE { |
| i = ntstates[c-NTBASE] |
| } else { |
| i = tstates[c] |
| } |
| |
| look: |
| for ; i != 0; i = mstates[i] { |
| // get ith state |
| q1 := pstate[i] |
| q2 := pstate[i+1] |
| size2 := q2 - q1 |
| if size1 != size2 { |
| continue |
| } |
| k = p1 |
| for l = q1; l < q2; l++ { |
| if aryeq(statemem[l].pitem.prod, statemem[k].pitem.prod) == 0 || |
| statemem[l].pitem.off != statemem[k].pitem.off { |
| continue look |
| } |
| k++ |
| } |
| |
| // found it |
| pstate[nstate+1] = pstate[nstate] // delete last state |
| |
| // fix up lookaheads |
| if nolook != 0 { |
| return i |
| } |
| k = p1 |
| for l = q1; l < q2; l++ { |
| if setunion(statemem[l].look, statemem[k].look) != 0 { |
| tystate[i] = MUSTDO |
| } |
| k++ |
| } |
| return i |
| } |
| |
| // state is new |
| zznewstate++ |
| if nolook != 0 { |
| errorf("yacc state/nolook error") |
| } |
| pstate[nstate+2] = p2 |
| if nstate+1 >= NSTATES { |
| errorf("too many states") |
| } |
| if c >= NTBASE { |
| mstates[nstate] = ntstates[c-NTBASE] |
| ntstates[c-NTBASE] = nstate |
| } else { |
| mstates[nstate] = tstates[c] |
| tstates[c] = nstate |
| } |
| tystate[nstate] = MUSTDO |
| nstate++ |
| return nstate - 1 |
| } |
| |
| func putitem(p Pitem, set Lkset) { |
| p.off++ |
| p.first = p.prod[p.off] |
| |
| if pidebug != 0 && foutput != nil { |
| fmt.Fprintf(foutput, "putitem(%v), state %v\n", writem(p), nstate) |
| } |
| j := pstate[nstate+1] |
| if j >= len(statemem) { |
| asm := make([]Item, j+STATEINC) |
| copy(asm, statemem) |
| statemem = asm |
| } |
| statemem[j].pitem = p |
| if nolook == 0 { |
| s := mkset() |
| copy(s, set) |
| statemem[j].look = s |
| } |
| j++ |
| pstate[nstate+1] = j |
| } |
| |
| // |
| // creates output string for item pointed to by pp |
| // |
| func writem(pp Pitem) string { |
| var i int |
| |
| p := pp.prod |
| q := chcopy(nontrst[prdptr[pp.prodno][0]-NTBASE].name) + ": " |
| npi := pp.off |
| |
| pi := aryeq(p, prdptr[pp.prodno]) |
| |
| for { |
| c := ' ' |
| if pi == npi { |
| c = '.' |
| } |
| q += string(c) |
| |
| i = p[pi] |
| pi++ |
| if i <= 0 { |
| break |
| } |
| q += chcopy(symnam(i)) |
| } |
| |
| // an item calling for a reduction |
| i = p[npi] |
| if i < 0 { |
| q += fmt.Sprintf(" (%v)", -i) |
| } |
| |
| return q |
| } |
| |
| // |
| // pack state i from temp1 into amem |
| // |
| func apack(p []int, n int) int { |
| // |
| // we don't need to worry about checking because |
| // we will only look at entries known to be there... |
| // eliminate leading and trailing 0's |
| // |
| off := 0 |
| pp := 0 |
| for ; pp <= n && p[pp] == 0; pp++ { |
| off-- |
| } |
| |
| // no actions |
| if pp > n { |
| return 0 |
| } |
| for ; n > pp && p[n] == 0; n-- { |
| } |
| p = p[pp : n+1] |
| |
| // now, find a place for the elements from p to q, inclusive |
| r := len(amem) - len(p) |
| |
| nextk: |
| for rr := 0; rr <= r; rr++ { |
| qq := rr |
| for pp = 0; pp < len(p); pp++ { |
| if p[pp] != 0 { |
| if p[pp] != amem[qq] && amem[qq] != 0 { |
| continue nextk |
| } |
| } |
| qq++ |
| } |
| |
| // we have found an acceptable k |
| if pkdebug != 0 && foutput != nil { |
| fmt.Fprintf(foutput, "off = %v, k = %v\n", off+rr, rr) |
| } |
| qq = rr |
| for pp = 0; pp < len(p); pp++ { |
| if p[pp] != 0 { |
| if qq > memp { |
| memp = qq |
| } |
| amem[qq] = p[pp] |
| } |
| qq++ |
| } |
| if pkdebug != 0 && foutput != nil { |
| for pp = 0; pp <= memp; pp += 10 { |
| fmt.Fprintf(foutput, "\n") |
| for qq = pp; qq <= pp+9; qq++ { |
| fmt.Fprintf(foutput, "%v ", amem[qq]) |
| } |
| fmt.Fprintf(foutput, "\n") |
| } |
| } |
| return off + rr |
| } |
| errorf("no space in action table") |
| return 0 |
| } |
| |
| // |
| // print the output for the states |
| // |
| func output() { |
| var c, u, v int |
| |
| fmt.Fprintf(ftable, "\n//line yacctab:1\n") |
| fmt.Fprintf(ftable, "var %sExca = []int{\n", prefix) |
| |
| noset := mkset() |
| |
| // output the stuff for state i |
| for i := 0; i < nstate; i++ { |
| nolook = 0 |
| if tystate[i] != MUSTLOOKAHEAD { |
| nolook = 1 |
| } |
| closure(i) |
| |
| // output actions |
| nolook = 1 |
| aryfil(temp1, ntokens+nnonter+1, 0) |
| for u = 0; u < cwp; u++ { |
| c = wsets[u].pitem.first |
| if c > 1 && c < NTBASE && temp1[c] == 0 { |
| for v = u; v < cwp; v++ { |
| if c == wsets[v].pitem.first { |
| putitem(wsets[v].pitem, noset) |
| } |
| } |
| temp1[c] = state(c) |
| } else if c > NTBASE { |
| c -= NTBASE |
| if temp1[c+ntokens] == 0 { |
| temp1[c+ntokens] = amem[indgo[i]+c] |
| } |
| } |
| } |
| if i == 1 { |
| temp1[1] = ACCEPTCODE |
| } |
| |
| // now, we have the shifts; look at the reductions |
| lastred = 0 |
| for u = 0; u < cwp; u++ { |
| c = wsets[u].pitem.first |
| |
| // reduction |
| if c > 0 { |
| continue |
| } |
| lastred = -c |
| us := wsets[u].ws |
| for k := 0; k <= ntokens; k++ { |
| if bitset(us, k) == 0 { |
| continue |
| } |
| if temp1[k] == 0 { |
| temp1[k] = c |
| } else if temp1[k] < 0 { // reduce/reduce conflict |
| if foutput != nil { |
| fmt.Fprintf(foutput, |
| "\n %v: reduce/reduce conflict (red'ns "+ |
| "%v and %v) on %v", |
| i, -temp1[k], lastred, symnam(k)) |
| } |
| if -temp1[k] > lastred { |
| temp1[k] = -lastred |
| } |
| zzrrconf++ |
| } else { |
| // potential shift/reduce conflict |
| precftn(lastred, k, i) |
| } |
| } |
| } |
| wract(i) |
| } |
| |
| fmt.Fprintf(ftable, "}\n") |
| ftable.WriteRune('\n') |
| fmt.Fprintf(ftable, "const %sNprod = %v\n", prefix, nprod) |
| fmt.Fprintf(ftable, "const %sPrivate = %v\n", prefix, PRIVATE) |
| ftable.WriteRune('\n') |
| fmt.Fprintf(ftable, "var %sTokenNames []string\n", prefix) |
| fmt.Fprintf(ftable, "var %sStates []string\n", prefix) |
| } |
| |
| // |
| // decide a shift/reduce conflict by precedence. |
| // r is a rule number, t a token number |
| // the conflict is in state s |
| // temp1[t] is changed to reflect the action |
| // |
| func precftn(r, t, s int) { |
| var action int |
| |
| lp := levprd[r] |
| lt := toklev[t] |
| if PLEVEL(lt) == 0 || PLEVEL(lp) == 0 { |
| // conflict |
| if foutput != nil { |
| fmt.Fprintf(foutput, |
| "\n%v: shift/reduce conflict (shift %v(%v), red'n %v(%v)) on %v", |
| s, temp1[t], PLEVEL(lt), r, PLEVEL(lp), symnam(t)) |
| } |
| zzsrconf++ |
| return |
| } |
| if PLEVEL(lt) == PLEVEL(lp) { |
| action = ASSOC(lt) |
| } else if PLEVEL(lt) > PLEVEL(lp) { |
| action = RASC // shift |
| } else { |
| action = LASC |
| } // reduce |
| switch action { |
| case BASC: // error action |
| temp1[t] = ERRCODE |
| case LASC: // reduce |
| temp1[t] = -r |
| } |
| } |
| |
| // |
| // output state i |
| // temp1 has the actions, lastred the default |
| // |
| func wract(i int) { |
| var p, p1 int |
| |
| // find the best choice for lastred |
| lastred = 0 |
| ntimes := 0 |
| for j := 0; j <= ntokens; j++ { |
| if temp1[j] >= 0 { |
| continue |
| } |
| if temp1[j]+lastred == 0 { |
| continue |
| } |
| // count the number of appearances of temp1[j] |
| count := 0 |
| tred := -temp1[j] |
| levprd[tred] |= REDFLAG |
| for p = 0; p <= ntokens; p++ { |
| if temp1[p]+tred == 0 { |
| count++ |
| } |
| } |
| if count > ntimes { |
| lastred = tred |
| ntimes = count |
| } |
| } |
| |
| // |
| // for error recovery, arrange that, if there is a shift on the |
| // error recovery token, `error', that the default be the error action |
| // |
| if temp1[2] > 0 { |
| lastred = 0 |
| } |
| |
| // clear out entries in temp1 which equal lastred |
| // count entries in optst table |
| n := 0 |
| for p = 0; p <= ntokens; p++ { |
| p1 = temp1[p] |
| if p1+lastred == 0 { |
| temp1[p] = 0 |
| p1 = 0 |
| } |
| if p1 > 0 && p1 != ACCEPTCODE && p1 != ERRCODE { |
| n++ |
| } |
| } |
| |
| wrstate(i) |
| defact[i] = lastred |
| flag := 0 |
| os := make([]int, n*2) |
| n = 0 |
| for p = 0; p <= ntokens; p++ { |
| p1 = temp1[p] |
| if p1 != 0 { |
| if p1 < 0 { |
| p1 = -p1 |
| } else if p1 == ACCEPTCODE { |
| p1 = -1 |
| } else if p1 == ERRCODE { |
| p1 = 0 |
| } else { |
| os[n] = p |
| n++ |
| os[n] = p1 |
| n++ |
| zzacent++ |
| continue |
| } |
| if flag == 0 { |
| fmt.Fprintf(ftable, "\t-1, %v,\n", i) |
| } |
| flag++ |
| fmt.Fprintf(ftable, "\t%v, %v,\n", p, p1) |
| zzexcp++ |
| } |
| } |
| if flag != 0 { |
| defact[i] = -2 |
| fmt.Fprintf(ftable, "\t-2, %v,\n", lastred) |
| } |
| optst[i] = os |
| } |
| |
| // |
| // writes state i |
| // |
| func wrstate(i int) { |
| var j0, j1, u int |
| var pp, qq int |
| |
| if foutput == nil { |
| return |
| } |
| fmt.Fprintf(foutput, "\nstate %v\n", i) |
| qq = pstate[i+1] |
| for pp = pstate[i]; pp < qq; pp++ { |
| fmt.Fprintf(foutput, "\t%v\n", writem(statemem[pp].pitem)) |
| } |
| if tystate[i] == MUSTLOOKAHEAD { |
| // print out empty productions in closure |
| for u = pstate[i+1] - pstate[i]; u < cwp; u++ { |
| if wsets[u].pitem.first < 0 { |
| fmt.Fprintf(foutput, "\t%v\n", writem(wsets[u].pitem)) |
| } |
| } |
| } |
| |
| // check for state equal to another |
| for j0 = 0; j0 <= ntokens; j0++ { |
| j1 = temp1[j0] |
| if j1 != 0 { |
| fmt.Fprintf(foutput, "\n\t%v ", symnam(j0)) |
| |
| // shift, error, or accept |
| if j1 > 0 { |
| if j1 == ACCEPTCODE { |
| fmt.Fprintf(foutput, "accept") |
| } else if j1 == ERRCODE { |
| fmt.Fprintf(foutput, "error") |
| } else { |
| fmt.Fprintf(foutput, "shift %v", j1) |
| } |
| } else { |
| fmt.Fprintf(foutput, "reduce %v (src line %v)", -j1, rlines[-j1]) |
| } |
| } |
| } |
| |
| // output the final production |
| if lastred != 0 { |
| fmt.Fprintf(foutput, "\n\t. reduce %v (src line %v)\n\n", |
| lastred, rlines[lastred]) |
| } else { |
| fmt.Fprintf(foutput, "\n\t. error\n\n") |
| } |
| |
| // now, output nonterminal actions |
| j1 = ntokens |
| for j0 = 1; j0 <= nnonter; j0++ { |
| j1++ |
| if temp1[j1] != 0 { |
| fmt.Fprintf(foutput, "\t%v goto %v\n", symnam(j0+NTBASE), temp1[j1]) |
| } |
| } |
| } |
| |
| // |
| // output the gotos for the nontermninals |
| // |
| func go2out() { |
| for i := 1; i <= nnonter; i++ { |
| go2gen(i) |
| |
| // find the best one to make default |
| best := -1 |
| times := 0 |
| |
| // is j the most frequent |
| for j := 0; j < nstate; j++ { |
| if tystate[j] == 0 { |
| continue |
| } |
| if tystate[j] == best { |
| continue |
| } |
| |
| // is tystate[j] the most frequent |
| count := 0 |
| cbest := tystate[j] |
| for k := j; k < nstate; k++ { |
| if tystate[k] == cbest { |
| count++ |
| } |
| } |
| if count > times { |
| best = cbest |
| times = count |
| } |
| } |
| |
| // best is now the default entry |
| zzgobest += times - 1 |
| n := 0 |
| for j := 0; j < nstate; j++ { |
| if tystate[j] != 0 && tystate[j] != best { |
| n++ |
| } |
| } |
| goent := make([]int, 2*n+1) |
| n = 0 |
| for j := 0; j < nstate; j++ { |
| if tystate[j] != 0 && tystate[j] != best { |
| goent[n] = j |
| n++ |
| goent[n] = tystate[j] |
| n++ |
| zzgoent++ |
| } |
| } |
| |
| // now, the default |
| if best == -1 { |
| best = 0 |
| } |
| |
| zzgoent++ |
| goent[n] = best |
| yypgo[i] = goent |
| } |
| } |
| |
| // |
| // output the gotos for nonterminal c |
| // |
| func go2gen(c int) { |
| var i, cc, p, q int |
| |
| // first, find nonterminals with gotos on c |
| aryfil(temp1, nnonter+1, 0) |
| temp1[c] = 1 |
| work := 1 |
| for work != 0 { |
| work = 0 |
| for i = 0; i < nprod; i++ { |
| // cc is a nonterminal with a goto on c |
| cc = prdptr[i][1] - NTBASE |
| if cc >= 0 && temp1[cc] != 0 { |
| // thus, the left side of production i does too |
| cc = prdptr[i][0] - NTBASE |
| if temp1[cc] == 0 { |
| work = 1 |
| temp1[cc] = 1 |
| } |
| } |
| } |
| } |
| |
| // now, we have temp1[c] = 1 if a goto on c in closure of cc |
| if g2debug != 0 && foutput != nil { |
| fmt.Fprintf(foutput, "%v: gotos on ", nontrst[c].name) |
| for i = 0; i <= nnonter; i++ { |
| if temp1[i] != 0 { |
| fmt.Fprintf(foutput, "%v ", nontrst[i].name) |
| } |
| } |
| fmt.Fprintf(foutput, "\n") |
| } |
| |
| // now, go through and put gotos into tystate |
| aryfil(tystate, nstate, 0) |
| for i = 0; i < nstate; i++ { |
| q = pstate[i+1] |
| for p = pstate[i]; p < q; p++ { |
| cc = statemem[p].pitem.first |
| if cc >= NTBASE { |
| // goto on c is possible |
| if temp1[cc-NTBASE] != 0 { |
| tystate[i] = amem[indgo[i]+c] |
| break |
| } |
| } |
| } |
| } |
| } |
| |
| // |
| // in order to free up the mem and amem arrays for the optimizer, |
| // and still be able to output yyr1, etc., after the sizes of |
| // the action array is known, we hide the nonterminals |
| // derived by productions in levprd. |
| // |
| func hideprod() { |
| nred := 0 |
| levprd[0] = 0 |
| for i := 1; i < nprod; i++ { |
| if (levprd[i] & REDFLAG) == 0 { |
| if foutput != nil { |
| fmt.Fprintf(foutput, "Rule not reduced: %v\n", |
| writem(Pitem{prdptr[i], 0, 0, i})) |
| } |
| fmt.Printf("rule %v never reduced\n", writem(Pitem{prdptr[i], 0, 0, i})) |
| nred++ |
| } |
| levprd[i] = prdptr[i][0] - NTBASE |
| } |
| if nred != 0 { |
| fmt.Printf("%v rules never reduced\n", nred) |
| } |
| } |
| |
| func callopt() { |
| var j, k, p, q, i int |
| var v []int |
| |
| pgo = make([]int, nnonter+1) |
| pgo[0] = 0 |
| maxoff = 0 |
| maxspr = 0 |
| for i = 0; i < nstate; i++ { |
| k = 32000 |
| j = 0 |
| v = optst[i] |
| q = len(v) |
| for p = 0; p < q; p += 2 { |
| if v[p] > j { |
| j = v[p] |
| } |
| if v[p] < k { |
| k = v[p] |
| } |
| } |
| |
| // nontrivial situation |
| if k <= j { |
| // j is now the range |
| // j -= k; // call scj |
| if k > maxoff { |
| maxoff = k |
| } |
| } |
| tystate[i] = q + 2*j |
| if j > maxspr { |
| maxspr = j |
| } |
| } |
| |
| // initialize ggreed table |
| ggreed = make([]int, nnonter+1) |
| for i = 1; i <= nnonter; i++ { |
| ggreed[i] = 1 |
| j = 0 |
| |
| // minimum entry index is always 0 |
| v = yypgo[i] |
| q = len(v) - 1 |
| for p = 0; p < q; p += 2 { |
| ggreed[i] += 2 |
| if v[p] > j { |
| j = v[p] |
| } |
| } |
| ggreed[i] = ggreed[i] + 2*j |
| if j > maxoff { |
| maxoff = j |
| } |
| } |
| |
| // now, prepare to put the shift actions into the amem array |
| for i = 0; i < ACTSIZE; i++ { |
| amem[i] = 0 |
| } |
| maxa = 0 |
| for i = 0; i < nstate; i++ { |
| if tystate[i] == 0 && adb > 1 { |
| fmt.Fprintf(ftable, "State %v: null\n", i) |
| } |
| indgo[i] = yyFlag |
| } |
| |
| i = nxti() |
| for i != NOMORE { |
| if i >= 0 { |
| stin(i) |
| } else { |
| gin(-i) |
| } |
| i = nxti() |
| } |
| |
| // print amem array |
| if adb > 2 { |
| for p = 0; p <= maxa; p += 10 { |
| fmt.Fprintf(ftable, "%v ", p) |
| for i = 0; i < 10; i++ { |
| fmt.Fprintf(ftable, "%v ", amem[p+i]) |
| } |
| ftable.WriteRune('\n') |
| } |
| } |
| |
| aoutput() |
| osummary() |
| } |
| |
| // |
| // finds the next i |
| // |
| func nxti() int { |
| max := 0 |
| maxi := 0 |
| for i := 1; i <= nnonter; i++ { |
| if ggreed[i] >= max { |
| max = ggreed[i] |
| maxi = -i |
| } |
| } |
| for i := 0; i < nstate; i++ { |
| if tystate[i] >= max { |
| max = tystate[i] |
| maxi = i |
| } |
| } |
| if max == 0 { |
| return NOMORE |
| } |
| return maxi |
| } |
| |
| func gin(i int) { |
| var s int |
| |
| // enter gotos on nonterminal i into array amem |
| ggreed[i] = 0 |
| |
| q := yypgo[i] |
| nq := len(q) - 1 |
| |
| // now, find amem place for it |
| nextgp: |
| for p := 0; p < ACTSIZE; p++ { |
| if amem[p] != 0 { |
| continue |
| } |
| for r := 0; r < nq; r += 2 { |
| s = p + q[r] + 1 |
| if s > maxa { |
| maxa = s |
| if maxa >= ACTSIZE { |
| errorf("a array overflow") |
| } |
| } |
| if amem[s] != 0 { |
| continue nextgp |
| } |
| } |
| |
| // we have found amem spot |
| amem[p] = q[nq] |
| if p > maxa { |
| maxa = p |
| } |
| for r := 0; r < nq; r += 2 { |
| s = p + q[r] + 1 |
| amem[s] = q[r+1] |
| } |
| pgo[i] = p |
| if adb > 1 { |
| fmt.Fprintf(ftable, "Nonterminal %v, entry at %v\n", i, pgo[i]) |
| } |
| return |
| } |
| errorf("cannot place goto %v\n", i) |
| } |
| |
| func stin(i int) { |
| var s int |
| |
| tystate[i] = 0 |
| |
| // enter state i into the amem array |
| q := optst[i] |
| nq := len(q) |
| |
| nextn: |
| // find an acceptable place |
| for n := -maxoff; n < ACTSIZE; n++ { |
| flag := 0 |
| for r := 0; r < nq; r += 2 { |
| s = q[r] + n |
| if s < 0 || s > ACTSIZE { |
| continue nextn |
| } |
| if amem[s] == 0 { |
| flag++ |
| } else if amem[s] != q[r+1] { |
| continue nextn |
| } |
| } |
| |
| // check the position equals another only if the states are identical |
| for j := 0; j < nstate; j++ { |
| if indgo[j] == n { |
| |
| // we have some disagreement |
| if flag != 0 { |
| continue nextn |
| } |
| if nq == len(optst[j]) { |
| |
| // states are equal |
| indgo[i] = n |
| if adb > 1 { |
| fmt.Fprintf(ftable, "State %v: entry at"+ |
| "%v equals state %v\n", |
| i, n, j) |
| } |
| return |
| } |
| |
| // we have some disagreement |
| continue nextn |
| } |
| } |
| |
| for r := 0; r < nq; r += 2 { |
| s = q[r] + n |
| if s > maxa { |
| maxa = s |
| } |
| if amem[s] != 0 && amem[s] != q[r+1] { |
| errorf("clobber of a array, pos'n %v, by %v", s, q[r+1]) |
| } |
| amem[s] = q[r+1] |
| } |
| indgo[i] = n |
| if adb > 1 { |
| fmt.Fprintf(ftable, "State %v: entry at %v\n", i, indgo[i]) |
| } |
| return |
| } |
| errorf("Error; failure to place state %v", i) |
| } |
| |
| // |
| // this version is for limbo |
| // write out the optimized parser |
| // |
| func aoutput() { |
| ftable.WriteRune('\n') |
| fmt.Fprintf(ftable, "const %sLast = %v\n\n", prefix, maxa+1) |
| arout("Act", amem, maxa+1) |
| arout("Pact", indgo, nstate) |
| arout("Pgo", pgo, nnonter+1) |
| } |
| |
| // |
| // put out other arrays, copy the parsers |
| // |
| func others() { |
| var i, j int |
| |
| arout("R1", levprd, nprod) |
| aryfil(temp1, nprod, 0) |
| |
| // |
| //yyr2 is the number of rules for each production |
| // |
| for i = 1; i < nprod; i++ { |
| temp1[i] = len(prdptr[i]) - 2 |
| } |
| arout("R2", temp1, nprod) |
| |
| aryfil(temp1, nstate, -1000) |
| for i = 0; i <= ntokens; i++ { |
| for j := tstates[i]; j != 0; j = mstates[j] { |
| temp1[j] = i |
| } |
| } |
| for i = 0; i <= nnonter; i++ { |
| for j = ntstates[i]; j != 0; j = mstates[j] { |
| temp1[j] = -i |
| } |
| } |
| arout("Chk", temp1, nstate) |
| arout("Def", defact, nstate) |
| |
| // put out token translation tables |
| // table 1 has 0-256 |
| aryfil(temp1, 256, 0) |
| c := 0 |
| for i = 1; i <= ntokens; i++ { |
| j = tokset[i].value |
| if j >= 0 && j < 256 { |
| if temp1[j] != 0 { |
| fmt.Print("yacc bug -- cant have 2 different Ts with same value\n") |
| fmt.Printf(" %s and %s\n", tokset[i].name, tokset[temp1[j]].name) |
| nerrors++ |
| } |
| temp1[j] = i |
| if j > c { |
| c = j |
| } |
| } |
| } |
| for i = 0; i <= c; i++ { |
| if temp1[i] == 0 { |
| temp1[i] = YYLEXUNK |
| } |
| } |
| arout("Tok1", temp1, c+1) |
| |
| // table 2 has PRIVATE-PRIVATE+256 |
| aryfil(temp1, 256, 0) |
| c = 0 |
| for i = 1; i <= ntokens; i++ { |
| j = tokset[i].value - PRIVATE |
| if j >= 0 && j < 256 { |
| if temp1[j] != 0 { |
| fmt.Print("yacc bug -- cant have 2 different Ts with same value\n") |
| fmt.Printf(" %s and %s\n", tokset[i].name, tokset[temp1[j]].name) |
| nerrors++ |
| } |
| temp1[j] = i |
| if j > c { |
| c = j |
| } |
| } |
| } |
| arout("Tok2", temp1, c+1) |
| |
| // table 3 has everything else |
| fmt.Fprintf(ftable, "var %sTok3 = []int{\n\t", prefix) |
| c = 0 |
| for i = 1; i <= ntokens; i++ { |
| j = tokset[i].value |
| if j >= 0 && j < 256 { |
| continue |
| } |
| if j >= PRIVATE && j < 256+PRIVATE { |
| continue |
| } |
| |
| if c%5 != 0 { |
| ftable.WriteRune(' ') |
| } |
| fmt.Fprintf(ftable, "%d, %d,", j, i) |
| c++ |
| if c%5 == 0 { |
| fmt.Fprint(ftable, "\n\t") |
| } |
| } |
| if c%5 != 0 { |
| ftable.WriteRune(' ') |
| } |
| fmt.Fprintf(ftable, "%d,\n}\n", 0) |
| |
| // copy parser text |
| ch := getrune(finput) |
| for ch != EOF { |
| ftable.WriteRune(ch) |
| ch = getrune(finput) |
| } |
| |
| // copy yaccpar |
| fmt.Fprintf(ftable, "\n//line yaccpar:1\n") |
| |
| parts := strings.SplitN(yaccpar, prefix+"run()", 2) |
| fmt.Fprintf(ftable, "%v", parts[0]) |
| ftable.Write(fcode.Bytes()) |
| fmt.Fprintf(ftable, "%v", parts[1]) |
| } |
| |
| func arout(s string, v []int, n int) { |
| s = prefix + s |
| fmt.Fprintf(ftable, "var %v = []int{\n", s) |
| for i := 0; i < n; i++ { |
| if i%10 == 0 { |
| fmt.Fprintf(ftable, "\n\t") |
| } else { |
| ftable.WriteRune(' ') |
| } |
| fmt.Fprintf(ftable, "%d,", v[i]) |
| } |
| fmt.Fprintf(ftable, "\n}\n") |
| } |
| |
| // |
| // output the summary on y.output |
| // |
| func summary() { |
| if foutput != nil { |
| fmt.Fprintf(foutput, "\n%v terminals, %v nonterminals\n", ntokens, nnonter+1) |
| fmt.Fprintf(foutput, "%v grammar rules, %v/%v states\n", nprod, nstate, NSTATES) |
| fmt.Fprintf(foutput, "%v shift/reduce, %v reduce/reduce conflicts reported\n", zzsrconf, zzrrconf) |
| fmt.Fprintf(foutput, "%v working sets used\n", len(wsets)) |
| fmt.Fprintf(foutput, "memory: parser %v/%v\n", memp, ACTSIZE) |
| fmt.Fprintf(foutput, "%v extra closures\n", zzclose-2*nstate) |
| fmt.Fprintf(foutput, "%v shift entries, %v exceptions\n", zzacent, zzexcp) |
| fmt.Fprintf(foutput, "%v goto entries\n", zzgoent) |
| fmt.Fprintf(foutput, "%v entries saved by goto default\n", zzgobest) |
| } |
| if zzsrconf != 0 || zzrrconf != 0 { |
| fmt.Printf("\nconflicts: ") |
| if zzsrconf != 0 { |
| fmt.Printf("%v shift/reduce", zzsrconf) |
| } |
| if zzsrconf != 0 && zzrrconf != 0 { |
| fmt.Printf(", ") |
| } |
| if zzrrconf != 0 { |
| fmt.Printf("%v reduce/reduce", zzrrconf) |
| } |
| fmt.Printf("\n") |
| } |
| } |
| |
| // |
| // write optimizer summary |
| // |
| func osummary() { |
| if foutput == nil { |
| return |
| } |
| i := 0 |
| for p := maxa; p >= 0; p-- { |
| if amem[p] == 0 { |
| i++ |
| } |
| } |
| |
| fmt.Fprintf(foutput, "Optimizer space used: output %v/%v\n", maxa+1, ACTSIZE) |
| fmt.Fprintf(foutput, "%v table entries, %v zero\n", maxa+1, i) |
| fmt.Fprintf(foutput, "maximum spread: %v, maximum offset: %v\n", maxspr, maxoff) |
| } |
| |
| // |
| // copies and protects "'s in q |
| // |
| func chcopy(q string) string { |
| s := "" |
| i := 0 |
| j := 0 |
| for i = 0; i < len(q); i++ { |
| if q[i] == '"' { |
| s += q[j:i] + "\\" |
| j = i |
| } |
| } |
| return s + q[j:i] |
| } |
| |
| func usage() { |
| fmt.Fprintf(stderr, "usage: yacc [-o output] [-v parsetable] input\n") |
| exit(1) |
| } |
| |
| func bitset(set Lkset, bit int) int { return set[bit>>5] & (1 << uint(bit&31)) } |
| |
| func setbit(set Lkset, bit int) { set[bit>>5] |= (1 << uint(bit&31)) } |
| |
| func mkset() Lkset { return make([]int, tbitset) } |
| |
| // |
| // set a to the union of a and b |
| // return 1 if b is not a subset of a, 0 otherwise |
| // |
| func setunion(a, b []int) int { |
| sub := 0 |
| for i := 0; i < tbitset; i++ { |
| x := a[i] |
| y := x | b[i] |
| a[i] = y |
| if y != x { |
| sub = 1 |
| } |
| } |
| return sub |
| } |
| |
| func prlook(p Lkset) { |
| if p == nil { |
| fmt.Fprintf(foutput, "\tNULL") |
| return |
| } |
| fmt.Fprintf(foutput, " { ") |
| for j := 0; j <= ntokens; j++ { |
| if bitset(p, j) != 0 { |
| fmt.Fprintf(foutput, "%v ", symnam(j)) |
| } |
| } |
| fmt.Fprintf(foutput, "}") |
| } |
| |
| // |
| // utility routines |
| // |
| var peekrune rune |
| |
| func isdigit(c rune) bool { return c >= '0' && c <= '9' } |
| |
| func isword(c rune) bool { |
| return c >= 0xa0 || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') |
| } |
| |
| func mktemp(t string) string { return t } |
| |
| // |
| // return 1 if 2 arrays are equal |
| // return 0 if not equal |
| // |
| func aryeq(a []int, b []int) int { |
| n := len(a) |
| if len(b) != n { |
| return 0 |
| } |
| for ll := 0; ll < n; ll++ { |
| if a[ll] != b[ll] { |
| return 0 |
| } |
| } |
| return 1 |
| } |
| |
| func putrune(f *bufio.Writer, c int) { |
| s := string(c) |
| for i := 0; i < len(s); i++ { |
| f.WriteByte(s[i]) |
| } |
| } |
| |
| func getrune(f *bufio.Reader) rune { |
| var r rune |
| |
| if peekrune != 0 { |
| if peekrune == EOF { |
| return EOF |
| } |
| r = peekrune |
| peekrune = 0 |
| return r |
| } |
| |
| c, n, err := f.ReadRune() |
| if n == 0 { |
| return EOF |
| } |
| if err != nil { |
| errorf("read error: %v", err) |
| } |
| //fmt.Printf("rune = %v n=%v\n", string(c), n); |
| return c |
| } |
| |
| func ungetrune(f *bufio.Reader, c rune) { |
| if f != finput { |
| panic("ungetc - not finput") |
| } |
| if peekrune != 0 { |
| panic("ungetc - 2nd unget") |
| } |
| peekrune = c |
| } |
| |
| func write(f *bufio.Writer, b []byte, n int) int { |
| panic("write") |
| return 0 |
| } |
| |
| func open(s string) *bufio.Reader { |
| fi, err := os.Open(s) |
| if err != nil { |
| errorf("error opening %v: %v", s, err) |
| } |
| //fmt.Printf("open %v\n", s); |
| return bufio.NewReader(fi) |
| } |
| |
| func create(s string) *bufio.Writer { |
| fo, err := os.Create(s) |
| if err != nil { |
| errorf("error creating %v: %v", s, err) |
| } |
| //fmt.Printf("create %v mode %v\n", s); |
| return bufio.NewWriter(fo) |
| } |
| |
| // |
| // write out error comment |
| // |
| func errorf(s string, v ...interface{}) { |
| nerrors++ |
| fmt.Fprintf(stderr, s, v...) |
| fmt.Fprintf(stderr, ": %v:%v\n", infile, lineno) |
| if fatfl != 0 { |
| summary() |
| exit(1) |
| } |
| } |
| |
| func exit(status int) { |
| if ftable != nil { |
| ftable.Flush() |
| ftable = nil |
| } |
| if foutput != nil { |
| foutput.Flush() |
| foutput = nil |
| } |
| if stderr != nil { |
| stderr.Flush() |
| stderr = nil |
| } |
| os.Exit(status) |
| } |
| |
| var yaccpar string // will be processed version of yaccpartext: s/$$/prefix/g |
| var yaccpartext = ` |
| /* parser for yacc output */ |
| |
| var $$Debug = 0 |
| |
| type $$Lexer interface { |
| Lex(lval *$$SymType) int |
| Error(s string) |
| } |
| |
| const $$Flag = -1000 |
| |
| func $$Tokname(c int) string { |
| if c > 0 && c <= len($$Toknames) { |
| if $$Toknames[c-1] != "" { |
| return $$Toknames[c-1] |
| } |
| } |
| return fmt.Sprintf("tok-%v", c) |
| } |
| |
| func $$Statname(s int) string { |
| if s >= 0 && s < len($$Statenames) { |
| if $$Statenames[s] != "" { |
| return $$Statenames[s] |
| } |
| } |
| return fmt.Sprintf("state-%v", s) |
| } |
| |
| func $$lex1(lex $$Lexer, lval *$$SymType) int { |
| c := 0 |
| char := lex.Lex(lval) |
| if char <= 0 { |
| c = $$Tok1[0] |
| goto out |
| } |
| if char < len($$Tok1) { |
| c = $$Tok1[char] |
| goto out |
| } |
| if char >= $$Private { |
| if char < $$Private+len($$Tok2) { |
| c = $$Tok2[char-$$Private] |
| goto out |
| } |
| } |
| for i := 0; i < len($$Tok3); i += 2 { |
| c = $$Tok3[i+0] |
| if c == char { |
| c = $$Tok3[i+1] |
| goto out |
| } |
| } |
| |
| out: |
| if c == 0 { |
| c = $$Tok2[1] /* unknown char */ |
| } |
| if $$Debug >= 3 { |
| fmt.Printf("lex %U %s\n", uint(char), $$Tokname(c)) |
| } |
| return c |
| } |
| |
| func $$Parse($$lex $$Lexer) int { |
| var $$n int |
| var $$lval $$SymType |
| var $$VAL $$SymType |
| $$S := make([]$$SymType, $$MaxDepth) |
| |
| Nerrs := 0 /* number of errors */ |
| Errflag := 0 /* error recovery flag */ |
| $$state := 0 |
| $$char := -1 |
| $$p := -1 |
| goto $$stack |
| |
| ret0: |
| return 0 |
| |
| ret1: |
| return 1 |
| |
| $$stack: |
| /* put a state and value onto the stack */ |
| if $$Debug >= 4 { |
| fmt.Printf("char %v in %v\n", $$Tokname($$char), $$Statname($$state)) |
| } |
| |
| $$p++ |
| if $$p >= len($$S) { |
| nyys := make([]$$SymType, len($$S)*2) |
| copy(nyys, $$S) |
| $$S = nyys |
| } |
| $$S[$$p] = $$VAL |
| $$S[$$p].yys = $$state |
| |
| $$newstate: |
| $$n = $$Pact[$$state] |
| if $$n <= $$Flag { |
| goto $$default /* simple state */ |
| } |
| if $$char < 0 { |
| $$char = $$lex1($$lex, &$$lval) |
| } |
| $$n += $$char |
| if $$n < 0 || $$n >= $$Last { |
| goto $$default |
| } |
| $$n = $$Act[$$n] |
| if $$Chk[$$n] == $$char { /* valid shift */ |
| $$char = -1 |
| $$VAL = $$lval |
| $$state = $$n |
| if Errflag > 0 { |
| Errflag-- |
| } |
| goto $$stack |
| } |
| |
| $$default: |
| /* default state action */ |
| $$n = $$Def[$$state] |
| if $$n == -2 { |
| if $$char < 0 { |
| $$char = $$lex1($$lex, &$$lval) |
| } |
| |
| /* look through exception table */ |
| xi := 0 |
| for { |
| if $$Exca[xi+0] == -1 && $$Exca[xi+1] == $$state { |
| break |
| } |
| xi += 2 |
| } |
| for xi += 2; ; xi += 2 { |
| $$n = $$Exca[xi+0] |
| if $$n < 0 || $$n == $$char { |
| break |
| } |
| } |
| $$n = $$Exca[xi+1] |
| if $$n < 0 { |
| goto ret0 |
| } |
| } |
| if $$n == 0 { |
| /* error ... attempt to resume parsing */ |
| switch Errflag { |
| case 0: /* brand new error */ |
| $$lex.Error("syntax error") |
| Nerrs++ |
| if $$Debug >= 1 { |
| fmt.Printf("%s", $$Statname($$state)) |
| fmt.Printf("saw %s\n", $$Tokname($$char)) |
| } |
| fallthrough |
| |
| case 1, 2: /* incompletely recovered error ... try again */ |
| Errflag = 3 |
| |
| /* find a state where "error" is a legal shift action */ |
| for $$p >= 0 { |
| $$n = $$Pact[$$S[$$p].yys] + $$ErrCode |
| if $$n >= 0 && $$n < $$Last { |
| $$state = $$Act[$$n] /* simulate a shift of "error" */ |
| if $$Chk[$$state] == $$ErrCode { |
| goto $$stack |
| } |
| } |
| |
| /* the current p has no shift on "error", pop stack */ |
| if $$Debug >= 2 { |
| fmt.Printf("error recovery pops state %d\n", $$S[$$p].yys) |
| } |
| $$p-- |
| } |
| /* there is no state on the stack with an error shift ... abort */ |
| goto ret1 |
| |
| case 3: /* no shift yet; clobber input char */ |
| if $$Debug >= 2 { |
| fmt.Printf("error recovery discards %s\n", $$Tokname($$char)) |
| } |
| if $$char == $$EofCode { |
| goto ret1 |
| } |
| $$char = -1 |
| goto $$newstate /* try again in the same state */ |
| } |
| } |
| |
| /* reduction by production $$n */ |
| if $$Debug >= 2 { |
| fmt.Printf("reduce %v in:\n\t%v\n", $$n, $$Statname($$state)) |
| } |
| |
| $$nt := $$n |
| $$pt := $$p |
| _ = $$pt // guard against "declared and not used" |
| |
| $$p -= $$R2[$$n] |
| $$VAL = $$S[$$p+1] |
| |
| /* consult goto table to find next state */ |
| $$n = $$R1[$$n] |
| $$g := $$Pgo[$$n] |
| $$j := $$g + $$S[$$p].yys + 1 |
| |
| if $$j >= $$Last { |
| $$state = $$Act[$$g] |
| } else { |
| $$state = $$Act[$$j] |
| if $$Chk[$$state] != -$$n { |
| $$state = $$Act[$$g] |
| } |
| } |
| // dummy call; replaced with literal code |
| $$run() |
| goto $$stack /* stack new state and value */ |
| } |
| ` |