doxygen/siphon/parsers.py - fdio/vpp - Gitiles

 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at:
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 import cgi, pyparsing as pp

 # Some useful primitives
 ident = pp.Word(pp.alphas + "_", pp.alphas + pp.nums + "_")
 intNum = pp.Word(pp.nums)
 hexNum = pp.Literal("0x") + pp.Word(pp.hexnums)
 octalNum = pp.Literal("0") + pp.Word("01234567")
 integer = (hexNum | octalNum | intNum) + \
     pp.Optional(pp.Literal("ULL") | pp.Literal("LL") | pp.Literal("L"))
 floatNum = pp.Regex(r'\d+(\.\d*)?([eE]\d+)?') + pp.Optional(pp.Literal("f"))
 char = pp.Literal("'") + pp.Word(pp.printables, exact=1) + pp.Literal("'")
 arrayIndex = integer | ident

 lbracket = pp.Literal("(").suppress()
 rbracket = pp.Literal(")").suppress()
 lbrace = pp.Literal("{").suppress()
 rbrace = pp.Literal("}").suppress()
 comma = pp.Literal(",").suppress()
 equals = pp.Literal("=").suppress()
 dot = pp.Literal(".").suppress()
 semicolon = pp.Literal(";").suppress()

 # initializer := { [member = ] (variable | expression | { initializer } ) }
 typeName = ident
 varName = ident
 typeSpec = pp.Optional("unsigned") + \
            pp.oneOf("int long short float double char u8 i8 void") + \
            pp.Optional(pp.Word("*"), default="")
 typeCast = pp.Combine( "(" + ( typeSpec | typeName ) + ")" ).suppress()

 string = pp.Combine(pp.OneOrMore(pp.QuotedString(quoteChar='"',
     escChar='\\', multiline=True)), adjacent=False)
 literal = pp.Optional(typeCast) + (integer | floatNum | char | string)
 var = pp.Combine(pp.Optional(typeCast) + varName +
     pp.Optional("[" + arrayIndex + "]"))

 # This could be more complete, but suffices for our uses
 expr = (literal | var)

 """Parse and render a block of text into a Python dictionary."""
 class Parser(object):
     """Compiled PyParsing BNF"""
     _parser = None

     def __init__(self):
         super(Parser, self).__init__()
         self._parser = self.BNF()

     def BNF(self):
         raise NotImplementedError

     def item(self, item):
         raise NotImplementedError

     def parse(self, input):
         item = self._parser.parseString(input).asList()
         return self.item(item)


 """Parser for function-like macros - without the closing semi-colon."""
 class ParserFunctionMacro(Parser):
     def BNF(self):
         # VLIB_CONFIG_FUNCTION (unix_config, "unix")
         macroName = ident
         params = pp.Group(pp.ZeroOrMore(expr + comma) + expr)
         macroParams = lbracket + params + rbracket

         return macroName + macroParams

     def item(self, item):
         r = {
             "macro": item[0],
             "name": item[1][1],
             "function": item[1][0],
         }

         return r


 """Parser for function-like macros with a closing semi-colon."""
 class ParseFunctionMacroStmt(ParserFunctionMacro):
     def BNF(self):
         # VLIB_CONFIG_FUNCTION (unix_config, "unix");
         function_macro = super(ParseFunctionMacroStmt, self).BNF()
         mi = function_macro + semicolon
         mi.ignore(pp.cppStyleComment)

         return mi


 """
 Parser for our struct initializers which are composed from a
 function-like macro, equals sign, and then a normal C struct initalizer
 block.
 """
 class MacroInitializer(ParserFunctionMacro):
     def BNF(self):
         # VLIB_CLI_COMMAND (show_sr_tunnel_command, static) = {
         #    .path = "show sr tunnel",
         #    .short_help = "show sr tunnel [name <sr-tunnel-name>]",
         #    .function = show_sr_tunnel_fn,
         # };
         cs = pp.Forward()


         member = pp.Combine(dot + varName + pp.Optional("[" + arrayIndex + "]"),
             adjacent=False)
         value = (expr | cs)

         entry = pp.Group(pp.Optional(member + equals, default="") + value)
         entries = (pp.ZeroOrMore(entry + comma) + entry + pp.Optional(comma)) | \
                   (pp.ZeroOrMore(entry + comma))

         cs << (lbrace + entries + rbrace)

         macroName = ident
         params = pp.Group(pp.ZeroOrMore(expr + comma) + expr)
         macroParams = lbracket + params + rbracket

         function_macro = super(MacroInitializer, self).BNF()
         mi = function_macro + equals + pp.Group(cs) + semicolon
         mi.ignore(pp.cppStyleComment)

         return mi

     def item(self, item):
         r = {
             "macro": item[0],
             "name": item[1][0],
             "params": item[2],
             "value": {},
         }

         for param in item[2]:
             r["value"][param[0]] = cgi.escape(param[1])

         return r
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at:
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	import cgi, pyparsing as pp

	# Some useful primitives
	ident = pp.Word(pp.alphas + "_", pp.alphas + pp.nums + "_")
	intNum = pp.Word(pp.nums)
	hexNum = pp.Literal("0x") + pp.Word(pp.hexnums)
	octalNum = pp.Literal("0") + pp.Word("01234567")
	integer = (hexNum \| octalNum \| intNum) + \
	pp.Optional(pp.Literal("ULL") \| pp.Literal("LL") \| pp.Literal("L"))
	floatNum = pp.Regex(r'\d+(\.\d*)?([eE]\d+)?') + pp.Optional(pp.Literal("f"))
	char = pp.Literal("'") + pp.Word(pp.printables, exact=1) + pp.Literal("'")
	arrayIndex = integer \| ident

	lbracket = pp.Literal("(").suppress()
	rbracket = pp.Literal(")").suppress()
	lbrace = pp.Literal("{").suppress()
	rbrace = pp.Literal("}").suppress()
	comma = pp.Literal(",").suppress()
	equals = pp.Literal("=").suppress()
	dot = pp.Literal(".").suppress()
	semicolon = pp.Literal(";").suppress()

	# initializer := { [member = ] (variable \| expression \| { initializer } ) }
	typeName = ident
	varName = ident
	typeSpec = pp.Optional("unsigned") + \
	pp.oneOf("int long short float double char u8 i8 void") + \
	pp.Optional(pp.Word("*"), default="")
	typeCast = pp.Combine( "(" + ( typeSpec \| typeName ) + ")" ).suppress()

	string = pp.Combine(pp.OneOrMore(pp.QuotedString(quoteChar='"',
	escChar='\\', multiline=True)), adjacent=False)
	literal = pp.Optional(typeCast) + (integer \| floatNum \| char \| string)
	var = pp.Combine(pp.Optional(typeCast) + varName +
	pp.Optional("[" + arrayIndex + "]"))

	# This could be more complete, but suffices for our uses
	expr = (literal \| var)

	"""Parse and render a block of text into a Python dictionary."""
	class Parser(object):
	"""Compiled PyParsing BNF"""
	_parser = None

	def __init__(self):
	super(Parser, self).__init__()
	self._parser = self.BNF()

	def BNF(self):
	raise NotImplementedError

	def item(self, item):
	raise NotImplementedError

	def parse(self, input):
	item = self._parser.parseString(input).asList()
	return self.item(item)


	"""Parser for function-like macros - without the closing semi-colon."""
	class ParserFunctionMacro(Parser):
	def BNF(self):
	# VLIB_CONFIG_FUNCTION (unix_config, "unix")
	macroName = ident
	params = pp.Group(pp.ZeroOrMore(expr + comma) + expr)
	macroParams = lbracket + params + rbracket

	return macroName + macroParams

	def item(self, item):
	r = {
	"macro": item[0],
	"name": item[1][1],
	"function": item[1][0],
	}

	return r


	"""Parser for function-like macros with a closing semi-colon."""
	class ParseFunctionMacroStmt(ParserFunctionMacro):
	def BNF(self):
	# VLIB_CONFIG_FUNCTION (unix_config, "unix");
	function_macro = super(ParseFunctionMacroStmt, self).BNF()
	mi = function_macro + semicolon
	mi.ignore(pp.cppStyleComment)

	return mi


	"""
	Parser for our struct initializers which are composed from a
	function-like macro, equals sign, and then a normal C struct initalizer
	block.
	"""
	class MacroInitializer(ParserFunctionMacro):
	def BNF(self):
	# VLIB_CLI_COMMAND (show_sr_tunnel_command, static) = {
	# .path = "show sr tunnel",
	# .short_help = "show sr tunnel [name <sr-tunnel-name>]",
	# .function = show_sr_tunnel_fn,
	# };
	cs = pp.Forward()


	member = pp.Combine(dot + varName + pp.Optional("[" + arrayIndex + "]"),
	adjacent=False)
	value = (expr \| cs)

	entry = pp.Group(pp.Optional(member + equals, default="") + value)
	entries = (pp.ZeroOrMore(entry + comma) + entry + pp.Optional(comma)) \| \
	(pp.ZeroOrMore(entry + comma))

	cs << (lbrace + entries + rbrace)

	macroName = ident
	params = pp.Group(pp.ZeroOrMore(expr + comma) + expr)
	macroParams = lbracket + params + rbracket

	function_macro = super(MacroInitializer, self).BNF()
	mi = function_macro + equals + pp.Group(cs) + semicolon
	mi.ignore(pp.cppStyleComment)

	return mi

	def item(self, item):
	r = {
	"macro": item[0],
	"name": item[1][0],
	"params": item[2],
	"value": {},
	}

	for param in item[2]:
	r["value"][param[0]] = cgi.escape(param[1])

	return r