Ejemplo n.º 1
0
 def getNodeByName(self, nodeList, searchDict, field_name):
     regBasic = r'^(int|string|float|xdr)'
     if re.search(regBasic, field_name):
         #print("getbasic")
         nodeData = {
             "field_type": field_name,
             "field_name": field_name,
             "field_length": 0
         }
         return sdlNode(data=nodeData)
     if field_name in searchDict:
         index = searchDict[field_name]
         #print("getdict")
         #return copy.deepcopy(nodeList[index])
         nodeTmp1 = copy.deepcopy(nodeList[index])
         if nodeTmp1.data["field_type"] == "map":
             nodeData = {
                 "field_type": "list",
                 "field_name": "maplist",
                 "field_length": 0
             }
             nodeTmp2 = sdlNode(data=nodeData)
             nodeTmp2.insertNode(nodeTmp1)
             return nodeTmp2
         return nodeTmp1
     #print("getNode " + field_name + " None")
     return None
Ejemplo n.º 2
0
 def getNodeByName(self, nodeList, searchDict, field_name):
     regBasic = r'^(int|string|float|xdr)'
     if re.search(regBasic, field_name):
         #print("getbasic" + field_name)
         ndata = nodeData(field_type=field_name, field_name=field_name, field_length=0)
         return sdlNode(data=ndata)
     if field_name in searchDict:
         index = searchDict[field_name]
         #print("getdict" + field_name)
         nodeTmp1 = copy.deepcopy(nodeList[index])
         if nodeTmp1.data.field_type == "map":
             ndata = nodeData(field_type="list", field_name="maplist", field_length=0)
             nodeTmp2 = sdlNode(data=ndata)
             nodeTmp2.insertNode(nodeTmp1)
             return nodeTmp2
         return nodeTmp1
     #print("getNode " + field_name + " None")
     return None
Ejemplo n.º 3
0
 def getNodeByName(self, nodeList, searchDict, field_name):
     regBasic = r'^(int|string|float|xdr)'
     if re.search(regBasic, field_name):
         #print("getbasic")
         return sdlNode(field_name=field_name,
                        field_type=field_name,
                        field_length=0)
     if field_name in searchDict:
         index = searchDict[field_name]
         #print("getdict")
         return copy.deepcopy(nodeList[index])
     #print("getNode " + field_name + " None")
     return None
Ejemplo n.º 4
0
    def analyseSdlContent(self):
        # '{' '}' '[' ']' '(' ')' ',' '\\' '\"' '\'' '\r' '\n'
        regstr = self.regkey + r'{({.*})}'
        mat = re.search(regstr, self.xdr_content)
        if not mat:
            return -1

        content = mat.group(1)
        #print(content)

        nodeData = {
            "field_type": None,
            "field_name": self.root_name,
            "field_length": None,
            "field_value": None,
            "field_seq": None,
            "field_note": None
        }
        self.xdrNode = sdlNode(data=nodeData)

        #searchContext = "{"
        #numList = [m.start() for m in re.finditer(searchContext, content)]
        #print(numList)

        currPos = 0
        currNode = self.xdrNode
        strLen = len(content)

        nodeData = {
            "field_type": None,
            "field_name": None,
            "field_length": None,
            "field_value": None,
            "field_seq": None,
            "field_note": None
        }
        tmpNode = sdlNode(data=nodeData)

        while currPos < strLen:
            currChar = content[currPos]
            flagNextNode = False
            if currChar == '{':
                tmpNode.data["field_type"] = "struct"
                tmpNode.data["field_name"] = "struct"
                flagNextNode = True
            elif currChar == '[':
                tmpNode.data["field_type"] = "list"
                tmpNode.data["field_name"] = "list"
                flagNextNode = True
            elif currChar == '(':
                tmpNode.data["field_type"] = "map"
                tmpNode.data["field_name"] = "map"
                flagNextNode = True
            elif currChar not in ('}', ']', ')', ','):
                i_s = self.getIndexForChar(content, '}', currPos)
                i_l = self.getIndexForChar(content, ']', currPos)
                i_m = self.getIndexForChar(content, ')', currPos)
                i_n = self.getIndexForChar(content, ',', currPos)
                typeTuple = (i_s, i_l, i_m, i_n)
                minTypeIndex, nextPos = self.getMinNumIndex(typeTuple)
                #print("currPos : " + str(currPos) + "   nextPos : " + str(nextPos))
                #print(currChar)
                if nextPos == -1:
                    return -1
                valueStr = content[currPos:nextPos]
                currPos = nextPos - 1
                tmpNode.data["field_type"] = "value"
                tmpNode.data["field_name"] = "value"
                # '\\1' = r'\1'
                tmpNode.data["field_value"] = re.sub(
                    r'\\([\\\{\}\[\]\(\),\'\"])', r'\1',
                    valueStr).replace('\\r', '\r').replace('\\n', '\n')
                flagNextNode = False
            elif content[currPos] == ',' and content[currPos - 1] == ',':
                tmpNode.data["field_type"] = "value"
                tmpNode.data["field_name"] = "value"
                flagNextNode = False
            elif content[currPos] in ('}', ']', ')'):
                currNode = currNode.parent
                currPos = currPos + 1
                continue
            else:
                currPos = currPos + 1
                continue

            if not currNode:
                print("error")
                return -2

            currNode.insertNode(tmpNode)
            if flagNextNode:
                currNode = tmpNode

            currPos = currPos + 1
            nodeData = {
                "field_type": None,
                "field_name": None,
                "field_length": None,
                "field_value": None,
                "field_seq": None,
                "field_note": None
            }
            tmpNode = sdlNode(data=nodeData)

        #self.xdrNode.children[0].data["field_name"] = "MXdr::SXdr"
        self.getNodeSeq(self.xdrNode.children[0])

        return 0
Ejemplo n.º 5
0
    def analyseSdlDefine(self):
        sdlLineList = self.getSdlFile()
        #print("start")
        if not sdlLineList:
            return -1

        #print("start")
        regStruct = r'^struct\s*([0-9a-zA-Z_]+)'
        regStructEnd = r'};?'
        regMap = r'^map\s+aimap\s*<\s*([0-9a-zA-Z_]+)\s*\,\s*([0-9a-zA-Z_]+)\s*>\s+([0-9a-zA-Z_]+)\s*;'
        regList = r'^list\s+vector\s*<\s*([0-9a-zA-Z_]+)\s*>\s+([0-9a-zA-Z_]+)\s*;'
        regBasic = r'^(int|string|float|xdr)<?([0-9]*)>?\s*([0-9a-zA-Z_]+)\s*;'
        regOther = r'^([0-9a-zA-Z_]+)\s*([0-9a-zA-Z_]+)\s*;'

        nodeList = []
        searchDict = dict()
        flagStruct = False
        FlagStructEnd = True

        nodeData = {
            "field_type": None,
            "field_name": None,
            "field_length": None
            #"field_value" : None,
            #"field_seq" : None
        }
        sdlNodeTmp = sdlNode(data=nodeData)
        #print("sdlLineList length : " + str(len(sdlLineList)))
        for line in sdlLineList:
            line = re.sub(r'//.*|\n|\r', "", line).strip()
            #print("line length : " + str(len(line)))
            if len(line) == 0:
                #print("line 0")
                continue

            #print("line : " + line)
            if re.search(regStructEnd,
                         line) and flagStruct and not FlagStructEnd:
                flagStruct = False
                FlagStructEnd = True
                #print("regStructEnd")
            elif re.search(regStruct, line):
                #print("regStruct")
                flagStruct = True
                FlagStructEnd = False
                mat = re.search(regStruct, line)
                sdlNodeTmp.data["field_name"] = mat.group(1)
                sdlNodeTmp.data["field_type"] = "struct"
                sdlNodeTmp.data["field_length"] = 0
            elif re.search(regMap, line):
                #print("regMap")
                flagStruct = False
                mat = re.search(regMap, line)
                sdlNodeTmp.data["field_name"] = mat.group(3)
                sdlNodeTmp.data["field_type"] = "map"
                sdlNodeTmp.data["field_length"] = 0

                key = mat.group(1)
                value = mat.group(2)
                #print("key : " + key + " value : " + value)
                nodeTmp1 = self.getNodeByName(nodeList, searchDict, key)
                if not nodeTmp1:
                    return -2
                sdlNodeTmp.insertNode(nodeTmp1)

                nodeTmp2 = self.getNodeByName(nodeList, searchDict, value)
                if not nodeTmp2:
                    return -2
                sdlNodeTmp.insertNode(nodeTmp2)
            elif re.search(regList, line):
                #print("regList")
                flagStruct = False
                mat = re.search(regList, line)
                sdlNodeTmp.data["field_name"] = mat.group(2)
                sdlNodeTmp.data["field_type"] = "list"
                sdlNodeTmp.data["field_length"] = 0

                key = mat.group(1)
                nodeTmp = self.getNodeByName(nodeList, searchDict, key)
                if not nodeTmp:
                    return -2
                sdlNodeTmp.insertNode(nodeTmp)
            elif flagStruct:
                if re.search(regBasic, line):
                    #print("regBasic")
                    mat = re.search(regBasic, line)
                    field_length = mat.group(2)
                    if not field_length:
                        field_length = 0

                    nodeData = {
                        "field_type": mat.group(1),
                        "field_name": mat.group(3).upper(),
                        "field_length": field_length
                    }
                    nodeTmp = sdlNode(data=nodeData)
                    sdlNodeTmp.insertNode(nodeTmp)
                elif re.search(regOther, line):
                    #print("regOther")
                    mat = re.search(regOther, line)
                    key = mat.group(1)
                    value = mat.group(2)
                    nodeTmp = self.getNodeByName(nodeList, searchDict, key)
                    if nodeTmp.data["field_type"] != "map":
                        nodeTmp.data["field_name"] = value.upper()
                    if not nodeTmp:
                        return -2
                    sdlNodeTmp.insertNode(nodeTmp)
            else:
                #print("continue")
                continue

            #print("FlagStructEnd : " + str(FlagStructEnd) + " flagStruct : "  + str(flagStruct))
            if FlagStructEnd and not flagStruct and not sdlNodeTmp.Empty():
                #print("insert")
                flagStruct = False
                FlagStructEnd = True
                nodeList.append(sdlNodeTmp)
                searchDict[sdlNodeTmp.data["field_name"]] = len(nodeList) - 1
                nodeData = {
                    "field_type": None,
                    "field_name": None,
                    "field_length": None
                }
                sdlNodeTmp = sdlNode(data=nodeData)

        self.root = self.getNodeByName(nodeList, searchDict, self.root_name)
        self.root.index = 0
        return 0