def getFunction(elem):
syms = []
name = getters.getName(elem)
include = getters.getLocation(elem)
params = getters.getParamDesc(elem, getters.getParams(elem))
briefDesc = getters.getBriefDesc(elem)
detailedDesc = getters.getFunctionDetailedDesc(elem)
returnType = getters.getType(elem)
exceptions = getters.getExceptions(elem)
returnDesc = getters.getReturnDesc(elem)
returnValues = getters.getRetvals(elem)
funcProto = buildPrototype(returnType + " " + name + "(", briefDesc)
for param in params:
proto = param.type + " " + param.name
funcProto.prototype += proto + ", "
funcProto.addParameter(
buildParameter(prototype=proto, description=param.desc))
for ex in exceptions:
funcProto.addException(
buildException(linkedSymbol=ex.typename,
description=ex.description))
if len(params) != 0:
funcProto.prototype = funcProto.prototype[:-2]
funcProto.prototype += ")"
funcProto.addParameter(
buildParameter(prototype="return", description=returnDesc))
syms.append(
buildFunction(path=name, prototypeObj=funcProto, importString=include))
return syms
def getEnum(elem):
syms = []
name = getters.getName(elem)
include = getters.getLocation(elem)
params = getters.getEnumParams(elem)
briefDesc = getters.getBriefDesc(elem)
detailedDesc = getters.getDetailedDesc(elem)
enumProto = buildPrototype("enum " + name + " { ", briefDesc)
for param in params:
if param.initializer != "":
proto = param.name + param.initializer
else:
proto = param.name
enumProto.prototype += proto + ", "
enumProto.addParameter(
buildParameter(prototype=proto, description=param.desc))
if len(params) != 0:
enumProto.prototype = enumProto.prototype[:-2]
enumProto.prototype += " }"
enumSym = buildVariable(path=name,
prototypeObj=enumProto,
importString=include)
syms.append(enumSym)
return syms
def getClass(classRoot):
syms = []
name = getters.getCompoundName(classRoot)
name = name[name.find('::') + 2:]
include = getters.getLocation(classRoot.find("compounddef"))
briefDesc = getters.getBriefDesc(classRoot.find("compounddef"))
classProto = buildPrototype("class " + name, briefDesc)
classSym = buildClass(path=name,
prototypeObj=classProto,
importString=include)
for elem in classRoot.iter('memberdef'):
kind = elem.get('kind')
if kind == 'variable':
varSyms = getVariable(elem)
for varSym in varSyms:
classSym.addMember(name + "/" + varSym.path)
syms.append(varSym)
if kind == 'function':
funcSyms = getFunction(elem)
for funcSym in funcSyms:
classSym.addMember(name + "/" + funcSym.path)
syms.append(funcSym)
syms.append(classSym)
return syms
def parseVariable(root):
syms = []
proto = root.get("prot")
if (root.get("static") == "yes"):
proto = proto + " static"
t = root.find("type")
tname = ""
if (t.find("ref") != None):
tname = t.find("ref").text
else:
tname = root.find("type").text
tt = root.find("argsstring").text
if (tt == None):
logError(
"A terrible error in Python XML has been detected: XML lib returned None when the node exists"
)
tt = ""
proto = proto + " " + tname + " " + root.find("name").text + tt
briefDesc = getters.getBriefDesc(root)
detailedDesc = getters.getDetailedDesc(root)
desc = briefDesc
if (len(detailedDesc) > 0):
desc = detailedDesc
syms.append(buildVariable("", buildPrototype(proto, desc)))
return (syms)
def parseTypedef(root):
syms = []
proto = root.get("prot") + " "
proto = proto + root.find("definition").text
syms.append(
buildTypedef(path="",
prototypeObj=buildPrototype(
prototype=proto,
description=getters.getDetailedDesc(root))))
return (syms)
def getVariable(elem):
syms = []
name = getters.getName(elem)
include = getters.getLocation(elem)
vtype = getters.getType(elem)
value = getters.getInitializer(elem)
briefDesc = getters.getBriefDesc(elem)
varProto = buildPrototype(name, briefDesc)
syms.append(
buildVariable(path=name, prototypeObj=varProto, importString=include))
return syms
def getUnion(fileName):
root = ET.parse(fileName).getroot()
syms = []
name = getters.getCompoundName(root)
include = getters.getLocation(root.find("compounddef"))
briefDesc = getters.getBriefDesc(root.find("compounddef"))
detailedDesc = getters.getDetailedDesc(root.find("compounddef"))
unionProto = buildPrototype("struct " + name, briefDesc)
unionSym = buildUnion(path=name,
prototypeObj=unionProto,
importString=include)
for elem in root.iter("memberdef"):
ename = getters.getName(elem)
etype = getters.getType(elem)
edesc = getters.getDetailedDesc(elem)
proto = buildPrototype(etype + " " + ename, edesc)
syms.append(
buildVariable(path=(name + "/" + ename), prototypeObj=proto))
unionSym.addMember(name + "/" + ename)
syms.append(unionSym)
return syms
def getDefine(define):
syms = []
name = getters.getName(define)
include = getters.getLocation(define)
initializer = getters.getInitializer(define)
params = getters.getParamDesc(define, getters.getParams(define))
briefDesc = getters.getBriefDesc(define)
detailedDesc = getters.getDetailedDesc(define)
defineProto = buildPrototype("#define " + name + " " + initializer,
briefDesc)
syms.append(
buildDefine(path=name, prototypeObj=defineProto, importString=include))
return syms
def getTypedef(elem):
syms = []
tdType = getters.getType(elem)
include = getters.getLocation(elem)
try:
if elem.find("argsstring").text:
tmp = strOp.epurStr(elem.find("argsstring").text)
else:
return syms
tdType = strOp.epurStr(tdType + tmp)
except Exception as error:
useful.printExceptionVerbose(error)
pass
tdName = getters.getName(elem)
briefDesc = getters.getBriefDesc(elem)
detailedDesc = getters.getDetailedDesc(elem)
typedefProto = buildPrototype("typedef " + tdName + " " + tdType,
briefDesc)
syms.append(
buildTypedef(path=tdName,
prototypeObj=typedefProto,
importString=include))
return syms
def parseClass(root):
#Obtain generic information about the class
cpdef = root.find("compounddef")
name = cpdef.find("compoundname").text
path = name.replace("::", "/")
classProto = cpdef.get("prot") + " "
importStr = cpdef.find("location").get("file")
isAbstract = cpdef.get("abstract")
if (isAbstract == "yes"):
classProto = classProto + "abstract "
classProto = classProto + "class " + name
briefDesc = getters.getBriefDesc(cpdef)
detailedDesc = getters.getDetailedDesc(cpdef)
description = briefDesc
if (len(detailedDesc) > 0):
description = detailedDesc
templatePars = []
tlist = cpdef.find("templateparamlist")
if (tlist != None):
for elem in tlist.iter('param'):
v = variableClass()
v.type = elem.find("type")
if (elem.find("declname") == None): #Found bug in Doxygen
logWarning(
"A terrible error has occured in Doxygen: template is corrupted, attempting restore..."
)
txt = v.type.text
vals = txt.split(" ")
if (len(vals) < 2):
logError("Unable to restore corrupted template!")
continue
v.type = vals[0]
v.name = vals[1]
logInfo("Successfully restored corrupted template!")
else:
if (v.type.find("ref") != None):
v.ref = v.type.find("ref").get("refid")
if (resolveReference(v.ref) != None):
v.ref = resolveReference(v.ref).path
v.type = v.type.find("ref").text
else:
v.type = v.type.text
v.name = elem.find("declname").text
if (elem.find("defval") != None):
v.value = elem.find("defval").text
templatePars.append(v)
if (len(templatePars) > 0):
prefix = "template <"
for v in templatePars:
prefix = prefix + v.type + " " + v.name
if (v.value != None and len(v.value) > 0):
prefix = prefix + " = " + v.value
prefix = prefix + ", "
prefix = prefix[:-2]
prefix = prefix + ">"
classProto = prefix + classProto
templatePars = getters.getParamDesc(cpdef, templatePars)
#Build a symbol for the class
proto = buildPrototype(prototype=classProto, description=description)
for v in templatePars:
proto.addParameter(
buildParameter(prototype=v.type + " " + v.name,
description=v.desc))
cl = buildClass(path=path, prototypeObj=proto, importString=importStr)
syms = []
for elem in root.iter('memberdef'):
kind = elem.get('kind')
pp3b = path + "/" + elem.find("name").text
cl.addMember(pp3b)
syms1 = []
if (kind in kindTable):
syms1 = kindTable[kind](elem)
for s in syms1:
s.typename = "member " + s.typename
s.path = pp3b
syms.append(s)
for elem in root.iter('innerclass'):
pp3b = elem.text.replace("::", "/")
cl.addMember(pp3b)
syms.append(cl)
return (syms)
