ext/ply/example/optcalc/calc.py - public/gem5 - Git at Google

 # -----------------------------------------------------------------------------
 # calc.py
 #
 # A simple calculator with variables.   This is from O'Reilly's
 # "Lex and Yacc", p. 63.
 # -----------------------------------------------------------------------------

 import sys
 sys.path.insert(0,"../..")

 if sys.version_info[0] >= 3:
     raw_input = input

 tokens = (
     'NAME','NUMBER',
     'PLUS','MINUS','TIMES','DIVIDE','EQUALS',
     'LPAREN','RPAREN',
     )

 # Tokens

 t_PLUS    = r'\+'
 t_MINUS   = r'-'
 t_TIMES   = r'\*'
 t_DIVIDE  = r'/'
 t_EQUALS  = r'='
 t_LPAREN  = r'\('
 t_RPAREN  = r'\)'
 t_NAME    = r'[a-zA-Z_][a-zA-Z0-9_]*'

 def t_NUMBER(t):
     r'\d+'
     try:
         t.value = int(t.value)
     except ValueError:
         print("Integer value too large %s" % t.value)
         t.value = 0
     return t

 t_ignore = " \t"

 def t_newline(t):
     r'\n+'
     t.lexer.lineno += t.value.count("\n")

 def t_error(t):
     print("Illegal character '%s'" % t.value[0])
     t.lexer.skip(1)

 # Build the lexer
 import ply.lex as lex
 lex.lex(optimize=1)

 # Parsing rules

 precedence = (
     ('left','PLUS','MINUS'),
     ('left','TIMES','DIVIDE'),
     ('right','UMINUS'),
     )

 # dictionary of names
 names = { }

 def p_statement_assign(t):
     'statement : NAME EQUALS expression'
     names[t[1]] = t[3]

 def p_statement_expr(t):
     'statement : expression'
     print(t[1])

 def p_expression_binop(t):
     '''expression : expression PLUS expression
                   | expression MINUS expression
                   | expression TIMES expression
                   | expression DIVIDE expression'''
     if t[2] == '+'  : t[0] = t[1] + t[3]
     elif t[2] == '-': t[0] = t[1] - t[3]
     elif t[2] == '*': t[0] = t[1] * t[3]
     elif t[2] == '/': t[0] = t[1] / t[3]
     elif t[2] == '<': t[0] = t[1] < t[3]

 def p_expression_uminus(t):
     'expression : MINUS expression %prec UMINUS'
     t[0] = -t[2]

 def p_expression_group(t):
     'expression : LPAREN expression RPAREN'
     t[0] = t[2]

 def p_expression_number(t):
     'expression : NUMBER'
     t[0] = t[1]

 def p_expression_name(t):
     'expression : NAME'
     try:
         t[0] = names[t[1]]
     except LookupError:
         print("Undefined name '%s'" % t[1])
         t[0] = 0

 def p_error(t):
     if t:
         print("Syntax error at '%s'" % t.value)
     else:
         print("Syntax error at EOF")

 import ply.yacc as yacc
 yacc.yacc(optimize=1)

 while 1:
     try:
         s = raw_input('calc > ')
     except EOFError:
         break
     yacc.parse(s)
	# -----------------------------------------------------------------------------
	# calc.py
	#
	# A simple calculator with variables. This is from O'Reilly's
	# "Lex and Yacc", p. 63.
	# -----------------------------------------------------------------------------

	import sys
	sys.path.insert(0,"../..")

	if sys.version_info[0] >= 3:
	raw_input = input

	tokens = (
	'NAME','NUMBER',
	'PLUS','MINUS','TIMES','DIVIDE','EQUALS',
	'LPAREN','RPAREN',
	)

	# Tokens

	t_PLUS = r'\+'
	t_MINUS = r'-'
	t_TIMES = r'\*'
	t_DIVIDE = r'/'
	t_EQUALS = r'='
	t_LPAREN = r'\('
	t_RPAREN = r'\)'
	t_NAME = r'[a-zA-Z_][a-zA-Z0-9_]*'

	def t_NUMBER(t):
	r'\d+'
	try:
	t.value = int(t.value)
	except ValueError:
	print("Integer value too large %s" % t.value)
	t.value = 0
	return t

	t_ignore = " \t"

	def t_newline(t):
	r'\n+'
	t.lexer.lineno += t.value.count("\n")

	def t_error(t):
	print("Illegal character '%s'" % t.value[0])
	t.lexer.skip(1)

	# Build the lexer
	import ply.lex as lex
	lex.lex(optimize=1)

	# Parsing rules

	precedence = (
	('left','PLUS','MINUS'),
	('left','TIMES','DIVIDE'),
	('right','UMINUS'),
	)

	# dictionary of names
	names = { }

	def p_statement_assign(t):
	'statement : NAME EQUALS expression'
	names[t[1]] = t[3]

	def p_statement_expr(t):
	'statement : expression'
	print(t[1])

	def p_expression_binop(t):
	'''expression : expression PLUS expression
	\| expression MINUS expression
	\| expression TIMES expression
	\| expression DIVIDE expression'''
	if t[2] == '+' : t[0] = t[1] + t[3]
	elif t[2] == '-': t[0] = t[1] - t[3]
	elif t[2] == '': t[0] = t[1] t[3]
	elif t[2] == '/': t[0] = t[1] / t[3]
	elif t[2] == '<': t[0] = t[1] < t[3]

	def p_expression_uminus(t):
	'expression : MINUS expression %prec UMINUS'
	t[0] = -t[2]

	def p_expression_group(t):
	'expression : LPAREN expression RPAREN'
	t[0] = t[2]

	def p_expression_number(t):
	'expression : NUMBER'
	t[0] = t[1]

	def p_expression_name(t):
	'expression : NAME'
	try:
	t[0] = names[t[1]]
	except LookupError:
	print("Undefined name '%s'" % t[1])
	t[0] = 0

	def p_error(t):
	if t:
	print("Syntax error at '%s'" % t.value)
	else:
	print("Syntax error at EOF")

	import ply.yacc as yacc
	yacc.yacc(optimize=1)

	while 1:
	try:
	s = raw_input('calc > ')
	except EOFError:
	break
	yacc.parse(s)