c_gen/loci_utils.py - onos-loxi - Gitiles

 import c_gen.of_g_legacy as of_g

 def class_signature(members):
     """
     Generate a signature string for a class in canonical form

     @param cls The class whose signature is to be generated
     """
     return ";".join([",".join([x["m_type"], x["name"], str(x["offset"])])
                      for x in members])

 def type_dec_to_count_base(m_type):
     """
     Resolve a type declaration like uint8_t[4] to a count (4) and base_type
     (uint8_t)

     @param m_type The string type declaration to process
     """
     count = 1
     chk_ar = m_type.split('[')
     if len(chk_ar) > 1:
         count_str = chk_ar[1].split(']')[0]
         if count_str in of_g.ofp_constants:
             count = of_g.ofp_constants[count_str]
         else:
             count = int(count_str)
         base_type = chk_ar[0]
     else:
         base_type = m_type
     return count, base_type

 def list_to_entry_type(cls):
     """
     Return the entry type for a list
     """
     slen = len("of_list_")
     return "of_" + cls[slen:]

 def type_to_short_name(m_type):
     if m_type in of_g.of_base_types:
         tname = of_g.of_base_types[m_type]["short_name"]
     elif m_type in of_g.of_mixed_types:
         tname = of_g.of_mixed_types[m_type]["short_name"]
     else:
         tname = "unknown"
     return tname

 def type_to_name_type(cls, member_name):
     """
     Generate the root name of a member for accessor functions, etc
     @param cls The class name
     @param member_name The member name
     """
     members = of_g.unified[cls]["union"]
     if not member_name in members:
         debug("Error:  %s is not in class %s for acc_name defn" %
               (member_name, cls))
         os.exit()

     mem = members[member_name]
     m_type = mem["m_type"]
     id = mem["memid"]
     tname = type_to_short_name(m_type)

     return "o%d_m%d_%s" % (of_g.unified[cls]["object_id"], id, tname)


 def member_to_index(m_name, members):
     """
     Given a member name, return the index in the members dict
     @param m_name The name of the data member to search for
     @param members The dict of members
     @return Index if found, -1 not found

     Note we could generate an index when processing the original input
     """
     count = 0
     for d in members:
         if d["name"] == m_name:
             return count
         count += 1
     return -1

 def member_base_type(cls, m_name):
     """
     Map a member to its of_ type
     @param cls The class name
     @param m_name The name of the member being gotten
     @return The of_ type of the member
     """
     rv = of_g.unified[cls]["union"][m_name]["m_type"]
     if rv[-2:] == "_t":
         return rv
     return rv + "_t"

 def member_type_is_octets(cls, m_name):
     return member_base_type(cls, m_name) == "of_octets_t"

 def h_file_to_define(name):
     """
     Convert a .h file name to the define used for the header
     """
     h_name = name[:-2].upper()
     h_name = "_" + h_name + "_H_"
     return h_name

 def type_to_cof_type(m_type):
     if m_type in of_g.of_base_types:
         if "cof_type" in of_g.of_base_types[m_type]:
             return of_g.of_base_types[m_type]["cof_type"]
     return m_type


 def member_is_scalar(cls, m_name):
     return of_g.unified[cls]["union"][m_name]["m_type"] in of_g.of_scalar_types

 def type_is_scalar(m_type):
     return m_type in of_g.of_scalar_types

 def skip_member_name(name):
     return name.find("pad") == 0 or name in of_g.skip_members

 def enum_name(cls):
     """
     Return the name used for an enum identifier for the given class
     @param cls The class name
     """
     return cls.upper()

 def class_in_version(cls, ver):
     """
     Return boolean indicating if cls is defined for wire version ver
     """

     return (cls, ver) in of_g.base_length

 def instance_to_class(instance, parent):
     """
     Return the name of the class for an instance of inheritance type parent
     """
     return parent + "_" + instance

 def sub_class_to_var_name(cls):
     """
     Given a subclass name like of_action_output, generate the
     name of a variable like 'output'
     @param cls The class name
     """
     pass

 def class_is_var_len(cls, version):
     # Match is special case.  Only version 1.2 (wire version 3) is var
     if cls == "of_match":
         return version == 3

     return not (cls, version) in of_g.is_fixed_length

 def base_type_to_length(base_type, version):
     if base_type + "_t" in of_g.of_base_types:
         inst_len = of_g.of_base_types[base_type + "_t"]["bytes"]
     else:
         inst_len = of_g.base_length[(base_type, version)]

 def version_to_name(version):
     """
     Convert an integer version to the C macro name
     """
     return "OF_" + of_g.version_names[version]

 ##
 # Is class a flow modify of some sort?

 def cls_is_flow_mod(cls):
     return cls in ["of_flow_mod", "of_flow_modify", "of_flow_add", "of_flow_delete",
                    "of_flow_modify_strict", "of_flow_delete_strict"]

 def all_member_types_get(cls, version):
     """
     Get the members and list of types for members of a given class
     @param cls The class name to process
     @param version The version for the class
     """
     member_types = []

     if not version in of_g.unified[cls]:
         return ([], [])

     if "use_version" in of_g.unified[cls][version]:
         v = of_g.unified[cls][version]["use_version"]
         members = of_g.unified[cls][v]["members"]
     else:
         members = of_g.unified[cls][version]["members"]
     # Accumulate variables that are supported
     for member in members:
         m_type = member["m_type"]
         m_name = member["name"]
         if skip_member_name(m_name):
             continue
         if not m_type in member_types:
             member_types.append(m_type)

     return (members, member_types)

 def list_name_extract(list_type):
     """
     Return the base name for a list object of the given type
     @param list_type The type of the list as appears in the input,
     for example list(of_port_desc_t).
     @return A pair, (list-name, base-type) where list-name is the
     base name for the list, for example of_list_port_desc, and base-type
     is the type of list elements like of_port_desc_t
     """
     base_type = list_type[5:-1]
     list_name = base_type
     if list_name.find("of_") == 0:
         list_name = list_name[3:]
     if list_name[-2:] == "_t":
         list_name = list_name[:-2]
     list_name = "of_list_" + list_name
     return (list_name, base_type)

 def version_to_name(version):
     """
     Convert an integer version to the C macro name
     """
     return "OF_" + of_g.version_names[version]

 def gen_c_copy_license(out):
     """
     Generate the top comments for copyright and license
     """
     import c_gen.util
     c_gen.util.render_template(out, '_copyright.c')

 def accessor_returns_error(a_type, m_type):
     is_var_len = (not type_is_scalar(m_type)) and \
         [x for x in of_g.of_version_range if class_is_var_len(m_type[:-2], x)] != []
     if a_type == "set" and is_var_len:
         return True
     elif m_type == "of_match_t":
         return True
     else:
         return False
	import c_gen.of_g_legacy as of_g

	def class_signature(members):
	"""
	Generate a signature string for a class in canonical form

	@param cls The class whose signature is to be generated
	"""
	return ";".join([",".join([x["m_type"], x["name"], str(x["offset"])])
	for x in members])

	def type_dec_to_count_base(m_type):
	"""
	Resolve a type declaration like uint8_t[4] to a count (4) and base_type
	(uint8_t)

	@param m_type The string type declaration to process
	"""
	count = 1
	chk_ar = m_type.split('[')
	if len(chk_ar) > 1:
	count_str = chk_ar[1].split(']')[0]
	if count_str in of_g.ofp_constants:
	count = of_g.ofp_constants[count_str]
	else:
	count = int(count_str)
	base_type = chk_ar[0]
	else:
	base_type = m_type
	return count, base_type

	def list_to_entry_type(cls):
	"""
	Return the entry type for a list
	"""
	slen = len("of_list_")
	return "of_" + cls[slen:]

	def type_to_short_name(m_type):
	if m_type in of_g.of_base_types:
	tname = of_g.of_base_types[m_type]["short_name"]
	elif m_type in of_g.of_mixed_types:
	tname = of_g.of_mixed_types[m_type]["short_name"]
	else:
	tname = "unknown"
	return tname

	def type_to_name_type(cls, member_name):
	"""
	Generate the root name of a member for accessor functions, etc
	@param cls The class name
	@param member_name The member name
	"""
	members = of_g.unified[cls]["union"]
	if not member_name in members:
	debug("Error: %s is not in class %s for acc_name defn" %
	(member_name, cls))
	os.exit()

	mem = members[member_name]
	m_type = mem["m_type"]
	id = mem["memid"]
	tname = type_to_short_name(m_type)

	return "o%d_m%d_%s" % (of_g.unified[cls]["object_id"], id, tname)


	def member_to_index(m_name, members):
	"""
	Given a member name, return the index in the members dict
	@param m_name The name of the data member to search for
	@param members The dict of members
	@return Index if found, -1 not found

	Note we could generate an index when processing the original input
	"""
	count = 0
	for d in members:
	if d["name"] == m_name:
	return count
	count += 1
	return -1

	def member_base_type(cls, m_name):
	"""
	Map a member to its of_ type
	@param cls The class name
	@param m_name The name of the member being gotten
	@return The of_ type of the member
	"""
	rv = of_g.unified[cls]["union"][m_name]["m_type"]
	if rv[-2:] == "_t":
	return rv
	return rv + "_t"

	def member_type_is_octets(cls, m_name):
	return member_base_type(cls, m_name) == "of_octets_t"

	def h_file_to_define(name):
	"""
	Convert a .h file name to the define used for the header
	"""
	h_name = name[:-2].upper()
	h_name = "_" + h_name + "_H_"
	return h_name

	def type_to_cof_type(m_type):
	if m_type in of_g.of_base_types:
	if "cof_type" in of_g.of_base_types[m_type]:
	return of_g.of_base_types[m_type]["cof_type"]
	return m_type


	def member_is_scalar(cls, m_name):
	return of_g.unified[cls]["union"][m_name]["m_type"] in of_g.of_scalar_types

	def type_is_scalar(m_type):
	return m_type in of_g.of_scalar_types

	def skip_member_name(name):
	return name.find("pad") == 0 or name in of_g.skip_members

	def enum_name(cls):
	"""
	Return the name used for an enum identifier for the given class
	@param cls The class name
	"""
	return cls.upper()

	def class_in_version(cls, ver):
	"""
	Return boolean indicating if cls is defined for wire version ver
	"""

	return (cls, ver) in of_g.base_length

	def instance_to_class(instance, parent):
	"""
	Return the name of the class for an instance of inheritance type parent
	"""
	return parent + "_" + instance

	def sub_class_to_var_name(cls):
	"""
	Given a subclass name like of_action_output, generate the
	name of a variable like 'output'
	@param cls The class name
	"""
	pass

	def class_is_var_len(cls, version):
	# Match is special case. Only version 1.2 (wire version 3) is var
	if cls == "of_match":
	return version == 3

	return not (cls, version) in of_g.is_fixed_length

	def base_type_to_length(base_type, version):
	if base_type + "_t" in of_g.of_base_types:
	inst_len = of_g.of_base_types[base_type + "_t"]["bytes"]
	else:
	inst_len = of_g.base_length[(base_type, version)]

	def version_to_name(version):
	"""
	Convert an integer version to the C macro name
	"""
	return "OF_" + of_g.version_names[version]

	##
	# Is class a flow modify of some sort?

	def cls_is_flow_mod(cls):
	return cls in ["of_flow_mod", "of_flow_modify", "of_flow_add", "of_flow_delete",
	"of_flow_modify_strict", "of_flow_delete_strict"]

	def all_member_types_get(cls, version):
	"""
	Get the members and list of types for members of a given class
	@param cls The class name to process
	@param version The version for the class
	"""
	member_types = []

	if not version in of_g.unified[cls]:
	return ([], [])

	if "use_version" in of_g.unified[cls][version]:
	v = of_g.unified[cls][version]["use_version"]
	members = of_g.unified[cls][v]["members"]
	else:
	members = of_g.unified[cls][version]["members"]
	# Accumulate variables that are supported
	for member in members:
	m_type = member["m_type"]
	m_name = member["name"]
	if skip_member_name(m_name):
	continue
	if not m_type in member_types:
	member_types.append(m_type)

	return (members, member_types)

	def list_name_extract(list_type):
	"""
	Return the base name for a list object of the given type
	@param list_type The type of the list as appears in the input,
	for example list(of_port_desc_t).
	@return A pair, (list-name, base-type) where list-name is the
	base name for the list, for example of_list_port_desc, and base-type
	is the type of list elements like of_port_desc_t
	"""
	base_type = list_type[5:-1]
	list_name = base_type
	if list_name.find("of_") == 0:
	list_name = list_name[3:]
	if list_name[-2:] == "_t":
	list_name = list_name[:-2]
	list_name = "of_list_" + list_name
	return (list_name, base_type)

	def version_to_name(version):
	"""
	Convert an integer version to the C macro name
	"""
	return "OF_" + of_g.version_names[version]

	def gen_c_copy_license(out):
	"""
	Generate the top comments for copyright and license
	"""
	import c_gen.util
	c_gen.util.render_template(out, '_copyright.c')

	def accessor_returns_error(a_type, m_type):
	is_var_len = (not type_is_scalar(m_type)) and \
	[x for x in of_g.of_version_range if class_is_var_len(m_type[:-2], x)] != []
	if a_type == "set" and is_var_len:
	return True
	elif m_type == "of_match_t":
	return True
	else:
	return False