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|
;; Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
;; 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 list of conditions and the following disclaimer.
;;
;; - 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.
;;
;; - Neither the name of The Numerical ALgorithms Group Ltd. nor the
;; names of its contributors may be used to endorse or promote products
;; derived from this software without specific prior written permission.
;;
;; 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 OWNER
;; 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.
; NAME: META/LISP Parser Generator and Lexical Analysis Utilities (Parsing)
;
; PURPOSE: This package provides routines to support the Metalanguage
; translator writing system. Metalanguage is described
; in META/LISP, R.D. Jenks, Tech Report, IBM T.J. Watson Research Center,
; 1969. Familiarity with this document is assumed.
;
; The parser generator itself is described in either the file
; MetaBoot.lisp (hand-coded version) or the file MetaMeta.lisp (machine
; generated from self-descriptive Meta code), both of which load themselves
; into package Parsing.
; CONTENTS:
;
; 0. Current I/O Stream definition
;
; 1. Data structure declarations (defstructs) for parsing objects
;
; A. Line Buffer
; B. Stack
; C. Token
; D. Reduction
;
; 2. Recursive descent parsing support routines
; A. Stacking and retrieving reductions of rules.
; B. Applying metagrammatical elements of a production (e.g., Star).
;
; 3. Routines for handling lexical scanning
;
; A. Manipulating the token stack and reading tokens
; B. Error handling
; C. Constructing parsing procedures
; D. Managing rule sets
;
; 4. Tracing routines
;
; 5. Routines for inspecting and resetting total I/O system state
;
; METALEX.LISP: Meta file handling, auxiliary parsing actions and tokenizing
;
; BOOTLEX.LISP: Boot file handling, auxiliary parsing actions and tokenizing
; NEWMETA.LISP: Boot parsing
(import-module "vmlisp")
(in-package "BOOT")
; 0. Current I/O Stream definition
(defparameter in-stream t "Current input stream.")
(defparameter out-stream t "Current output stream.")
(defparameter File-Closed nil "Way to stop EOF tests for console input.")
(defun IOStreams-Show ()
(format t "~&Input is coming from ~A, and output is going to ~A.~%"
(or (streamp in-stream) "the keyboard")
(or (streamp out-stream) "the screen"))
(format t "~:[~;The current input stream is logically closed.~%~]~%" File-Closed))
(defmacro IOStreams-Set (input output) `(setq in-stream ,input out-stream ,output))
(defmacro IOStreams-Clear (&optional (in t) (out t))
`(progn (and (streamp in-stream) (close in-stream))
(and (streamp out-stream) (close out-stream))
(setq File-Closed nil)
(IOStreams-Set ,in ,out)))
; 1. Data structure declarations (defstructs) for parsing objects
;
; A. Line Buffer
; B. Stack
; C. Token
; D. Reduction
; 1A. A Line Buffer
;
; The philosophy of lines is that
;
; a) NEXT LINE will always get you a non-blank line or fail.
; b) Every line is terminated by a blank character.
;
; Hence there is always a current character, because there is never a non-blank line,
; and there is always a separator character between tokens on separate lines.
; Also, when a line is read, the character pointer is always positioned ON the first
; character.
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Line-Buffer, Line-Current-Char, Line-Current-Index, Line-Last-Index, Line-Number
; Line-New-Line, Line-Advance-Char, Line-Past-End-P, Line-At-End-P
; Make-Line
(defstruct Line "Line of input file to parse."
(Buffer (make-string 0) :type string)
(Current-Char #\Return :type character)
(Current-Index 1 :type fixnum)
(Last-Index 0 :type fixnum)
(Number 0 :type fixnum))
(defun Line-Print (line)
(format out-stream "~&~5D> ~A~%" (Line-Number line) (Line-Buffer Line))
(format out-stream "~v@T^~%" (+ 7 (Line-Current-Index line))))
(defmacro Line-Clear (line)
`(let ((l ,line))
(setf (Line-Buffer l) (make-string 0)
(Line-Current-Char l) #\Return
(Line-Current-Index l) 1
(Line-Last-Index l) 0
(Line-Number l) 0)))
(defun Line-Current-Segment (line)
"Buffer from current index to last index."
(if (line-at-end-p line) (make-string 0)
(subseq (Line-Buffer line)
(Line-Current-Index line)
(Line-Last-Index line))))
(defun Line-New-Line (string line &optional (linenum nil))
"Sets string to be the next line stored in line."
(setf (Line-Last-Index line) (1- (length string))
(Line-Current-Index line) 0
(Line-Current-Char line) (or (and (> (length string) 0) (elt string 0)) #\Return)
(Line-Buffer line) string
(Line-Number line) (or linenum (1+ (Line-Number line)))))
(defun Line-Advance-Char (line)
(setf (Line-Current-Char line)
(elt (Line-Buffer line) (incf (Line-Current-Index line)))))
(defun Line-Next-Char (line)
(elt (Line-Buffer line) (1+ (Line-Current-Index line))))
(defun Line-Past-End-P (line)
"Tests if line is empty or positioned past the last character."
(> (line-current-index line) (line-last-index line)))
(defun Line-At-End-P (line)
"Tests if line is empty or positioned past the last character."
(>= (line-current-index line) (line-last-index line)))
; 1B. A Stack (of lines, tokens, or whatever)
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Make-Stack, Stack-Store, Stack-Size, Stack-Top, Stack-Load, Stack-Clear,
; Stack-/-Empty, Stack-Push, Stack-Pop
(defstruct Stack "A stack"
(Store nil) ; contents of the stack
(Size 0) ; number of elements in Store
(Top nil) ; first element of Store
(Updated nil) ; whether something has been pushed on the stack
; since this flag was last set to NIL
)
(defun stack-load (list stack)
(setf (stack-store stack) list
(stack-size stack) (length list)
(stack-top stack) (car list)))
(defun stack-clear (stack)
(setf (stack-store stack) nil (stack-size stack) 0 (stack-top stack) nil
(stack-updated stack) nil))
(defmacro stack-/-empty (stack) `(> (stack-size ,stack) 0))
(defun stack-push (x stack)
(push x (stack-store stack))
(setf (stack-top stack) x (stack-updated stack) t)
(incf (stack-size stack))
x)
(defun stack-pop (stack)
(let ((y (pop (stack-store stack))))
(decf (stack-size stack))
(setf (stack-top stack) (if (stack-/-empty stack) (car (stack-store stack))))
y))
; 1C. Token
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Make-Token, Token-Symbol, Token-Type, Token-Install, Token-Print
(defstruct Token
"A token is a Symbol with a Type.
The type is either NUMBER, IDENTIFIER or SPECIAL-CHAR.
NonBlank is true if the token is not preceded by a blank."
(Symbol nil)
(Type nil)
(NonBlank t))
(defparameter Prior-Token (make-token) "What did I see last")
(defparameter nonblank t "Is there no blank in front of the current token.")
(defparameter Current-Token (make-token) "Token at head of input stream.")
(defparameter Next-Token (make-token) "Next token in input stream.")
(defparameter Valid-Tokens 0 "Number of tokens in buffer (0, 1 or 2)")
(defun Token-Install (symbol type token &optional (nonblank t))
(setf (token-symbol token) symbol (token-type token) type
(token-nonblank token) nonblank)
token)
(defun Token-Print (token)
(format out-stream "(token (symbol ~S) (type ~S))~%"
(Token-Symbol token) (Token-Type token)))
; 1D. A Reduction
;
(defstruct (Reduction (:type list))
"A reduction of a rule is any S-Expression the rule chooses to stack."
(Rule nil) ; Name of rule
(Value nil))
; 2. Recursive descent parsing support routines (semantically related to MetaLanguage)
;
; This section of the code contains:
;
; A. Routines for stacking and retrieving reductions of rules.
; B. Routines for applying certain metagrammatical elements
; of a production (e.g., Star).
; C. Token-level parsing utilities (keywords, strings, identifiers).
; 2A. Routines for stacking and retrieving reductions of rules.
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Push-Reduction Pop-Reduction
(defparameter Reduce-Stack (make-stack) "Stack of results of reduced productions.")
(defun Push-Reduction (rule redn)
(stack-push (make-reduction :rule rule :value redn) Reduce-Stack))
(defun reduce-stack-show ()
(let ((store (stack-store reduce-stack))
(*print-pretty* t))
(if store
(progn (format t "~%Reduction stack contains:~%")
(mapcar #'(lambda (x) (if (eq (type-of x) 'token)
#+Symbolics (zl:describe-defstruct x)
#-Symbolics (describe x)
(print x)))
(stack-store reduce-stack)))
(format t "~%There is nothing on the reduction stack.~%"))))
(defmacro reduce-stack-clear () `(stack-load nil reduce-stack))
(defun Pop-Reduction () (stack-pop Reduce-Stack))
(defmacro pop-stack-1 () '(reduction-value (Pop-Reduction)))
(defmacro pop-stack-2 ()
`(let* ((top (Pop-Reduction)) (next (Pop-Reduction)))
(stack-push top Reduce-Stack)
(reduction-value next)))
(defmacro pop-stack-3 ()
`(let* ((top (Pop-Reduction)) (next (Pop-Reduction)) (nnext (Pop-Reduction)))
(stack-push next Reduce-Stack)
(stack-push top Reduce-Stack)
(reduction-value nnext)))
(defmacro pop-stack-4 ()
`(let* ((top (Pop-Reduction))
(next (Pop-Reduction))
(nnext (Pop-Reduction))
(nnnext (Pop-Reduction)))
(stack-push nnext Reduce-Stack)
(stack-push next Reduce-Stack)
(stack-push top Reduce-Stack)
(reduction-value nnnext)))
(defmacro nth-stack (x)
`(reduction-value (nth (1- ,x) (stack-store Reduce-Stack))))
; 2B. Routines for applying certain metagrammatical elements
; of a production (e.g., Star).
; Must means that if it is not present in the token stream, it is a syntax error.
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Star, Bang, Must, Optional, Action, Sequence
(defmacro Star (lab prod)
"Succeeds if there are one or more of PROD, stacking as one unit
the sub-reductions of PROD and labelling them with LAB.
E.G., (Star IDs (parse-id)) with A B C will stack (3 IDs (A B C)),
where (parse-id) would stack (1 ID (A)) when applied once."
`(prog ((oldstacksize (stack-size reduce-stack)))
(if (not ,prod) ;(progn (format t "~&Star failed for ~A.~%" ',lab) (return nil)))
(return nil))
loop (if (not ,prod)
(let* ((newstacksize (stack-size reduce-stack))
(number-of-new-reductions (- newstacksize oldstacksize)))
; (format t "~&Starring ~A with ~D new reductions.~%"
; ',lab number-of-new-reductions)
(if (> number-of-new-reductions 0)
(return (do ((i 0 (1+ i)) (accum nil))
((= i number-of-new-reductions)
(Push-Reduction ',lab accum)
; (format t "~&Star accumulated ~D reductions.~%"
; (length accum))
(return t))
(push (pop-stack-1) accum)))
(return t)))
(go loop))))
(defmacro Bang (lab prod)
"If the execution of prod does not result in an increase in the size of
the stack, then stack a NIL. Return the value of prod."
`(progn (setf (stack-updated reduce-stack) nil)
; (format t "~&Banging ~A~:[~; and I think the stack is updated!~].~%" ',lab
; (stack-updated reduce-stack))
(let* ((prodvalue ,prod)
(updated (stack-updated reduce-stack)))
; (format t "~&Bang thinks that ~A ~:[didn't do anything~;did something~].~&"
; ',lab prodvalue)
(if updated
(progn ; (format t "~&Banged ~A and I think the stack is updated!~%" ',lab)
prodvalue)
(progn (push-reduction ',lab nil)
; (format t "~&Banged ~A.~%" ',lab)
prodvalue)))))
(defmacro must (dothis &optional (this-is nil) (in-rule nil))
`(or ,dothis (meta-syntax-error ,this-is ,in-rule)))
; Optional means that if it is present in the token stream, that is a good thing,
; otherwise don't worry (like [ foo ] in BNF notation).
(defun Optional (dothis) (or dothis t))
; Action is something we do as a consequence of successful parsing; it is
; inserted at the end of the conjunction of requirements for a successful
; parse, and so should return T.
(defun action (dothis) (or dothis t))
; A sequence consists of a head, which if recognized implies that the
; tail must follow. Following tail are actions, which
; are performed upon recognizing the head and tail.
(defmacro sequence (subrules &optional (actions nil))
`(and ,(pop subrules) . ,(append (mapcar #'(lambda (x) (list 'must x)) subrules)
(if actions `((progn . ,(append actions '(t))))))))
; 3. Routines for handling lexical scanning
;
; Lexical scanning of tokens is performed off of the current line. No
; token can span more than 1 line. All real I/O is handled in a line-oriented
; fashion (in a slight paradox) below the character level. All character
; routines implicitly assume the parameter Current-Line. We do not make
; Current-Line an explicit optional parameter for reasons of efficiency.
(defparameter Current-Line (make-line) "Current input line.")
(defmacro current-line-print () '(Line-Print Current-Line))
(defmacro current-line-show ()
`(if (line-past-end-p current-line)
(format t "~&The current line is empty.~%")
(progn (format t "~&The current line is:~%~%")
(current-line-print))))
(defmacro current-line-clear () `(Line-Clear Current-Line))
; 3A. Manipulating the token stack and reading tokens
; This section is broken up into 3 levels:
;
; (0) String grabbing: Match String, Match Advance String
; (1) Token handling: Current Token, Next Token, Advance Token
; (2) Character handling: Current Char, Next Char, Advance Char
; (3) Line handling: Next Line, Print Next Line
; (X) Random Stuff
; A good test for lexing is:
(defmacro test-lexing ()
'(with-open-file (in-stream "lisp>meta.meta" :direction :input)
(with-open-file (out-stream "lisp>foo.pars" :direction :output :if-exists :supersede)
(loop (let ((z (advance-token)))
(if z (Token-Print z out-stream) (return nil)))))))
; 3A (0). String grabbing
; String grabbing is the art of matching initial segments of the current
; line, and removing them from the line before the get tokenized if they
; match (or removing the corresponding current tokens).
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Match-String, Match-Advance-String
(defun Match-String (x)
"Returns length of X if X matches initial segment of inputstream."
(unget-tokens) ; So we don't get out of synch with token stream
(skip-blanks)
(if (and (not (Line-Past-End-P Current-Line)) (Current-Char) )
(initial-substring-p x
(subseq (Line-Buffer Current-Line) (Line-Current-Index Current-Line)))))
(defun Match-Advance-String (x)
"Same as MATCH-STRING except if successful, advance inputstream past X."
(let ((y (if (>= (length (string x))
(length (string (quote-if-string (current-token)))))
(Match-String x)
nil))) ; must match at least the current token
(if y (progn (incf (Line-Current-Index Current-Line) y)
(if (not (Line-Past-End-P Current-Line))
(setf (Line-Current-Char Current-Line)
(elt (Line-Buffer Current-Line)
(Line-Current-Index Current-Line)))
(setf (Line-Current-Char Current-Line) #\Space))
(setq prior-token
(make-token :Symbol (intern (string x))
:Type 'identifier
:nonBlank nonblank))
t))))
(defun initial-substring-p (part whole)
"Returns length of part if part matches initial segment of whole."
(let ((x (string-not-greaterp part whole)))
(and x (= x (length part)) x)))
; 3A (1) Token Handling.
; Tokens are acquired from a stream of characters. Lexical analysis is performed
; by the functiond Get Token. One-token lookahead is maintained in variables
; Current-Token and Next-Token by procedures Current Token, Next Token, and
; Advance Token. The functions Match Current Token and Match Next Token recognize
; classes of tokens, by type, or by type and symbol. The current and next tokens
; can be shoved back on the input stream (to the current line) with Unget-Tokens.
(defmacro Defun-Parse-Token (token)
`(defun ,(intern (concatenate 'string "PARSE-" (string token))) ()
(let* ((tok (match-current-token ',token))
(symbol (if tok (token-symbol tok))))
(if tok (progn (Push-Reduction
',(intern (concatenate 'string (string token)
"-TOKEN"))
(copy-tree symbol))
(advance-token)
t)))))
(defun token-stack-show ()
(if (= Valid-Tokens 0) (format t "~%There are no valid tokens.~%")
(format t "~%The number of valid tokens is ~S.~%" Valid-Tokens))
(if (> Valid-Tokens 0)
(progn (format t "The current token is~%")
#+Symbolics (zl:describe-defstruct current-token)
#-Symbolics (describe current-token)
))
(if (> Valid-Tokens 1)
(progn (format t "The next token is~%")
#+Symbolics (zl:describe-defstruct next-token)
#-Symbolics (describe next-token)
))
(if (token-type prior-token)
(progn (format t "The prior token was~%")
#+Symbolics (zl:describe-defstruct prior-token)
#-Symbolics (describe prior-token)
)))
(defmacro token-stack-clear ()
`(progn (setq valid-tokens 0)
(token-install nil nil current-token nil)
(token-install nil nil next-token nil)
(token-install nil nil prior-token nil)))
; Unget-Tokens
(defun quote-if-string (token)
(if token ;only use token-type on non-null tokens
(case (token-type token)
(bstring (strconc "[" (token-symbol token) "]*"))
(string (strconc "'" (token-symbol token) "'"))
(spadstring (strconc "\"" (underscore (token-symbol token)) "\""))
(number (format nil "~v,'0D" (token-nonblank token)
(token-symbol token)))
(special-char (string (token-symbol token)))
(identifier (let ((id (symbol-name (token-symbol token)))
(pack (package-name (symbol-package
(token-symbol token)))))
(if (or $BOOT $SPAD)
(if (equal pack "BOOT")
(escape-keywords (underscore id) (token-symbol token))
(concatenate 'string
(underscore pack) "'" (underscore id)))
id)))
(t (token-symbol token)))
nil))
(defun escape-keywords (pname id)
(if (member id keywords)
(concatenate 'string "_" pname)
pname))
(defun underscore (string)
(if (every #'alpha-char-p string) string
(let* ((size (length string))
(out-string (make-array (* 2 size)
:element-type 'character
:fill-pointer 0))
next-char)
(dotimes (i size)
(setq next-char (char string i))
(if (not (alpha-char-p next-char))
(vector-push #\_ out-string))
(vector-push next-char out-string))
out-string)))
(defun Unget-Tokens ()
(case Valid-Tokens
(0 t)
(1 (let* ((cursym (quote-if-string current-token))
(curline (line-current-segment current-line))
(revised-line (strconc cursym curline (copy-seq " "))))
(line-new-line revised-line current-line (line-number current-line))
(setq NonBlank (token-nonblank current-token))
(setq Valid-Tokens 0)))
(2 (let* ((cursym (quote-if-string current-token))
(nextsym (quote-if-string next-token))
(curline (line-current-segment current-line))
(revised-line
(strconc (if (token-nonblank current-token) "" " ")
cursym
(if (token-nonblank next-token) "" " ")
nextsym curline " ")))
(setq NonBlank (token-nonblank current-token))
(line-new-line revised-line current-line (line-number current-line))
(setq Valid-Tokens 0)))
(t (error "How many tokens do you think you have?"))))
; *** Match Token
(defun match-token (token type &optional (symbol nil))
(if (and token (eq (token-type token) type))
(if symbol (if (equal symbol (token-symbol token)) token) token)))
(defun match-current-token (type &optional (symbol nil))
"Returns the current token if it has EQ type and (optionally) equal symbol."
(match-token (current-token) type symbol))
(defun match-next-token (type &optional (symbol nil))
"Returns the next token if it has equal type and (optionally) equal symbol."
(match-token (next-token) type symbol))
; *** Current Token, Next Token, Advance Token
(defun try-get-token (token)
(let ((tok (get-token token)))
(if tok (progn (incf Valid-Tokens) token))))
(defun current-symbol () (make-symbol-of (current-token)))
(defun make-symbol-of (token)
(let ((u (and token (token-symbol token))))
(cond ((not u) nil)
((characterp u) (intern (string u)))
(u))))
(defun current-token ()
"Returns the current token getting a new one if necessary."
(if (> Valid-Tokens 0)
Current-Token
(try-get-token Current-Token)))
(defun next-token ()
"Returns the token after the current token, or NIL if there is none after."
(current-token)
(if (> Valid-Tokens 1)
Next-Token
(try-get-token Next-Token)))
(defun advance-token ()
(current-token) ;don't know why this is needed
"Makes the next token be the current token."
(case Valid-Tokens
(0 (try-get-token (Current-Token)))
(1 (decf Valid-Tokens)
(setq Prior-Token (copy-token Current-Token))
(try-get-token Current-Token))
(2 (setq Prior-Token (copy-token Current-Token))
(setq Current-Token (copy-token Next-Token))
(decf Valid-Tokens))))
(defparameter XTokenReader 'get-meta-token "Name of tokenizing function")
; *** Get Token
(defun get-token (token) (funcall XTokenReader token))
; 3A (2) Character handling.
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Current-Char, Next-Char, Advance-Char
; *** Current Char, Next Char, Advance Char
(defun Current-Char ()
"Returns the current character of the line, initially blank for an unread line."
(if (Line-Past-End-P Current-Line) #\Return (Line-Current-Char Current-Line)))
(defun Next-Char ()
"Returns the character after the current character, blank if at end of line.
The blank-at-end-of-line assumption is allowable because we assume that end-of-line
is a token separator, which blank is equivalent to."
(if (Line-At-End-P Current-Line) #\Return (Line-Next-Char Current-Line)))
(defun Advance-Char ()
"Advances IN-STREAM, invoking Next Line if necessary."
(loop (cond ((not (Line-At-End-P Current-Line))
(return (Line-Advance-Char Current-Line)))
((next-line in-stream)
(return (current-char)))
((return nil)))))
; 3A 3. Line Handling.
; PARAMETERS DEFINED IN THIS SECTION:
;
; Echo-Meta
; *** Next Line
(defparameter Echo-Meta nil "T if you want a listing of what has been read.")
(defparameter Line-Handler 'next-META-line "Who grabs lines for us.")
(defun next-line (&optional (in-stream t)) (funcall Line-Handler in-stream))
(defun make-string-adjustable (s)
(cond ((adjustable-array-p s) s)
(t (make-array (array-dimensions s) :element-type 'character
:adjustable t :initial-contents s))))
(defun get-a-line (stream)
(if (IS-CONSOLE stream) (princ (MKPROMPT)))
(let ((ll (read-a-line stream)))
(if (stringp ll) (make-string-adjustable ll) ll)))
(defparameter Current-Fragment nil
"A string containing remaining chars from readline; needed because
Symbolics read-line returns embedded newlines in a c-m-Y.")
(defun input-clear () (setq Current-Fragment nil))
#-:CCL
(defun read-a-line (&optional (stream t))
(let (cp)
(if (and Current-Fragment (> (length Current-Fragment) 0))
(let ((line (with-input-from-string
(s Current-Fragment :index cp :start 0)
(read-line s nil nil))))
(setq Current-Fragment (subseq Current-Fragment cp))
line)
(prog nil
(if (stream-eof in-stream)
(progn (setq File-Closed t *EOF* t)
(Line-New-Line (make-string 0) Current-Line)
(return nil)))
(if (setq Current-Fragment (read-line stream))
(return (read-a-line stream)))))))
#+:CCL
(defun read-a-line (&optional (stream t))
(let ((line (read-line stream nil nil)))
(if (null line)
(progn (setq File-Closed t *EOF* t)
(Line-New-Line (make-string 0) Current-Line)
nil)
line)))
; *** Print New Line
(defparameter Printer-Line-Stack (make-stack)
"Stack of output listing lines waiting to print. [local to PRINT-NEW-LINE]")
(defparameter Read-Quietly nil
"Whether or not to produce an output listing. [local to PRINT-NEW-LINE]")
(defun Print-New-Line (string &optional (strm *terminal-io*))
"Makes output listings."
(if Read-Quietly (stack-push (copy-tree string) Printer-Line-Stack)
(progn (mapc #'(lambda (x) (format strm "; ~A~%" x) (terpri))
(nreverse (stack-store Printer-Line-Stack)))
(stack-clear Printer-Line-Stack)
(format strm "~&; ~A~%" string))))
; 3B. Error handling
(defparameter errcol nil)
(defparameter line nil)
(defparameter count nil)
(defun conversation (x y)
(prog (u)
a (reduce-stack-clear)
(setq u (namederrset 'spad_reader (conversation1 x y) ))
(cond (*eof* (return nil))
((atom u) (go a))
((return (car u))))))
(defparameter ulcasefg nil "")
(defun conversation1 (firstfun procfun)
(prog nil
top(cond ((not (Current-Char)) (return nil))
((and (current-token) (next-token)) (go top))
((compfin) (return 't))
((and (funcall firstfun)
(or (funcall procfun (pop-stack-1))))
(go top))
((compfin) (return 't)) )
(meta-syntax-error)
(go top)))
(defun termchr () "Is CHR a terminating character?"
(position (current-char) " *,;<>()[]/\\"))
(defun compfin () (or (match-string ")fin") (match-string ".FIN")))
(defparameter Meta_Errors_Occurred nil "Did any errors occur")
(defparameter Meta_Error_Handler 'meta-meta-error-handler)
(defun meta-syntax-error (&optional (wanted nil) (parsing nil))
(funcall Meta_Error_Handler wanted parsing))
; 3 C. Constructing parsing procedures
; FUNCTIONS DEFINED IN THIS SECTION:
;
; Make-Parse-Function, GetGenSym
(MAKEPROP 'PROGN 'NARY T) ; Setting for Make-Parse-Function
(defun make-parse-function (l op)
(if (flagp op 'nary) (setq l (make-parse-func-flatten-1 l op nil)))
(make-parse-function1 l op))
(defun make-parse-func-flatten (x op)
(cond ((atom x) x)
((eq (car x) op) (cons op (make-parse-func-flatten-1 (cdr x) op nil)))
(t (cons (make-parse-func-flatten (car x) op) (make-parse-func-flatten (cdr x) op)))))
(defun make-parse-func-flatten-1 (l op r)
(let (x)
(if (null l)
r
(make-parse-func-flatten-1
(cdr l) op
(append r (if (eqcar (setq x (make-parse-func-flatten (car l) op)) op)
(cdr x)
(list x)))))))
(defun make-parse-function1 (l op)
(let (x)
(case op
(plus (cond ((eq 0 (setq x (length (setq l (s- l '(0 (zero))))))) 0)
((eq 1 x) (car l))
(t `(+ . ,l))))
(times (cond ((s* l '(0 (zero))) 0)
((eq 0 (setq x (length (setq l (s- l '(1 (one))))))) 1)
((eq 1 x) (car l))
(t `(times . ,l)) ))
(quotient (cond ((> (length l) 2) (fail))
((eq 0 (car l)) 0)
((eq (cadr l) 1) (car l))
(t `(quotient . ,l)) ))
(minus (cond ((cdr l) (fail))
((numberp (setq x (car l))) (minus x))
((eqcar x 'minus) (cadr x))
(t `(minus . ,l)) ))
(- (cond ((> (length l) 2) (fail))
((equal (car l) (cadr l)) '(zero))
((member (car l) '(0 (zero))) (make-parse-function (cdr l) 'minus))
((member (cadr l) '(0 (zero))) (car l))
((eqcar (cadr l) 'minus)
(make-parse-function (list (car l) (cadadr l)) 'plus))
(t `(- . ,l)) ))
(expt (cond ((> (length l) 2) (fail))
((eq 0 (cadr l)) 1)
((eq 1 (cadr l)) (car l))
((member (car l) '(0 1 (zero) (one))) (car l))
(t `(expt . ,l)) ))
(or (cond ((member 't l) ''t)
((eq 0 (setq x (length (setq l (delete nil l))))) nil)
((eq 1 x) (car l))
(t `(or . ,l)) ))
(|or| (cond ((member 't l) 't)
((eq 0 (setq x (length (setq l (delete nil l))))) nil)
((eq 1 x) (car l))
(t `(|or| . ,l)) ))
(null (cond ((cdr l) (fail))
((eqcar (car l) 'null) (cadar l))
((eq (car l) 't) nil)
((null (car l)) ''t)
(t `(null . ,l))))
(|and| (cond ((eq 0 (setq x (length (setq l (delete 't (delete 'true l)))))) 't)
((eq 1 x) (car l))
(t `(|and| . ,l)) ))
(and (cond ((eq 0 (setq x (length (setq l (delete 't (delete 'true l)))))) ''t)
((eq 1 x) (car l))
(t `(and . ,l)) ))
(progn (cond ((and (not (atom l)) (null (last l)))
(cond ((cdr l) `(progn . ,l))
(t (car l))))
((null (setq l (delete nil l))) nil)
((cdr l) `(progn . ,l))
(t (car l)) ))
(seq (cond ((eqcar (car l) 'exit) (cadar l))
((cdr l) `(seq . ,l))
(t (car l)) ))
(list (cond ((null l) nil) (t `(list . ,l))))
(cons (cond ((cdr l) `(cons . ,l)) (t (car l)) ))
(t (cons op l) ))))
(defparameter /genvarlst nil "??")
(defun transpgvar (metapgvar) (remove-duplicates metapgvar))
(defparameter /gensymlist nil "List of rule local variables generated by getgensym.")
(defun getgensym (n)
"Used to create unique numerically indexed local variables for the use of rules."
(loop
(let ((m (length /gensymlist)))
(if (< m n)
(setq /gensymlist (nconc /gensymlist `(,(intern (format nil "G~D" (1+ m))))))
(return (nth (1- n) /gensymlist))))))
; 3 D. Managing rule sets
(defparameter bac nil "")
(defparameter keyfn nil "")
(defparameter /metaoption "")
(defparameter tline nil "")
(defparameter rs nil "")
(defun getrulefunlists (rootfun rs)
(let* ((metapfx (or (get rootfun 'metapfx) ""))
(mainfun (internl metapfx (pname rootfun)))
(mainfunstr (pname mainfun))
(flnam (internl mainfunstr "FUN"))
(pfx-funlist (union (cons mainfun
(if (atom (eval flnam)) nil (eval flnam)))
(mapcar #'(lambda (x) (internl metapfx (pname x)))
(assocleft rs))))
n unpfx-funlist)
(set flnam pfx-funlist)
(if (not (lessp (setq n (length metapfx)) 0))
(setq unpfx-funlist
(mapcar #'(lambda (x) (intern (subseq (copy-symbol (pname x)) n)))
pfx-funlist)))
(if unpfx-funlist (list pfx-funlist unpfx-funlist))))
; 4. Tracing routines
(defparameter debugmode 'yes "Can be either YES or NO")
(defun reduction-print (y rule)
(format t "~&")
(cond ((eq y t) (|sayBrightly| `(|%b| ,rule |%d| " reduced")))
(y (|sayBrightlyNT| `(|%b| ,rule |%d|))
(format t " reduced ~A~%" y)))
y)
#+Symbolics
(defmacro rtrace (&rest rules)
`(compiler-let () .
,(mapcar #'(lambda (x)
(let ((rule (intern (strconc "PARSE-" x))))
`(zl:advise ,rule :around nil nil
(reduction-print :do-it ',rule))))
rules)))
#+Symbolics
(defmacro runtrace () `(zl:unadvise))
(defmacro tracemeta (&rest l) `(trmeta ',l))
(defparameter /depth 0 "Used in Debug.lisp.")
(defun trmeta (l) (setq /depth 0) (mapc #'trmeta1 l))
(defun trmeta1 (x)
(let (y)
(if (not (fboundp x))
(if (fboundp (setq y (internl $lastprefix (pname x))))
(moan (format nil "********* ~S RENAMED AS ~S" x (setq x y)))
(croak (format nil "********* ~S MUST BE GIVEN PREFIX" x))))
(/embed-1 x
(sublislis
(list (pname x) x (gensym))
'(nam* fun* argl*)
'(lambda (&rest argl*)
(prog (v tok)
(terpri)
(trblanks (* 2 /depth)) (setq /depth (+ 1 /depth))
(princ (stringimage /depth)) (princ "<")
(princ nam*) (trargprint argl*) (princ "/")
(princ "chr= ") (prin1 (Current-Char))
(princ "/tok= ") (prin1 (setq tok (current-symbol)))
(princ "/col= ") (prin1 (line-current-index current-line))
;; (princ "/icol= ") (prin1 initcolumn)
(cond ( (not nonblank) (go a1))) (princ "/nblnk= T")
a1 ;;(cond (ok (go b1))) (princ "/ok= NIL")
b1 ;;(cond ( (not stackx) (go c1))) (princ "/stackx= ")
;;(prin1 stackx)
c1 (cond ( (not (identp tok)) (go d1)))
(princ "/isid= ")
;; (princ (cond (isid "T") (t "NIL")))
d1 (princ "/stack= ") (prin1 (stack-store reduce-stack))
(setq v (apply fun* argl*)) (setq /depth (- /depth 1))
(terpri)
(trblanks (* 2 /depth)) (princ (stringimage (\1+ /depth)))
(princ ">") (princ nam*)
(princ "/chr= ") (prin1 (Current-Char))
(princ "/tok= ") (prin1 (setq tok (current-symbol)))
(princ "/col= ") (prin1 (line-current-index current-line))
(if (not nonblank) (go a2)) (princ "/nblnk= ")
(princ (if nonblank "T" "NIL"))
a2 ;;(if ok (go b2)) (princ "/ok= ") (prin1 ok)
b2 ;;(if (not stackx) (go c2)) (princ "/stackx1= ") (prin1 stackx)
c2 (if (not (identp tok)) (go d2))
(princ "/isid= ")
;; (princ (if isid "T" "NIL"))
d2 (princ "/stack= ") (prin1 (stack-store reduce-stack))
(princ "/value= ") (prin1 v)
(return v)))))))
(defun /embed-1 (x y)
(princ (strconc (pname x) " embedded"))
(terpri)
(/embed-q x y))
(defun /embed-q (x y)
(setq /embednames (cons x /embednames))
(embed x
(cond ((eqcar y 'lambda) y)
((eqcar y 'before)
`(lambda ,(cadr y)
(prog2 ,(caddr y) ,(cons 'funcall (cons x (cadr y))))))
((eqcar y 'after)
`(lambda ,(cadr y)
(prog1 ,(cons 'funcall (cons x (cadr y))) ,(caddr y))))))
(/embedreply))
(defun /embedreply ()
(if (atom (embedded)) '(|none| |embedded|)
(append (embedded) (list '|embedded|))))
(defun numofargs (fn) (numberofargs (car (/mdef (cons fn '(x))))))
(defparameter mdeftrace nil "")
(defun /mdef (x)
(let (u)
(cond ((atom x) x)
((or (null (atom (car x))) (not (mbpip (car x))))
(mapcar #'/mdef x))
((equal x (setq u (mdef (car x) x))) x)
(mdeftrace (print x) (princ " --> ") (print u) (/mdef u))
((/mdef u)))))
(defun trargprint (l) (mapc #'(lambda (x) (princ " / ") (prin1 x)) l))
(defun trblanks (n) (do ((i 1 (1+ i))) ((> i n)) (princ " ")))
; 5. Routines for inspecting and resetting total I/O system state
;
; The package largely assumes that:
;
; A. One I/O stream pair is in effect at any moment.
; B. There is a Current Line
; C. There is a Current Token and a Next Token
; D. There is a Reduction Stack
;
; This state may be examined and reset with the procedures IOSTAT and IOCLEAR.
(defun IOStat ()
"Tell me what the current state of the parsing world is."
;(IOStreams-show)
(current-line-show)
(if (or $BOOT $SPAD) (next-lines-show))
(token-stack-show)
;(reduce-stack-show)
nil)
(defun IOClear (&optional (in t) (out t))
;(IOStreams-clear in out)
(input-clear)
(current-line-clear)
(token-stack-clear)
(reduce-stack-clear)
(if (or $BOOT $SPAD) (next-lines-clear))
nil)
;; auxiliary functions needed by the parser
(defun char-eq (x y) (char= (character x) (character y)))
(defun char-ne (x y) (char/= (character x) (character y)))
(Defun FLOATEXPID (X &aux S)
(if (AND (IDENTP X) (char= (char-upcase (ELT (SETQ S (PNAME X)) 0)) #\E)
(> (LENGTH S) 1)
(SPADREDUCE AND 0 (COLLECT (STEP I 1 1 (MAXINDEX S))
(DIGITP (ELT S I)))))
(READ-FROM-STRING S t nil :start 1)
NIL))
(defun |getToken| (x) (if (EQCAR x '|elt|) (third x) x))
(defun |dollarTran| (dom rand)
(let ((eltWord (if |$InteractiveMode| '|$elt| '|elt|)))
(if (and (not (atom rand)) (cdr rand))
(cons (list eltWord dom (car rand)) (cdr rand))
(list eltWord dom rand))))
|