wxWidgets/docs/doxygen/scripts/doxymlparser.py

234 lines
7.3 KiB
Python
Executable File

"""
Name: doxymlparser.py
Author: Kevin Ollivier
License: wxWidgets License
"""
__description__ = """
Takes the output of Doxygen XML and parses it to retrieve metadata about the classes and methods.
To create the Doxygen XML files, from the wxWidgets/docs/doxygen directory, do:
./regen.sh xml
To see the results from parsing a particular class, do:
python doxymlparser.py --report out/xml/classwx_<whatever>.xml
"""
#!/usr/bin/env python
import optparse
import os
import string
import sys
import types
from xml.dom import minidom
option_dict = {
"report" : (False, "Print out the classes and methods found by this script."),
"verbose" : (False, "Provide status updates and other information."),
}
parser = optparse.OptionParser(usage="usage: %prog [options] <doxyml files to parse>\n" + __description__, version="%prog 1.0")
for opt in option_dict:
default = option_dict[opt][0]
action = "store"
if type(default) == types.BooleanType:
action = "store_true"
parser.add_option("--" + opt, default=default, action=action, dest=opt, help=option_dict[opt][1])
options, arguments = parser.parse_args()
def get_first_value(alist):
if len(alist) > 0:
return alist[0]
else:
return ""
class ClassDefinition:
def __init__(self):
self.name = ""
self.constructors = []
self.destructors = []
self.methods = []
self.brief_description = ""
self.detailed_description = ""
self.includes = []
self.bases = []
self.enums = {}
def __str__(self):
str_repr = """
Class: %s
Bases: %s
Includes: %s
Brief Description:
%s
Detailed Description:
%s
""" % (self.name, string.join(self.bases, ", "), self.includes, self.brief_description, self.detailed_description)
str_repr += "Methods:\n"
for method in self.methods:
str_repr += str(method)
return str_repr
class MethodDefinition:
def __init__(self):
self.name = ""
self.return_type = ""
self.argsstring = ""
self.definition = ""
self.params = []
self.brief_description = ""
self.detailed_description = ""
def __str__(self):
str_repr = """
Method: %s
Return Type: %s
Params: %r
Prototype: %s
Brief Description:
%s
Detailed Description:
%s
""" % (self.name, self.return_type, self.params, self.definition + self.argsstring, self.brief_description, self.detailed_description)
return str_repr
def getTextValue(node, recursive=False):
text = ""
for child in node.childNodes:
if child.nodeType == child.ELEMENT_NODE and child.nodeName == "ref":
text += getTextValue(child)
if child.nodeType == child.TEXT_NODE:
# Add a space to ensure we have a space between qualifiers and parameter names
text += child.nodeValue.strip() + " "
return text.strip()
def doxyMLToText(node):
return text
class DoxyMLParser:
def __init__(self):
self.classes = []
def find_class(self, name):
for aclass in self.classes:
if aclass.name == name:
return aclass
return None
def get_enums_and_functions(self, filename, aclass):
file_path = os.path.dirname(filename)
enum_filename = os.path.join(file_path, aclass.name[2:] + "_8h.xml")
if os.path.exists(enum_filename):
root = minidom.parse(enum_filename).documentElement
for method in root.getElementsByTagName("memberdef"):
if method.getAttribute("kind") == "enum":
self.parse_enum(aclass, method, root)
def is_derived_from_base(self, aclass, abase):
base = get_first_value(aclass.bases)
while base and base != "":
if base == abase:
return True
parentclass = self.find_class(base)
if parentclass:
base = get_first_value(parentclass.bases)
else:
base = None
return False
def parse(self, filename):
self.xmldoc = minidom.parse(filename).documentElement
for node in self.xmldoc.getElementsByTagName("compounddef"):
new_class = self.parse_class(node)
self.classes.append(new_class)
self.get_enums_and_functions(filename, new_class)
def parse_class(self, class_node):
new_class = ClassDefinition()
new_class.name = getTextValue(class_node.getElementsByTagName("compoundname")[0])
for node in class_node.childNodes:
if node.nodeName == "basecompoundref":
new_class.bases.append(getTextValue(node))
elif node.nodeName == "briefdescription":
# let the post-processor determ
new_class.brief_description = node.toxml()
elif node.nodeName == "detaileddescription":
new_class.detailed_description = node.toxml()
elif node.nodeName == "includes":
new_class.includes.append(getTextValue(node))
self.parse_methods(new_class, class_node)
return new_class
def parse_enum(self, new_class, enum, root):
enum_name = ""
enum_values = []
for node in enum.childNodes:
if node.nodeName == "name":
enum_name = getTextValue(node)
elif node.nodeName == "enumvalue":
enum_values.append(getTextValue(node.getElementsByTagName("name")[0]))
new_class.enums[enum_name] = enum_values
def parse_methods(self, new_class, root):
for method in root.getElementsByTagName("memberdef"):
new_method = MethodDefinition()
for node in method.childNodes:
if node.nodeName == "name":
new_method.name = getTextValue(node)
elif node.nodeName == "type":
new_method.return_type = getTextValue(node)
elif node.nodeName == "definition":
new_method.definition = getTextValue(node)
elif node.nodeName == "argsstring":
new_method.argsstring = getTextValue(node)
elif node.nodeName == "param":
param = {}
for child in node.childNodes:
if child.nodeType == child.ELEMENT_NODE:
param[child.nodeName] = getTextValue(child)
new_method.params.append(param)
if options.verbose:
print "Adding %s" % (new_method.name + new_method.argsstring)
if new_method.name == new_class.name:
new_class.constructors.append(new_method)
elif new_method.name == "~" + new_class.name:
new_class.destructors.append(new_method)
else:
new_class.methods.append(new_method)
if __name__ == "__main__":
if len(arguments) < 1:
parser.print_usage()
sys.exit(1)
doxyparse = DoxyMLParser()
for arg in arguments:
doxyparse.parse(arg)
if options.report:
for aclass in doxyparse.classes:
print str(aclass)