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; If you are using racket instead of scheme,
uncomment these two lines, comment the (load
“lex.scm”) line and uncomment the (require
“lex.scm”) line
;#lang racket
;(provide (all-defined-out))

; A simple parser for a Java/C-ish language
minus the objects
; EECS 345: Programming Languages Concepts
;
; A recursive descent parser and a lexical
analyzer for simple Java statements.
; The language allows assignments, all
mathematical expressions, if statements,
; while statements (including break and
continue), blocks, and functions.
;
; Also include throwing and catching
exceptions and nested functions.
;
; To call the parser, use:
; (parser filename)
;
; The return value is a parse tree in list
format

(load “lex.scm”)
;(require “lex.scm”)

(define parser
(lambda (filename)
(begin (start-lex filename)
(let ((parse-tree (program-parse)))
(end-lex)
parse-tree))))

;=============================================
==
; The recursive descent parser

(define program-parse
(lambda ()
(if (eq? (car (get-next-symbol)) ‘EOF)
‘()
(begin
(unget-next-symbol)
(let ((parsetree (top-level-parse)))
(cons parsetree (program-
parse)))))))

; parse the top level of the program. The top
level is a function definition (an identifier
followed by a left
; parenthesis) or is an assignment statement.

(define top-level-parse
(lambda ()
(let ((firstsymbol (get-next-symbol)))
(cond
((eq? (car firstsymbol) ‘function)
(function-parse))
((eq? (car firstsymbol) ‘var)
(let ((parse-statement ‘()))
(begin
(set! parse-statement
(declare-parse))
(if (eq? (car (get-next-
symbol)) ‘SEMICOLON)
parse-statement
(error ‘parser “Missing
semicolon”)))))
(else (error ‘parser “Illegal start of
top level statement”))))))

; parse a function. A function is the name,
followed by a formal parameter list,
; followed by the body nested in braces

(define function-parse
(lambda ()
(let ((name (get-next-symbol)))
(if (and (eq? (car name) ‘ID) (eq? (car
(get-next-symbol)) ‘LEFTPAREN))
(let ((paramlist (get-
formalparameter-list)))
(if (not (eq? (car (get-next-
symbol)) ‘LEFTBRACE))
(error ‘parser “Missing left
brace”)
(list ‘function (cdr name)
paramlist (compound-statement-parse))))
(error “Illegal start of function
definition”)))))

; parse the formal parameter list. The list
is a sequence of identifiers separated by
commas

(define get-formalparameter-list
(lambda ()
(let ((nextsymbol (get-next-symbol)))
(cond
((eq? (car nextsymbol) ‘RIGHTPAREN)
‘())
((eq? (car nextsymbol) ‘ID)
(let ((separator (car (get-next-
symbol))))
(cond
((eq? separator ‘COMMA) (cons
(cdr nextsymbol) (get-formalparameter-list)))
((eq? separator ‘RIGHTPAREN)
(list (cdr nextsymbol)))
(else (error ‘parser “Missing
comma”)))))
((and (eq? (car nextsymbol) ‘BINARY-
OP) (eq? (cdr nextsymbol) ‘&))
(let* ((id (get-next-symbol))
(separator (car (get-next-
symbol))))
(if (eq? (car id) ‘ID)
(cond
((eq? separator ‘COMMA)
(cons ‘& (cons (cdr id) (get-formalparameter-
list))))
((eq? separator
‘RIGHTPAREN) (list ‘& (cdr id)))
(else (error ‘parser
“Missing comma”)))
(error ‘parser “Missing
identifier after reference operator”))))
(else (error ‘parser “Illegal function
parameter, missing right parenthesis?”))))))

; parse a statement that can be an if-
statement, a while-statement, or a compound
statement
; and if none of the above, it is a simple
statement

(define statement-parse
(lambda ()
(let ((nextsymbol (car (get-next-
symbol))))
(cond
((eq? nextsymbol ‘if) (if-parse))
((eq? nextsymbol ‘while) (while-
parse))
((eq? nextsymbol ‘try) (try-parse))
((eq? nextsymbol ‘function) (function-
parse))
((eq? nextsymbol ‘LEFTBRACE) (cons
‘begin (compound-statement-parse)))
(else (begin
(unget-next-symbol)
(simple-statement-parse)))))))

; parse a simple statement that can be a
return, break, continue, or an assignment
statement

(define simple-statement-parse
(lambda ()
(let ((nextsymbol (get-next-symbol))
(parse-statement ‘()))
(begin
(cond ((eq? (car nextsymbol) ‘return)
(set! parse-statement (return-parse)))
((eq? (car nextsymbol) ‘var)
(set! parse-statement (declare-parse)))
((eq? (car nextsymbol) ‘break)
(set! parse-statement (list ‘break)))
((eq? (car nextsymbol)
‘continue) (set! parse-statement (list
‘continue)))
((eq? (car nextsymbol) ‘throw)
(set! parse-statement (list ‘throw (value-
parse))))
((eq? (car nextsymbol) ‘ID)
(set! parse-statement (id-parse nextsymbol)))
(else (set! parse-statement
(assign-parse nextsymbol))))
(if (eq? (car (get-next-symbol))
‘SEMICOLON)
parse-statement
(error ‘parser “Missing
semicolon”))))))

; parse a compound statement. We already saw
the left brace so continue until we see a
right brace.

(define compound-statement-parse
(lambda ()
(if (eq? (car (get-next-symbol))
‘RIGHTBRACE)
‘()
(begin
(unget-next-symbol)
(let ((s (statement-parse)))
(cons s (compound-statement-
parse)))))))

; parse a return statement: return followed by
a value.

(define return-parse
(lambda ()
(list ‘return (value-parse))))

; parse an if statement: a condition inside
parentheses, an if statement, and an optional
else

(define if-parse
(lambda ()
(if (not (eq? (car (get-next-symbol))
‘LEFTPAREN))
(error ‘parser “Missing opening
parenthesis”)
(let ((condition (value-parse))) ;
changed
(if (not (eq? (car (get-next-
symbol)) ‘RIGHTPAREN))
(error ‘parser “Missing closing
parenthesis”)
(let ((if-statement (statement-
parse)))
(if (eq? (car (get-next-
symbol)) ‘else)
(list ‘if condition if-
statement (statement-parse))
(begin
(unget-next-symbol)
(list ‘if condition
if-statement)))))))))

; parse a while statement: a condition
followed by a statement

(define while-parse
(lambda ()
(if (not (eq? (car (get-next-symbol))
‘LEFTPAREN))
(error ‘parser “Missing opening
parenthesis”)
(let ((condition (value-parse)))
(if (not (eq? (car (get-next-
symbol)) ‘RIGHTPAREN))
(error ‘parser “Missing closing
parenthesis”)
(list ‘while condition
(statement-parse)))))))

; parse an identifier. It could be a function
call or the start of an assignment statement

(define id-parse
(lambda (firstsymbol)
(if (not (eq? (car firstsymbol) ‘ID))
(error ‘parser “Illegal start of
statement”)
(let ((secondsymbol (get-next-
symbol)))
(if (eq? (car secondsymbol)
‘LEFTPAREN)
(funcall-parse (cdr
firstsymbol))
(begin
(unget-next-symbol)
(assign-parse
firstsymbol)))))))

; parse a function call: an identifier
followed by a parameter list

(define funcall-parse
(lambda (name)
(cons ‘funcall (cons name (get-
actualparameter-list)))))

; parse a parameter list: a list with an
arbitrary number of identifiers separated by
commas

(define get-actualparameter-list
(lambda ()
(let ((nextsymbol (get-next-symbol)))
(if (eq? (car nextsymbol) ‘RIGHTPAREN)
‘()
(begin
(unget-next-symbol)
(let* ((parameter (value-parse))
(separator (car (get-next-
symbol))))
(cond
((eq? separator ‘COMMA) (cons
parameter (get-actualparameter-list)))
((eq? separator ‘RIGHTPAREN)
(list parameter))
(else (error ‘parser “Missing
comma”)))))))))

; parse a variable declaration: var then left-
hand-side with optional = followed by a value

(define declare-parse
(lambda ()
(let* ((lhs (lhs-parse (get-next-symbol)))
(op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (eq?
(cdr op) ‘=))
(append (cons ‘var lhs) (list
(value-parse)))
(begin
(unget-next-symbol)
(cons ‘var lhs))))))

; parse an assignment statement: a left-hand-
side followed by an = followed by a value

(define assign-parse
(lambda (firstsymbol)
(let* ((lhs (lhs-parse firstsymbol))
(op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (eq?
(cdr op) ‘=))
(append (cons (cdr op) lhs) (list
(value-parse)))
(error ‘parser “Unknown assignment
operator”)))))

; parse the left hand side of an assignment.
Only variables are allowed.

(define lhs-parse
(lambda (lhs)
(if (eq? (car lhs) ‘ID)
(list (cdr lhs))
(error ‘parser “Illegal left hand side
of assignment”))))

; parse a value. The top level of the parse
is the assignment operator.

(define value-parse
(lambda ()
(let* ((lhs (get-next-symbol))
(op (get-next-symbol)))
(if (and (eq? (car lhs) ‘ID) (eq? (car
op) ‘BINARY-OP) (eq? (cdr op) ‘=))
(list (cdr op) (cdr lhs) (value-
parse))
(begin
(unget-next-symbol)
(orterm-parse lhs))))))

; continuing parsing the value. The second
level is the OR operator

(define orterm-parse
(lambda (firstsymbol)
(orterm-parse-helper (andterm-parse
firstsymbol))))

; parse the OR expression.

(define orterm-parse-helper
(lambda (firstoperand)
(let ((op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (eq?
(cdr op) ‘\|\|))
(orterm-parse-helper (list ‘||
firstoperand (andterm-parse (get-next-
symbol))))
(begin
(unget-next-symbol)
firstoperand)))))

; the third level is the AND expression

(define andterm-parse
(lambda (firstsymbol)
(andterm-parse-helper (equalterm-parse
firstsymbol))))

; parse the AND expression.

(define andterm-parse-helper
(lambda (firstoperand)
(let ((op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (eq?
(cdr op) ‘&&))
(andterm-parse-helper (list (cdr op)
firstoperand (equalterm-parse (get-next-
symbol))))
(begin
(unget-next-symbol)
firstoperand)))))

; the next level is the equal operators

(define equalterm-parse
(lambda (firstsymbol)
(equalterm-parse-helper (compareterm-parse
firstsymbol))))

; parse the equals expression.

(define equalterm-parse-helper
(lambda (firstoperand)
(let ((op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (or
(eq? (cdr op) ‘==) (eq? (cdr op) ‘!=)))
(equalterm-parse-helper (list (cdr
op) firstoperand (compareterm-parse (get-next-
symbol))))
(begin
(unget-next-symbol)
firstoperand)))))

; next we have the comparison operators

(define compareterm-parse
(lambda (firstsymbol)
(compareterm-parse-helper (addterm-parse
firstsymbol))))

; parse the comparison expression.

(define compareterm-parse-helper
(lambda (firstoperand)
(let ((op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (or
(eq? (cdr op) ‘<) (eq? (cdr op) '<=) (eq? (cdr op) '>) (eq? (cdr op) ‘>=)))
(compareterm-parse-helper (list (cdr
op) firstoperand (addterm-parse (get-next-
symbol))))
(begin
(unget-next-symbol)
firstoperand)))))

; continue parsing the value. The next level
is the addition and subtraction operators.

(define addterm-parse
(lambda (firstsymbol)
(addterm-parse-helper (multterm-parse
firstsymbol))))

; parse the addition expression.

(define addterm-parse-helper
(lambda (firstoperand)
(let ((op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (or
(eq? (cdr op) ‘+) (eq? (cdr op) ‘-)))
(addterm-parse-helper (list (cdr op)
firstoperand (multterm-parse (get-next-
symbol))))
(begin
(unget-next-symbol)
firstoperand)))))

; continue parsing the value. The next level
is the multiplication and division operators.

(define multterm-parse
(lambda (firstsymbol)
(multterm-parse-helper (operand-parse
firstsymbol))))

; parse the multiplication expression.

(define multterm-parse-helper
(lambda (firstoperand)
(let ((op (get-next-symbol)))
(if (and (eq? (car op) ‘BINARY-OP) (or
(eq? (cdr op) ‘*) (eq? (cdr op) ‘/) (eq? (cdr
op) ‘%)))
(multterm-parse-helper (list (cdr
op) firstoperand (operand-parse (get-next-
symbol))))
(begin
(unget-next-symbol)
firstoperand)))))

; continue parsing the value. The final level
is the unary operators, variables, numbers,
and nested parentheses.

(define operand-parse
(lambda (firstsymbol)
(cond
((eq? (car firstsymbol) ‘LEFTPAREN)
(let ((retvalue (value-parse)))
(if (eq? (car (get-next-symbol))
‘RIGHTPAREN)
retvalue
(error ‘parser “Unmatched left
parenthesis”))))
((and (eq? (car firstsymbol) ‘BINARY-OP)
(eq? (cdr firstsymbol) ‘-)) (list ‘- (operand-
parse (get-next-symbol)))) ; this is a new
line
((and (eq? (car firstsymbol) ‘BINARY-OP)
(eq? (cdr firstsymbol) ‘!)) (list ‘! (operand-
parse (get-next-symbol)))) ; this is a new
line
((eq? (car firstsymbol) ‘NUMBER) (cdr
firstsymbol))
((eq? (car firstsymbol) ‘ID)
(let ((secondsymbol (get-next-
symbol)))
(if (eq? (car secondsymbol)
‘LEFTPAREN)
(funcall-parse (cdr
firstsymbol))
(begin
(unget-next-symbol)
(cdr firstsymbol)))))
((eq? (car firstsymbol) ‘BOOLEAN) (cdr
firstsymbol))
(else (error ‘parser “Unknown
statmement”)))));)

; parse a try block. The try block is a
compound statement followed by catch block
and/or
; a finally block

(define try-parse
(lambda ()
(if (not (eq? (car (get-next-symbol))
‘LEFTBRACE))
(error ‘parser “Left brace expected”)
(let* ((tryblock (compound-statement-
parse))
(catchblock (catch-parse))
(finallyblock (finally-parse)))
(if (and (null? catchblock) (null?
finallyblock))
(error ‘parser “try without
catch of finally”)
(list ‘try tryblock catchblock
finallyblock))))))

; parse a catch block. The catch block must
contain a variable (the exception) inside
; parentheses and then a block of code.

(define catch-parse
(lambda ()
(let ((nextsymbol (car (get-next-
symbol))))
(if (not (eq? nextsymbol ‘catch))
(begin
(unget-next-symbol)
‘())
(let* ((firstsymbol (get-next-
symbol))
(secondsymbol (get-next-
symbol))
(thirdsymbol (get-next-
symbol))
(fourthsymbol (get-next-
symbol)))
(cond ((not (eq? (car firstsymbol)
‘LEFTPAREN)) (error ‘parser “Missing left
parenthesis”))
((not (eq? (car
secondsymbol) ‘ID)) (error ‘parser “Missing
exception parameter”))
((not (eq? (car thirdsymbol)
‘RIGHTPAREN)) (error ‘parser “Missing closing
parenthesis”))
((not (eq? (car
fourthsymbol) ‘LEFTBRACE)) (error ‘parser
“Missing opening brace”))
(else (list ‘catch (list
(cdr secondsymbol)) (compound-statement-
parse)))))))))

; parse a finally block. A finally block is a
compound statement that starts with “finally”

(define finally-parse
(lambda ()
(let ((nextsymbol (get-next-symbol)))
(if (not (eq? (car nextsymbol)
‘finally))
(begin
(unget-next-symbol)
‘())
(if (not (eq? (car (get-next-
symbol)) ‘LEFTBRACE))
(error ‘parser “Missing opening
parenthesis”)
(list ‘finally (compound-
statement-parse)))))))

2018/3/29 02)08
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