ext/ply/README - public/gem5 - Git at Google

 PLY (Python Lex-Yacc)                   Version 2.3  (February 18, 2007)

 David M. Beazley (dave@dabeaz.com)

 Copyright (C) 2001-2007   David M. Beazley

 This library is free software; you can redistribute it and/or
 modify it under the terms of the GNU Lesser General Public
 License as published by the Free Software Foundation; either
 version 2.1 of the License, or (at your option) any later version.

 This library is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 Lesser General Public License for more details.

 You should have received a copy of the GNU Lesser General Public
 License along with this library; if not, write to the Free Software
 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

 See the file COPYING for a complete copy of the LGPL.

 Introduction
 ============

 PLY is a 100% Python implementation of the common parsing tools lex
 and yacc.   Although several other parsing tools are available for
 Python, there are several reasons why you might want to consider PLY:

  -  The tools are very closely modeled after traditional lex/yacc.
     If you know how to use these tools in C, you will find PLY
     to be similar.

  -  PLY provides *very* extensive error reporting and diagnostic
     information to assist in parser construction.  The original
     implementation was developed for instructional purposes.  As
     a result, the system tries to identify the most common types
     of errors made by novice users.

  -  PLY provides full support for empty productions, error recovery,
     precedence specifiers, and moderately ambiguous grammars.

  -  Parsing is based on LR-parsing which is fast, memory efficient,
     better suited to large grammars, and which has a number of nice
     properties when dealing with syntax errors and other parsing problems.
     Currently, PLY builds its parsing tables using the SLR algorithm which
     is slightly weaker than LALR(1) used in traditional yacc.

  -  PLY uses Python introspection features to build lexers and parsers.
     This greatly simplifies the task of parser construction since it reduces
     the number of files and eliminates the need to run a separate lex/yacc
     tool before running your program.

  -  PLY can be used to build parsers for "real" programming languages.
     Although it is not ultra-fast due to its Python implementation,
     PLY can be used to parse grammars consisting of several hundred
     rules (as might be found for a language like C).  The lexer and LR
     parser are also reasonably efficient when parsing typically
     sized programs.

 The original version of PLY was developed for an Introduction to
 Compilers course where students used it to build a compiler for a
 simple Pascal-like language.  Their compiler had to include lexical
 analysis, parsing, type checking, type inference, and generation of
 assembly code for the SPARC processor.  Because of this, the current
 implementation has been extensively tested and debugged.  In addition,
 most of the API and error checking steps have been adapted to address
 common usability problems.

 How to Use
 ==========

 PLY consists of two files : lex.py and yacc.py.  These are contained
 within the 'ply' directory which may also be used as a Python package.
 To use PLY, simply copy the 'ply' directory to your project and import
 lex and yacc from the associated 'ply' package.  For example:

      import ply.lex as lex
      import ply.yacc as yacc

 Alternatively, you can copy just the files lex.py and yacc.py
 individually and use them as modules.  For example:

      import lex
      import yacc

 The file setup.py can be used to install ply using distutils.

 The file doc/ply.html contains complete documentation on how to use
 the system.

 The example directory contains several different examples including a
 PLY specification for ANSI C as given in K&R 2nd Ed.

 A simple example is found at the end of this document

 Requirements
 ============
 PLY requires the use of Python 2.1 or greater.  However, you should
 use the latest Python release if possible.  It should work on just
 about any platform.  PLY has been tested with both CPython and Jython.
 However, it does not seem to work with IronPython.

 Resources
 =========
 More information about PLY can be obtained on the PLY webpage at:

      http://www.dabeaz.com/ply

 For a detailed overview of parsing theory, consult the excellent
 book "Compilers : Principles, Techniques, and Tools" by Aho, Sethi, and
 Ullman.  The topics found in "Lex & Yacc" by Levine, Mason, and Brown
 may also be useful.

 A Google group for PLY can be found at

      http://groups.google.com/group/ply-hack

 Acknowledgments
 ===============
 A special thanks is in order for all of the students in CS326 who
 suffered through about 25 different versions of these tools :-).

 The CHANGES file acknowledges those who have contributed patches.

 Elias Ioup did the first implementation of LALR(1) parsing in PLY-1.x.
 Andrew Waters and Markus Schoepflin were instrumental in reporting bugs
 and testing a revised LALR(1) implementation for PLY-2.0.

 Special Note for PLY-2.x
 ========================
 PLY-2.0 is the first in a series of PLY releases that will be adding a
 variety of significant new features.  The first release in this series
 (Ply-2.0) should be 100% compatible with all previous Ply-1.x releases
 except for the fact that Ply-2.0 features a correct implementation of
 LALR(1) table generation.

 If you have suggestions for improving PLY in future 2.x releases, please
 contact me.   - Dave

 Example
 =======

 Here is a simple example showing a PLY implementation of a calculator
 with variables.

 # -----------------------------------------------------------------------------
 # calc.py
 #
 # A simple calculator with variables.
 # -----------------------------------------------------------------------------

 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", t.value
         t.value = 0
     return t

 # Ignored characters
 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()

 # Precedence rules for the arithmetic operators
 precedence = (
     ('left','PLUS','MINUS'),
     ('left','TIMES','DIVIDE'),
     ('right','UMINUS'),
     )

 # dictionary of names (for storing variables)
 names = { }

 def p_statement_assign(p):
     'statement : NAME EQUALS expression'
     names[p[1]] = p[3]

 def p_statement_expr(p):
     'statement : expression'
     print p[1]

 def p_expression_binop(p):
     '''expression : expression PLUS expression
                   | expression MINUS expression
                   | expression TIMES expression
                   | expression DIVIDE expression'''
     if p[2] == '+'  : p[0] = p[1] + p[3]
     elif p[2] == '-': p[0] = p[1] - p[3]
     elif p[2] == '*': p[0] = p[1] * p[3]
     elif p[2] == '/': p[0] = p[1] / p[3]

 def p_expression_uminus(p):
     'expression : MINUS expression %prec UMINUS'
     p[0] = -p[2]

 def p_expression_group(p):
     'expression : LPAREN expression RPAREN'
     p[0] = p[2]

 def p_expression_number(p):
     'expression : NUMBER'
     p[0] = p[1]

 def p_expression_name(p):
     'expression : NAME'
     try:
         p[0] = names[p[1]]
     except LookupError:
         print "Undefined name '%s'" % p[1]
         p[0] = 0

 def p_error(p):
     print "Syntax error at '%s'" % p.value

 import ply.yacc as yacc
 yacc.yacc()

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


 Bug Reports and Patches
 =======================
 Because of the extremely specialized and advanced nature of PLY, I
 rarely spend much time working on it unless I receive very specific
 bug-reports and/or patches to fix problems. I also try to incorporate
 submitted feature requests and enhancements into each new version.  To
 contact me about bugs and/or new features, please send email to
 dave@dabeaz.com.

 In addition there is a Google group for discussing PLY related issues at

     http://groups.google.com/group/ply-hack

 -- Dave
	PLY (Python Lex-Yacc) Version 2.3 (February 18, 2007)

	David M. Beazley (dave@dabeaz.com)

	Copyright (C) 2001-2007 David M. Beazley

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Lesser General Public
	License as published by the Free Software Foundation; either
	version 2.1 of the License, or (at your option) any later version.

	This library is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with this library; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

	See the file COPYING for a complete copy of the LGPL.

	Introduction
	============

	PLY is a 100% Python implementation of the common parsing tools lex
	and yacc. Although several other parsing tools are available for
	Python, there are several reasons why you might want to consider PLY:

	- The tools are very closely modeled after traditional lex/yacc.
	If you know how to use these tools in C, you will find PLY
	to be similar.

	- PLY provides very extensive error reporting and diagnostic
	information to assist in parser construction. The original
	implementation was developed for instructional purposes. As
	a result, the system tries to identify the most common types
	of errors made by novice users.

	- PLY provides full support for empty productions, error recovery,
	precedence specifiers, and moderately ambiguous grammars.

	- Parsing is based on LR-parsing which is fast, memory efficient,
	better suited to large grammars, and which has a number of nice
	properties when dealing with syntax errors and other parsing problems.
	Currently, PLY builds its parsing tables using the SLR algorithm which
	is slightly weaker than LALR(1) used in traditional yacc.

	- PLY uses Python introspection features to build lexers and parsers.
	This greatly simplifies the task of parser construction since it reduces
	the number of files and eliminates the need to run a separate lex/yacc
	tool before running your program.

	- PLY can be used to build parsers for "real" programming languages.
	Although it is not ultra-fast due to its Python implementation,
	PLY can be used to parse grammars consisting of several hundred
	rules (as might be found for a language like C). The lexer and LR
	parser are also reasonably efficient when parsing typically
	sized programs.

	The original version of PLY was developed for an Introduction to
	Compilers course where students used it to build a compiler for a
	simple Pascal-like language. Their compiler had to include lexical
	analysis, parsing, type checking, type inference, and generation of
	assembly code for the SPARC processor. Because of this, the current
	implementation has been extensively tested and debugged. In addition,
	most of the API and error checking steps have been adapted to address
	common usability problems.

	How to Use
	==========

	PLY consists of two files : lex.py and yacc.py. These are contained
	within the 'ply' directory which may also be used as a Python package.
	To use PLY, simply copy the 'ply' directory to your project and import
	lex and yacc from the associated 'ply' package. For example:

	import ply.lex as lex
	import ply.yacc as yacc

	Alternatively, you can copy just the files lex.py and yacc.py
	individually and use them as modules. For example:

	import lex
	import yacc

	The file setup.py can be used to install ply using distutils.

	The file doc/ply.html contains complete documentation on how to use
	the system.

	The example directory contains several different examples including a
	PLY specification for ANSI C as given in K&R 2nd Ed.

	A simple example is found at the end of this document

	Requirements
	============
	PLY requires the use of Python 2.1 or greater. However, you should
	use the latest Python release if possible. It should work on just
	about any platform. PLY has been tested with both CPython and Jython.
	However, it does not seem to work with IronPython.

	Resources
	=========
	More information about PLY can be obtained on the PLY webpage at:

	http://www.dabeaz.com/ply

	For a detailed overview of parsing theory, consult the excellent
	book "Compilers : Principles, Techniques, and Tools" by Aho, Sethi, and
	Ullman. The topics found in "Lex & Yacc" by Levine, Mason, and Brown
	may also be useful.

	A Google group for PLY can be found at

	http://groups.google.com/group/ply-hack

	Acknowledgments
	===============
	A special thanks is in order for all of the students in CS326 who
	suffered through about 25 different versions of these tools :-).

	The CHANGES file acknowledges those who have contributed patches.

	Elias Ioup did the first implementation of LALR(1) parsing in PLY-1.x.
	Andrew Waters and Markus Schoepflin were instrumental in reporting bugs
	and testing a revised LALR(1) implementation for PLY-2.0.

	Special Note for PLY-2.x
	========================
	PLY-2.0 is the first in a series of PLY releases that will be adding a
	variety of significant new features. The first release in this series
	(Ply-2.0) should be 100% compatible with all previous Ply-1.x releases
	except for the fact that Ply-2.0 features a correct implementation of
	LALR(1) table generation.

	If you have suggestions for improving PLY in future 2.x releases, please
	contact me. - Dave

	Example
	=======

	Here is a simple example showing a PLY implementation of a calculator
	with variables.

	# -----------------------------------------------------------------------------
	# calc.py
	#
	# A simple calculator with variables.
	# -----------------------------------------------------------------------------

	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", t.value
	t.value = 0
	return t

	# Ignored characters
	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()

	# Precedence rules for the arithmetic operators
	precedence = (
	('left','PLUS','MINUS'),
	('left','TIMES','DIVIDE'),
	('right','UMINUS'),
	)

	# dictionary of names (for storing variables)
	names = { }

	def p_statement_assign(p):
	'statement : NAME EQUALS expression'
	names[p[1]] = p[3]

	def p_statement_expr(p):
	'statement : expression'
	print p[1]

	def p_expression_binop(p):
	'''expression : expression PLUS expression
	\| expression MINUS expression
	\| expression TIMES expression
	\| expression DIVIDE expression'''
	if p[2] == '+' : p[0] = p[1] + p[3]
	elif p[2] == '-': p[0] = p[1] - p[3]
	elif p[2] == '': p[0] = p[1] p[3]
	elif p[2] == '/': p[0] = p[1] / p[3]

	def p_expression_uminus(p):
	'expression : MINUS expression %prec UMINUS'
	p[0] = -p[2]

	def p_expression_group(p):
	'expression : LPAREN expression RPAREN'
	p[0] = p[2]

	def p_expression_number(p):
	'expression : NUMBER'
	p[0] = p[1]

	def p_expression_name(p):
	'expression : NAME'
	try:
	p[0] = names[p[1]]
	except LookupError:
	print "Undefined name '%s'" % p[1]
	p[0] = 0

	def p_error(p):
	print "Syntax error at '%s'" % p.value

	import ply.yacc as yacc
	yacc.yacc()

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


	Bug Reports and Patches
	=======================
	Because of the extremely specialized and advanced nature of PLY, I
	rarely spend much time working on it unless I receive very specific
	bug-reports and/or patches to fix problems. I also try to incorporate
	submitted feature requests and enhancements into each new version. To
	contact me about bugs and/or new features, please send email to
	dave@dabeaz.com.

	In addition there is a Google group for discussing PLY related issues at

	http://groups.google.com/group/ply-hack

	-- Dave