Initial commit: ml-yacc support for Isabelle.

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ml-yacc-lib/base.sig Normal file
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(******************************************************************************
* STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
*
* Copyright (c) 1989-2002 by Lucent Technologies
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both the copyright notice and this permission notice and warranty
* disclaimer appear in supporting documentation, and that the name of
* Lucent Technologies, Bell Labs or any Lucent entity not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* Lucent disclaims all warranties with regard to this software,
* including all implied warranties of merchantability and fitness. In no
* event shall Lucent be liable for any special, indirect or
* consequential damages or any damages whatsoever resulting from loss of
* use, data or profits, whether in an action of contract, negligence or
* other tortious action, arising out of or in connection with the use
* or performance of this software.
******************************************************************************)
(* $Id$ *)
(* ML-Yacc Parser Generator (c) 1989 Andrew W. Appel, David R. Tarditi *)
(* base.sig: Base signature file for SML-Yacc. This file contains signatures
that must be loaded before any of the files produced by ML-Yacc are loaded
*)
(* STREAM: signature for a lazy stream.*)
signature STREAM =
sig type 'xa stream
val streamify : (unit -> '_a) -> '_a stream
val cons : '_a * '_a stream -> '_a stream
val get : '_a stream -> '_a * '_a stream
end
(* LR_TABLE: signature for an LR Table.
The list of actions and gotos passed to mkLrTable must be ordered by state
number. The values for state 0 are the first in the list, the values for
state 1 are next, etc.
*)
signature LR_TABLE =
sig
datatype ('a,'b) pairlist = EMPTY | PAIR of 'a * 'b * ('a,'b) pairlist
datatype state = STATE of int
datatype term = T of int
datatype nonterm = NT of int
datatype action = SHIFT of state
| REDUCE of int
| ACCEPT
| ERROR
type table
val numStates : table -> int
val numRules : table -> int
val describeActions : table -> state ->
(term,action) pairlist * action
val describeGoto : table -> state -> (nonterm,state) pairlist
val action : table -> state * term -> action
val goto : table -> state * nonterm -> state
val initialState : table -> state
exception Goto of state * nonterm
val mkLrTable : {actions : ((term,action) pairlist * action) array,
gotos : (nonterm,state) pairlist array,
numStates : int, numRules : int,
initialState : state} -> table
end
(* TOKEN: signature revealing the internal structure of a token. This signature
TOKEN distinct from the signature {parser name}_TOKENS produced by ML-Yacc.
The {parser name}_TOKENS structures contain some types and functions to
construct tokens from values and positions.
The representation of token was very carefully chosen here to allow the
polymorphic parser to work without knowing the types of semantic values
or line numbers.
This has had an impact on the TOKENS structure produced by SML-Yacc, which
is a structure parameter to lexer functors. We would like to have some
type 'a token which functions to construct tokens would create. A
constructor function for a integer token might be
INT: int * 'a * 'a -> 'a token.
This is not possible because we need to have tokens with the representation
given below for the polymorphic parser.
Thus our constructur functions for tokens have the form:
INT: int * 'a * 'a -> (svalue,'a) token
This in turn has had an impact on the signature that lexers for SML-Yacc
must match and the types that a user must declare in the user declarations
section of lexers.
*)
signature TOKEN =
sig
structure LrTable : LR_TABLE
datatype ('a,'b) token = TOKEN of LrTable.term * ('a * 'b * 'b)
val sameToken : ('a,'b) token * ('a,'b) token -> bool
end
(* LR_PARSER: signature for a polymorphic LR parser *)
signature LR_PARSER =
sig
structure Stream: STREAM
structure LrTable : LR_TABLE
structure Token : TOKEN
sharing LrTable = Token.LrTable
exception ParseError
val parse : {table : LrTable.table,
lexer : ('_b,'_c) Token.token Stream.stream,
arg: 'arg,
saction : int *
'_c *
(LrTable.state * ('_b * '_c * '_c)) list *
'arg ->
LrTable.nonterm *
('_b * '_c * '_c) *
((LrTable.state *('_b * '_c * '_c)) list),
void : '_b,
ec : { is_keyword : LrTable.term -> bool,
noShift : LrTable.term -> bool,
preferred_change : (LrTable.term list * LrTable.term list) list,
errtermvalue : LrTable.term -> '_b,
showTerminal : LrTable.term -> string,
terms: LrTable.term list,
error : string * '_c * '_c -> unit
},
lookahead : int (* max amount of lookahead used in *)
(* error correction *)
} -> '_b *
(('_b,'_c) Token.token Stream.stream)
end
(* LEXER: a signature that most lexers produced for use with SML-Yacc's
output will match. The user is responsible for declaring type token,
type pos, and type svalue in the UserDeclarations section of a lexer.
Note that type token is abstract in the lexer. This allows SML-Yacc to
create a TOKENS signature for use with lexers produced by ML-Lex that
treats the type token abstractly. Lexers that are functors parametrized by
a Tokens structure matching a TOKENS signature cannot examine the structure
of tokens.
*)
signature LEXER =
sig
structure UserDeclarations :
sig
type ('a,'b) token
type pos
type svalue
end
val makeLexer : (int -> string) -> unit ->
(UserDeclarations.svalue,UserDeclarations.pos) UserDeclarations.token
end
(* ARG_LEXER: the %arg option of ML-Lex allows users to produce lexers which
also take an argument before yielding a function from unit to a token
*)
signature ARG_LEXER =
sig
structure UserDeclarations :
sig
type ('a,'b) token
type pos
type svalue
type arg
end
val makeLexer : (int -> string) -> UserDeclarations.arg -> unit ->
(UserDeclarations.svalue,UserDeclarations.pos) UserDeclarations.token
end
(* PARSER_DATA: the signature of ParserData structures in {parser name}LrValsFun
produced by SML-Yacc. All such structures match this signature.
The {parser name}LrValsFun produces a structure which contains all the values
except for the lexer needed to call the polymorphic parser mentioned
before.
*)
signature PARSER_DATA =
sig
(* the type of line numbers *)
type pos
(* the type of semantic values *)
type svalue
(* the type of the user-supplied argument to the parser *)
type arg
(* the intended type of the result of the parser. This value is
produced by applying extract from the structure Actions to the
final semantic value resultiing from a parse.
*)
type result
structure LrTable : LR_TABLE
structure Token : TOKEN
sharing Token.LrTable = LrTable
(* structure Actions contains the functions which mantain the
semantic values stack in the parser. Void is used to provide
a default value for the semantic stack.
*)
structure Actions :
sig
val actions : int * pos *
(LrTable.state * (svalue * pos * pos)) list * arg->
LrTable.nonterm * (svalue * pos * pos) *
((LrTable.state *(svalue * pos * pos)) list)
val void : svalue
val extract : svalue -> result
end
(* structure EC contains information used to improve error
recovery in an error-correcting parser *)
structure EC :
sig
val is_keyword : LrTable.term -> bool
val noShift : LrTable.term -> bool
val preferred_change : (LrTable.term list * LrTable.term list) list
val errtermvalue : LrTable.term -> svalue
val showTerminal : LrTable.term -> string
val terms: LrTable.term list
end
(* table is the LR table for the parser *)
val table : LrTable.table
end
(* signature PARSER is the signature that most user parsers created by
SML-Yacc will match.
*)
signature PARSER =
sig
structure Token : TOKEN
structure Stream : STREAM
exception ParseError
(* type pos is the type of line numbers *)
type pos
(* type result is the type of the result from the parser *)
type result
(* the type of the user-supplied argument to the parser *)
type arg
(* type svalue is the type of semantic values for the semantic value
stack
*)
type svalue
(* val makeLexer is used to create a stream of tokens for the parser *)
val makeLexer : (int -> string) ->
(svalue,pos) Token.token Stream.stream
(* val parse takes a stream of tokens and a function to print
errors and returns a value of type result and a stream containing
the unused tokens
*)
val parse : int * ((svalue,pos) Token.token Stream.stream) *
(string * pos * pos -> unit) * arg ->
result * (svalue,pos) Token.token Stream.stream
val sameToken : (svalue,pos) Token.token * (svalue,pos) Token.token ->
bool
end
(* signature ARG_PARSER is the signature that will be matched by parsers whose
lexer takes an additional argument.
*)
signature ARG_PARSER =
sig
structure Token : TOKEN
structure Stream : STREAM
exception ParseError
type arg
type lexarg
type pos
type result
type svalue
val makeLexer : (int -> string) -> lexarg ->
(svalue,pos) Token.token Stream.stream
val parse : int * ((svalue,pos) Token.token Stream.stream) *
(string * pos * pos -> unit) * arg ->
result * (svalue,pos) Token.token Stream.stream
val sameToken : (svalue,pos) Token.token * (svalue,pos) Token.token ->
bool
end

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This package was debianized by Aaron Matthew Read <amread@nyx.net> on
Fri, 25 Oct 2002 16:54:10 -0800.
It was downloaded from http://smlnj.cs.uchicago.edu/dist/working
Upstream Authors: The SML/NJ Team <smlnj-dev-list@lists.sourceforge.net>
Copyright: 2003-2008 The SML/NJ Fellowship
1989-2002 Lucent Technologies
1991-2003 John Reppy
1996-1998,2000 YALE FLINT PROJECT
1992 Vrije Universiteit, The Netherlands
1989-1992 Andrew W. Appel, James S. Mattson, David R. Tarditi
1988 Evans & Sutherland Computer Corporation, Salt Lake City, Utah
STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
Copyright (c) 1989-2002 by Lucent Technologies
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted,
provided that the above copyright notice appear in all copies and that
both the copyright notice and this permission notice and warranty
disclaimer appear in supporting documentation, and that the name of
Lucent Technologies, Bell Labs or any Lucent entity not be used in
advertising or publicity pertaining to distribution of the software
without specific, written prior permission.
Lucent disclaims all warranties with regard to this software,
including all implied warranties of merchantability and fitness. In no
event shall Lucent be liable for any special, indirect or
consequential damages or any damages whatsoever resulting from loss of
use, data or profits, whether in an action of contract, negligence or
other tortious action, arising out of or in connection with the use
or performance of this software.
The SML/NJ distribution also includes code licensed under the same
terms as above, but with "David R. Tarditi Jr. and Andrew W. Appel",
"Vrije Universiteit" or "Evans & Sutherland" instead of "Lucent".

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ml-yacc-lib/join.sml Normal file
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(******************************************************************************
* STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
*
* Copyright (c) 1989-2002 by Lucent Technologies
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both the copyright notice and this permission notice and warranty
* disclaimer appear in supporting documentation, and that the name of
* Lucent Technologies, Bell Labs or any Lucent entity not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* Lucent disclaims all warranties with regard to this software,
* including all implied warranties of merchantability and fitness. In no
* event shall Lucent be liable for any special, indirect or
* consequential damages or any damages whatsoever resulting from loss of
* use, data or profits, whether in an action of contract, negligence or
* other tortious action, arising out of or in connection with the use
* or performance of this software.
******************************************************************************)
(* $Id$ *)
(* ML-Yacc Parser Generator (c) 1989 Andrew W. Appel, David R. Tarditi *)
(* functor Join creates a user parser by putting together a Lexer structure,
an LrValues structure, and a polymorphic parser structure. Note that
the Lexer and LrValues structure must share the type pos (i.e. the type
of line numbers), the type svalues for semantic values, and the type
of tokens.
*)
functor Join(structure Lex : LEXER
structure ParserData: PARSER_DATA
structure LrParser : LR_PARSER
sharing ParserData.LrTable = LrParser.LrTable
sharing ParserData.Token = LrParser.Token
sharing type Lex.UserDeclarations.svalue = ParserData.svalue
sharing type Lex.UserDeclarations.pos = ParserData.pos
sharing type Lex.UserDeclarations.token = ParserData.Token.token)
: PARSER =
struct
structure Token = ParserData.Token
structure Stream = LrParser.Stream
exception ParseError = LrParser.ParseError
type arg = ParserData.arg
type pos = ParserData.pos
type result = ParserData.result
type svalue = ParserData.svalue
val makeLexer = LrParser.Stream.streamify o Lex.makeLexer
val parse = fn (lookahead,lexer,error,arg) =>
(fn (a,b) => (ParserData.Actions.extract a,b))
(LrParser.parse {table = ParserData.table,
lexer=lexer,
lookahead=lookahead,
saction = ParserData.Actions.actions,
arg=arg,
void= ParserData.Actions.void,
ec = {is_keyword = ParserData.EC.is_keyword,
noShift = ParserData.EC.noShift,
preferred_change = ParserData.EC.preferred_change,
errtermvalue = ParserData.EC.errtermvalue,
error=error,
showTerminal = ParserData.EC.showTerminal,
terms = ParserData.EC.terms}}
)
val sameToken = Token.sameToken
end
(* functor JoinWithArg creates a variant of the parser structure produced
above. In this case, the makeLexer take an additional argument before
yielding a value of type unit -> (svalue,pos) token
*)
functor JoinWithArg(structure Lex : ARG_LEXER
structure ParserData: PARSER_DATA
structure LrParser : LR_PARSER
sharing ParserData.LrTable = LrParser.LrTable
sharing ParserData.Token = LrParser.Token
sharing type Lex.UserDeclarations.svalue = ParserData.svalue
sharing type Lex.UserDeclarations.pos = ParserData.pos
sharing type Lex.UserDeclarations.token = ParserData.Token.token)
: ARG_PARSER =
struct
structure Token = ParserData.Token
structure Stream = LrParser.Stream
exception ParseError = LrParser.ParseError
type arg = ParserData.arg
type lexarg = Lex.UserDeclarations.arg
type pos = ParserData.pos
type result = ParserData.result
type svalue = ParserData.svalue
val makeLexer = fn s => fn arg =>
LrParser.Stream.streamify (Lex.makeLexer s arg)
val parse = fn (lookahead,lexer,error,arg) =>
(fn (a,b) => (ParserData.Actions.extract a,b))
(LrParser.parse {table = ParserData.table,
lexer=lexer,
lookahead=lookahead,
saction = ParserData.Actions.actions,
arg=arg,
void= ParserData.Actions.void,
ec = {is_keyword = ParserData.EC.is_keyword,
noShift = ParserData.EC.noShift,
preferred_change = ParserData.EC.preferred_change,
errtermvalue = ParserData.EC.errtermvalue,
error=error,
showTerminal = ParserData.EC.showTerminal,
terms = ParserData.EC.terms}}
)
val sameToken = Token.sameToken
end;

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ml-yacc-lib/lrtable.sml Normal file
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(******************************************************************************
* STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
*
* Copyright (c) 1989-2002 by Lucent Technologies
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both the copyright notice and this permission notice and warranty
* disclaimer appear in supporting documentation, and that the name of
* Lucent Technologies, Bell Labs or any Lucent entity not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* Lucent disclaims all warranties with regard to this software,
* including all implied warranties of merchantability and fitness. In no
* event shall Lucent be liable for any special, indirect or
* consequential damages or any damages whatsoever resulting from loss of
* use, data or profits, whether in an action of contract, negligence or
* other tortious action, arising out of or in connection with the use
* or performance of this software.
******************************************************************************)
(* $Id$ *)
(* ML-Yacc Parser Generator (c) 1989 Andrew W. Appel, David R. Tarditi *)
structure LrTable : LR_TABLE =
struct
open Array List
infix 9 sub
datatype ('a,'b) pairlist = EMPTY
| PAIR of 'a * 'b * ('a,'b) pairlist
datatype term = T of int
datatype nonterm = NT of int
datatype state = STATE of int
datatype action = SHIFT of state
| REDUCE of int (* rulenum from grammar *)
| ACCEPT
| ERROR
exception Goto of state * nonterm
type table = {states: int, rules : int,initialState: state,
action: ((term,action) pairlist * action) array,
goto : (nonterm,state) pairlist array}
val numStates = fn ({states,...} : table) => states
val numRules = fn ({rules,...} : table) => rules
val describeActions =
fn ({action,...} : table) =>
fn (STATE s) => action sub s
val describeGoto =
fn ({goto,...} : table) =>
fn (STATE s) => goto sub s
fun findTerm (T term,row,default) =
let fun find (PAIR (T key,data,r)) =
if key < term then find r
else if key=term then data
else default
| find EMPTY = default
in find row
end
fun findNonterm (NT nt,row) =
let fun find (PAIR (NT key,data,r)) =
if key < nt then find r
else if key=nt then SOME data
else NONE
| find EMPTY = NONE
in find row
end
val action = fn ({action,...} : table) =>
fn (STATE state,term) =>
let val (row,default) = action sub state
in findTerm(term,row,default)
end
val goto = fn ({goto,...} : table) =>
fn (a as (STATE state,nonterm)) =>
case findNonterm(nonterm,goto sub state)
of SOME state => state
| NONE => raise (Goto a)
val initialState = fn ({initialState,...} : table) => initialState
val mkLrTable = fn {actions,gotos,initialState,numStates,numRules} =>
({action=actions,goto=gotos,
states=numStates,
rules=numRules,
initialState=initialState} : table)
end;

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ml-yacc-lib/parser2.sml Normal file
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(******************************************************************************
* STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
*
* Copyright (c) 1989-2002 by Lucent Technologies
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both the copyright notice and this permission notice and warranty
* disclaimer appear in supporting documentation, and that the name of
* Lucent Technologies, Bell Labs or any Lucent entity not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* Lucent disclaims all warranties with regard to this software,
* including all implied warranties of merchantability and fitness. In no
* event shall Lucent be liable for any special, indirect or
* consequential damages or any damages whatsoever resulting from loss of
* use, data or profits, whether in an action of contract, negligence or
* other tortious action, arising out of or in connection with the use
* or performance of this software.
******************************************************************************)
(* $Id$ *)
(* ML-Yacc Parser Generator (c) 1989 Andrew W. Appel, David R. Tarditi *)
(* parser.sml: This is a parser driver for LR tables with an error-recovery
routine added to it. The routine used is described in detail in this
article:
'A Practical Method for LR and LL Syntactic Error Diagnosis and
Recovery', by M. Burke and G. Fisher, ACM Transactions on
Programming Langauges and Systems, Vol. 9, No. 2, April 1987,
pp. 164-197.
This program is an implementation is the partial, deferred method discussed
in the article. The algorithm and data structures used in the program
are described below.
This program assumes that all semantic actions are delayed. A semantic
action should produce a function from unit -> value instead of producing the
normal value. The parser returns the semantic value on the top of the
stack when accept is encountered. The user can deconstruct this value
and apply the unit -> value function in it to get the answer.
It also assumes that the lexer is a lazy stream.
Data Structures:
----------------
* The parser:
The state stack has the type
(state * (semantic value * line # * line #)) list
The parser keeps a queue of (state stack * lexer pair). A lexer pair
consists of a terminal * value pair and a lexer. This allows the
parser to reconstruct the states for terminals to the left of a
syntax error, and attempt to make error corrections there.
The queue consists of a pair of lists (x,y). New additions to
the queue are cons'ed onto y. The first element of x is the top
of the queue. If x is nil, then y is reversed and used
in place of x.
Algorithm:
----------
* The steady-state parser:
This parser keeps the length of the queue of state stacks at
a steady state by always removing an element from the front when
another element is placed on the end.
It has these arguments:
stack: current stack
queue: value of the queue
lexPair ((terminal,value),lex stream)
When SHIFT is encountered, the state to shift to and the value are
are pushed onto the state stack. The state stack and lexPair are
placed on the queue. The front element of the queue is removed.
When REDUCTION is encountered, the rule is applied to the current
stack to yield a triple (nonterm,value,new stack). A new
stack is formed by adding (goto(top state of stack,nonterm),value)
to the stack.
When ACCEPT is encountered, the top value from the stack and the
lexer are returned.
When an ERROR is encountered, fixError is called. FixError
takes the arguments to the parser, fixes the error if possible and
returns a new set of arguments.
* The distance-parser:
This parser includes an additional argument distance. It pushes
elements on the queue until it has parsed distance tokens, or an
ACCEPT or ERROR occurs. It returns a stack, lexer, the number of
tokens left unparsed, a queue, and an action option.
*)
signature FIFO =
sig type 'a queue
val empty : 'a queue
exception Empty
val get : 'a queue -> 'a * 'a queue
val put : 'a * 'a queue -> 'a queue
end
(* drt (12/15/89) -- the functor should be used in development work, but
it wastes space in the release version.
functor ParserGen(structure LrTable : LR_TABLE
structure Stream : STREAM) : LR_PARSER =
*)
structure LrParser :> LR_PARSER =
struct
structure LrTable = LrTable
structure Stream = Stream
val print = warning (* fn s => TextIO.output(TextIO.stdOut,s) *)
fun eqT (LrTable.T i, LrTable.T i') = i = i'
structure Token : TOKEN =
struct
structure LrTable = LrTable
datatype ('a,'b) token = TOKEN of LrTable.term * ('a * 'b * 'b)
val sameToken = fn (TOKEN(t,_),TOKEN(t',_)) => eqT (t,t')
end
open LrTable
open Token
val DEBUG1 = false
val DEBUG2 = false
exception ParseError
exception ParseImpossible of int
structure Fifo :> FIFO =
struct
type 'a queue = ('a list * 'a list)
val empty = (nil,nil)
exception Empty
fun get(a::x, y) = (a, (x,y))
| get(nil, nil) = raise Empty
| get(nil, y) = get(rev y, nil)
fun put(a,(x,y)) = (x,a::y)
end
type ('a,'b) elem = (state * ('a * 'b * 'b))
type ('a,'b) stack = ('a,'b) elem list
type ('a,'b) lexv = ('a,'b) token
type ('a,'b) lexpair = ('a,'b) lexv * (('a,'b) lexv Stream.stream)
type ('a,'b) distanceParse =
('a,'b) lexpair *
('a,'b) stack *
(('a,'b) stack * ('a,'b) lexpair) Fifo.queue *
int ->
('a,'b) lexpair *
('a,'b) stack *
(('a,'b) stack * ('a,'b) lexpair) Fifo.queue *
int *
action option
type ('a,'b) ecRecord =
{is_keyword : term -> bool,
preferred_change : (term list * term list) list,
error : string * 'b * 'b -> unit,
errtermvalue : term -> 'a,
terms : term list,
showTerminal : term -> string,
noShift : term -> bool}
local
val print = warning (* fn s => TextIO.output(TextIO.stdOut,s) *)
val println = fn s => (print s; print "\n")
val showState = fn (STATE s) => "STATE " ^ (Int.toString s)
in
fun printStack(stack: ('a,'b) stack, n: int) =
case stack
of (state,_) :: rest =>
(print("\t" ^ Int.toString n ^ ": ");
println(showState state);
printStack(rest, n+1))
| nil => ()
fun prAction showTerminal
(stack as (state,_) :: _, next as (TOKEN (term,_),_), action) =
(println "Parse: state stack:";
printStack(stack, 0);
print(" state="
^ showState state
^ " next="
^ showTerminal term
^ " action="
);
case action
of SHIFT state => println ("SHIFT " ^ (showState state))
| REDUCE i => println ("REDUCE " ^ (Int.toString i))
| ERROR => println "ERROR"
| ACCEPT => println "ACCEPT")
| prAction _ (_,_,action) = ()
end
(* ssParse: parser which maintains the queue of (state * lexvalues) in a
steady-state. It takes a table, showTerminal function, saction
function, and fixError function. It parses until an ACCEPT is
encountered, or an exception is raised. When an error is encountered,
fixError is called with the arguments of parseStep (lexv,stack,and
queue). It returns the lexv, and a new stack and queue adjusted so
that the lexv can be parsed *)
val ssParse =
fn (table,showTerminal,saction,fixError,arg) =>
let val prAction = prAction showTerminal
val action = LrTable.action table
val goto = LrTable.goto table
fun parseStep(args as
(lexPair as (TOKEN (terminal, value as (_,leftPos,_)),
lexer
),
stack as (state,_) :: _,
queue)) =
let val nextAction = action (state,terminal)
val _ = if DEBUG1 then prAction(stack,lexPair,nextAction)
else ()
in case nextAction
of SHIFT s =>
let val newStack = (s,value) :: stack
val newLexPair = Stream.get lexer
val (_,newQueue) =Fifo.get(Fifo.put((newStack,newLexPair),
queue))
in parseStep(newLexPair,(s,value)::stack,newQueue)
end
| REDUCE i =>
(case saction(i,leftPos,stack,arg)
of (nonterm,value,stack as (state,_) :: _) =>
parseStep(lexPair,(goto(state,nonterm),value)::stack,
queue)
| _ => raise (ParseImpossible 197))
| ERROR => parseStep(fixError args)
| ACCEPT =>
(case stack
of (_,(topvalue,_,_)) :: _ =>
let val (token,restLexer) = lexPair
in (topvalue,Stream.cons(token,restLexer))
end
| _ => raise (ParseImpossible 202))
end
| parseStep _ = raise (ParseImpossible 204)
in parseStep
end
(* distanceParse: parse until n tokens are shifted, or accept or
error are encountered. Takes a table, showTerminal function, and
semantic action function. Returns a parser which takes a lexPair
(lex result * lexer), a state stack, a queue, and a distance
(must be > 0) to parse. The parser returns a new lex-value, a stack
with the nth token shifted on top, a queue, a distance, and action
option. *)
val distanceParse =
fn (table,showTerminal,saction,arg) =>
let val prAction = prAction showTerminal
val action = LrTable.action table
val goto = LrTable.goto table
fun parseStep(lexPair,stack,queue,0) = (lexPair,stack,queue,0,NONE)
| parseStep(lexPair as (TOKEN (terminal, value as (_,leftPos,_)),
lexer
),
stack as (state,_) :: _,
queue,distance) =
let val nextAction = action(state,terminal)
val _ = if DEBUG1 then prAction(stack,lexPair,nextAction)
else ()
in case nextAction
of SHIFT s =>
let val newStack = (s,value) :: stack
val newLexPair = Stream.get lexer
in parseStep(newLexPair,(s,value)::stack,
Fifo.put((newStack,newLexPair),queue),distance-1)
end
| REDUCE i =>
(case saction(i,leftPos,stack,arg)
of (nonterm,value,stack as (state,_) :: _) =>
parseStep(lexPair,(goto(state,nonterm),value)::stack,
queue,distance)
| _ => raise (ParseImpossible 240))
| ERROR => (lexPair,stack,queue,distance,SOME nextAction)
| ACCEPT => (lexPair,stack,queue,distance,SOME nextAction)
end
| parseStep _ = raise (ParseImpossible 242)
in parseStep : ('_a,'_b) distanceParse
end
(* mkFixError: function to create fixError function which adjusts parser state
so that parse may continue in the presence of an error *)
fun mkFixError({is_keyword,terms,errtermvalue,
preferred_change,noShift,
showTerminal,error,...} : ('_a,'_b) ecRecord,
distanceParse : ('_a,'_b) distanceParse,
minAdvance,maxAdvance)
(lexv as (TOKEN (term,value as (_,leftPos,_)),_),stack,queue) =
let val _ = if DEBUG2 then
error("syntax error found at " ^ (showTerminal term),
leftPos,leftPos)
else ()
fun tokAt(t,p) = TOKEN(t,(errtermvalue t,p,p))
val minDelta = 3
(* pull all the state * lexv elements from the queue *)
val stateList =
let fun f q = let val (elem,newQueue) = Fifo.get q
in elem :: (f newQueue)
end handle Fifo.Empty => nil
in f queue
end
(* now number elements of stateList, giving distance from
error token *)
val (_, numStateList) =
List.foldr (fn (a,(num,r)) => (num+1,(a,num)::r)) (0, []) stateList
(* Represent the set of potential changes as a linked list.
Values of datatype Change hold information about a potential change.
oper = oper to be applied
pos = the # of the element in stateList that would be altered.
distance = the number of tokens beyond the error token which the
change allows us to parse.
new = new terminal * value pair at that point
orig = original terminal * value pair at the point being changed.
*)
datatype ('a,'b) change = CHANGE of
{pos : int, distance : int, leftPos: 'b, rightPos: 'b,
new : ('a,'b) lexv list, orig : ('a,'b) lexv list}
val showTerms = String.concat o map (fn TOKEN(t,_) => " " ^ showTerminal t)
val printChange = fn c =>
let val CHANGE {distance,new,orig,pos,...} = c
in (print ("{distance= " ^ (Int.toString distance));
print (",orig ="); print(showTerms orig);
print (",new ="); print(showTerms new);
print (",pos= " ^ (Int.toString pos));
print "}\n")
end
val printChangeList = app printChange
(* parse: given a lexPair, a stack, and the distance from the error
token, return the distance past the error token that we are able to parse.*)
fun parse (lexPair,stack,queuePos : int) =
case distanceParse(lexPair,stack,Fifo.empty,queuePos+maxAdvance+1)
of (_,_,_,distance,SOME ACCEPT) =>
if maxAdvance-distance-1 >= 0
then maxAdvance
else maxAdvance-distance-1
| (_,_,_,distance,_) => maxAdvance - distance - 1
(* catList: String.concatenate results of scanning list *)
fun catList l f = List.foldr (fn(a,r)=> f a @ r) [] l
fun keywordsDelta new = if List.exists (fn(TOKEN(t,_))=>is_keyword t) new
then minDelta else 0
fun tryChange{lex,stack,pos,leftPos,rightPos,orig,new} =
let val lex' = List.foldr (fn (t',p)=>(t',Stream.cons p)) lex new
val distance = parse(lex',stack,pos+length new-length orig)
in if distance >= minAdvance + keywordsDelta new
then [CHANGE{pos=pos,leftPos=leftPos,rightPos=rightPos,
distance=distance,orig=orig,new=new}]
else []
end
(* tryDelete: Try to delete n terminals.
Return single-element [success] or nil.
Do not delete unshiftable terminals. *)
fun tryDelete n ((stack,lexPair as (TOKEN(term,(_,l,r)),_)),qPos) =
let fun del(0,accum,left,right,lexPair) =
tryChange{lex=lexPair,stack=stack,
pos=qPos,leftPos=left,rightPos=right,
orig=rev accum, new=[]}
| del(n,accum,left,right,(tok as TOKEN(term,(_,_,r)),lexer)) =
if noShift term then []
else del(n-1,tok::accum,left,r,Stream.get lexer)
in del(n,[],l,r,lexPair)
end
(* tryInsert: try to insert tokens before the current terminal;
return a list of the successes *)
fun tryInsert((stack,lexPair as (TOKEN(_,(_,l,_)),_)),queuePos) =
catList terms (fn t =>
tryChange{lex=lexPair,stack=stack,
pos=queuePos,orig=[],new=[tokAt(t,l)],
leftPos=l,rightPos=l})
(* trySubst: try to substitute tokens for the current terminal;
return a list of the successes *)
fun trySubst ((stack,lexPair as (orig as TOKEN (term,(_,l,r)),lexer)),
queuePos) =
if noShift term then []
else
catList terms (fn t =>
tryChange{lex=Stream.get lexer,stack=stack,
pos=queuePos,
leftPos=l,rightPos=r,orig=[orig],
new=[tokAt(t,r)]})
(* do_delete(toks,lexPair) tries to delete tokens "toks" from "lexPair".
If it succeeds, returns SOME(toks',l,r,lp), where
toks' is the actual tokens (with positions and values) deleted,
(l,r) are the (leftmost,rightmost) position of toks',
lp is what remains of the stream after deletion
*)
fun do_delete(nil,lp as (TOKEN(_,(_,l,_)),_)) = SOME(nil,l,l,lp)
| do_delete([t],(tok as TOKEN(t',(_,l,r)),lp')) =
if eqT (t, t')
then SOME([tok],l,r,Stream.get lp')
else NONE
| do_delete(t::rest,(tok as TOKEN(t',(_,l,r)),lp')) =
if eqT (t,t')
then case do_delete(rest,Stream.get lp')
of SOME(deleted,l',r',lp'') =>
SOME(tok::deleted,l,r',lp'')
| NONE => NONE
else NONE
fun tryPreferred((stack,lexPair),queuePos) =
catList preferred_change (fn (delete,insert) =>
if List.exists noShift delete then [] (* should give warning at
parser-generation time *)
else case do_delete(delete,lexPair)
of SOME(deleted,l,r,lp) =>
tryChange{lex=lp,stack=stack,pos=queuePos,
leftPos=l,rightPos=r,orig=deleted,
new=map (fn t=>(tokAt(t,r))) insert}
| NONE => [])
val changes = catList numStateList tryPreferred @
catList numStateList tryInsert @
catList numStateList trySubst @
catList numStateList (tryDelete 1) @
catList numStateList (tryDelete 2) @
catList numStateList (tryDelete 3)
val findMaxDist = fn l =>
List.foldr (fn (CHANGE {distance,...},high) => Int.max(distance,high)) 0 l
(* maxDist: max distance past error taken that we could parse *)
val maxDist = findMaxDist changes
(* remove changes which did not parse maxDist tokens past the error token *)
val changes = catList changes
(fn(c as CHANGE{distance,...}) =>
if distance=maxDist then [c] else [])
in case changes
of (l as change :: _) =>
let fun print_msg (CHANGE {new,orig,leftPos,rightPos,...}) =
let val s =
case (orig,new)
of (_::_,[]) => "deleting " ^ (showTerms orig)
| ([],_::_) => "inserting " ^ (showTerms new)
| _ => "replacing " ^ (showTerms orig) ^
" with " ^ (showTerms new)
in error ("syntax error: " ^ s,leftPos,rightPos)
end
val _ =
(if length l > 1 andalso DEBUG2 then
(print "multiple fixes possible; could fix it by:\n";
app print_msg l;
print "chosen correction:\n")
else ();
print_msg change)
(* findNth: find nth queue entry from the error
entry. Returns the Nth queue entry and the portion of
the queue from the beginning to the nth-1 entry. The
error entry is at the end of the queue.
Examples:
queue = a b c d e
findNth 0 = (e,a b c d)
findNth 1 = (d,a b c)
*)
val findNth = fn n =>
let fun f (h::t,0) = (h,rev t)
| f (h::t,n) = f(t,n-1)
| f (nil,_) = let exception FindNth
in raise FindNth
end
in f (rev stateList,n)
end
val CHANGE {pos,orig,new,...} = change
val (last,queueFront) = findNth pos
val (stack,lexPair) = last
val lp1 = List.foldl(fn (_,(_,r)) => Stream.get r) lexPair orig
val lp2 = List.foldr(fn(t,r)=>(t,Stream.cons r)) lp1 new
val restQueue =
Fifo.put((stack,lp2),
List.foldl Fifo.put Fifo.empty queueFront)
val (lexPair,stack,queue,_,_) =
distanceParse(lp2,stack,restQueue,pos)
in (lexPair,stack,queue)
end
| nil => (error("syntax error found at " ^ (showTerminal term),
leftPos,leftPos); raise ParseError)
end
val parse = fn {arg,table,lexer,saction,void,lookahead,
ec=ec as {showTerminal,...} : ('_a,'_b) ecRecord} =>
let val distance = 15 (* defer distance tokens *)
val minAdvance = 1 (* must parse at least 1 token past error *)
val maxAdvance = Int.max(lookahead,0)(* max distance for parse check *)
val lexPair = Stream.get lexer
val (TOKEN (_,(_,leftPos,_)),_) = lexPair
val startStack = [(initialState table,(void,leftPos,leftPos))]
val startQueue = Fifo.put((startStack,lexPair),Fifo.empty)
val distanceParse = distanceParse(table,showTerminal,saction,arg)
val fixError = mkFixError(ec,distanceParse,minAdvance,maxAdvance)
val ssParse = ssParse(table,showTerminal,saction,fixError,arg)
fun loop (lexPair,stack,queue,_,SOME ACCEPT) =
ssParse(lexPair,stack,queue)
| loop (lexPair,stack,queue,0,_) = ssParse(lexPair,stack,queue)
| loop (lexPair,stack,queue,distance,SOME ERROR) =
let val (lexPair,stack,queue) = fixError(lexPair,stack,queue)
in loop (distanceParse(lexPair,stack,queue,distance))
end
| loop _ = let exception ParseInternal
in raise ParseInternal
end
in loop (distanceParse(lexPair,startStack,startQueue,distance))
end
end;

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(******************************************************************************
* STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
*
* Copyright (c) 1989-2002 by Lucent Technologies
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both the copyright notice and this permission notice and warranty
* disclaimer appear in supporting documentation, and that the name of
* Lucent Technologies, Bell Labs or any Lucent entity not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* Lucent disclaims all warranties with regard to this software,
* including all implied warranties of merchantability and fitness. In no
* event shall Lucent be liable for any special, indirect or
* consequential damages or any damages whatsoever resulting from loss of
* use, data or profits, whether in an action of contract, negligence or
* other tortious action, arising out of or in connection with the use
* or performance of this software.
******************************************************************************)
(* $Id$ *)
use "base.sig";
use "join.sml";
use "lrtable.sml";
use "stream.sml";
use "parser2.sml";

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(******************************************************************************
* STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
*
* Copyright (c) 1989-2002 by Lucent Technologies
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both the copyright notice and this permission notice and warranty
* disclaimer appear in supporting documentation, and that the name of
* Lucent Technologies, Bell Labs or any Lucent entity not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission.
*
* Lucent disclaims all warranties with regard to this software,
* including all implied warranties of merchantability and fitness. In no
* event shall Lucent be liable for any special, indirect or
* consequential damages or any damages whatsoever resulting from loss of
* use, data or profits, whether in an action of contract, negligence or
* other tortious action, arising out of or in connection with the use
* or performance of this software.
******************************************************************************)
(* $Id$ *)
(* ML-Yacc Parser Generator (c) 1989 Andrew W. Appel, David R. Tarditi *)
(* Stream: a structure implementing a lazy stream. The signature STREAM
is found in base.sig *)
structure Stream :> STREAM =
struct
datatype 'a str = EVAL of 'a * 'a str Unsynchronized.ref | UNEVAL of (unit->'a)
type 'a stream = 'a str Unsynchronized.ref
fun get(Unsynchronized.ref(EVAL t)) = t
| get(s as Unsynchronized.ref(UNEVAL f)) =
let val t = (f(), Unsynchronized.ref(UNEVAL f)) in s := EVAL t; t end
fun streamify f = Unsynchronized.ref(UNEVAL f)
fun cons(a,s) = Unsynchronized.ref(EVAL(a,s))
end;

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(***********************************************************************************
* Copyright (c) 2005-2021 Achim D. Brucker
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice, this
*
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* SPDX-License-Identifier: BSD-2-Clause
* Repository: https://git.logicalhacking.com/adbrucker/isabelle-hacks/
* Dependencies: None
***********************************************************************************)
(***********************************************************************************
# Changelog
This comment documents all notable changes to this file in a format inspired by
[Keep a Changelog](https://keepachangelog.com/en/1.0.0/), and this project adheres
to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [Unreleased]
## [1.0.0] - 2021-04-29
- Initial release as part of "Isabelle Hacks".
***********************************************************************************)
chapter\<open>ML Yacc Library for Isabelle\<close>
theory
"ml_yacc_lib"
imports
Main
begin
ML_file "ml-yacc-lib/base.sig"
ML_file "ml-yacc-lib/join.sml"
ML_file "ml-yacc-lib/lrtable.sml"
ML_file "ml-yacc-lib/stream.sml"
ML_file "ml-yacc-lib/parser2.sml"
(*
The files in the directory "ml-yacc-lib" are part of the sml/NJ language
processing tools. It was modified to work with Isabelle/ML by Achim D. Brucker.
It was downloaded from http://smlnj.cs.uchicago.edu/dist/working
Upstream Authors: The SML/NJ Team <smlnj-dev-list@lists.sourceforge.net>
Copyright: 2003-2008 The SML/NJ Fellowship
1989-2002 Lucent Technologies
1991-2003 John Reppy
1996-1998,2000 YALE FLINT PROJECT
1992 Vrije Universiteit, The Netherlands
1989-1992 Andrew W. Appel, James S. Mattson, David R. Tarditi
1988 Evans & Sutherland Computer Corporation, Salt Lake City, Utah
STANDARD ML OF NEW JERSEY COPYRIGHT NOTICE, LICENSE AND DISCLAIMER.
Copyright (c) 1989-2002 by Lucent Technologies
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted,
provided that the above copyright notice appear in all copies and that
both the copyright notice and this permission notice and warranty
disclaimer appear in supporting documentation, and that the name of
Lucent Technologies, Bell Labs or any Lucent entity not be used in
advertising or publicity pertaining to distribution of the software
without specific, written prior permission.
Lucent disclaims all warranties with regard to this software,
including all implied warranties of merchantability and fitness. In no
event shall Lucent be liable for any special, indirect or
consequential damages or any damages whatsoever resulting from loss of
use, data or profits, whether in an action of contract, negligence or
other tortious action, arising out of or in connection with the use
or performance of this software.
The SML/NJ distribution also includes code licensed under the same
terms as above, but with "David R. Tarditi Jr. and Andrew W. Appel",
"Vrije Universiteit" or "Evans & Sutherland" instead of "Lucent".
*)
end