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//usr/lib/python2.4/site-packages/rhpl/genClass.py
"""Generates classes with useful methods from xml data structure definition file (alchemist style). """ ## Copyright (C) 2001 - 2003 Red Hat, Inc. ## Copyright (C) 2001 - 2003 Harald Hoyer <harald@redhat.com> ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 2 of the License, or ## (at your option) any later version. ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## You should have received a copy of the GNU General Public License ## along with this program; if not, write to the Free Software ## Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. __author__ = "Harald Hoyer" __date__ = "$Date: 2006/07/25 09:26:03 $" __version__ = "$Revision: 1.20 $" import new from UserList import UserList import sys import traceback from types import * # first some defines true = (1==1) false = not true Alchemist = None LIST = "LIST" STRING = "STRING" INT = "INT" BOOL = "BOOL" FLOAT = "FLOAT" BASE64 = "BASE64" ANONYMOUS = "ANONYMOUS" PROTECTED = "PROTECTED" ATOMIC = "ATOMIC" TYPE = "TYPE" FLAGS = "FLAGS" SELF = "SELF" NAME= "NAME" PARENT = "PARENT" CHILDKEYS = "CHILDKEYS" ##PRIMARYKEY = "PRIMARYKEY" ##TYPEKEY = "TYPEKEY" StrictType = None class ParseError(Exception): def __init__(self, arg): Exception.__init__(self, arg) class GenClass: """ this basic class will be common for all genClass generated classes and imported from a seperate module """ def __init__(self, list = None, parent = None): """Constructor with the parent list and optional the Alchemist list.""" self._attributes = self.__class__.Attributes self._parent = parent self.changed = false self._dead = 0 # initialize all variables with None self._doClear() # Constructor with object if list != None and (parent == None) and isinstance(list, GenClass): self.apply(list) return if isinstance(list, Alchemist.Context): self.fromContext(list.getDataRoot().getChildByIndex(0)) self.commit(changed = false) if isinstance(list, Alchemist.Data): self.fromContext(list) self.commit(changed = false) def commit(self, changed=true): """Stub""" raise NotImplemented def apply(self, other): """Stub""" raise NotImplemented def _doClear(self): """Stub""" raise NotImplemented def _addAttr(self): """Stub""" raise NotImplemented def _createAttr(self): """Stub""" raise NotImplemented def checkType(self, child, value): """Check the type of the value passed to an assignment""" if not StrictType: return type = self._attributes[child][TYPE] if type == BOOL: if value != None and value != true and value != false: raise TypeError elif value == None: return elif type == LIST: if (ANONYMOUS in self._attributes[child][FLAGS]) \ and not isinstance(value, GenAClassList): raise TypeError elif not isinstance(value, GenClassList): raise TypeError elif type == STRING: if not isinstance(value, StringType) and not isinstance(value, unicode): raise TypeError elif type == BASE64: if not isinstance(value, StringType) and not isinstance(value, unicode): raise TypeError elif type == INT: if not isinstance(value, IntType): raise TypeError elif type == FLOAT: if not isinstance(value, FloatType): raise TypeError # # @brief returns the parent of this object # @return the parent of this object # def getParent(self): """Get the parent list""" return self._parent def _setParent(self, parent): """Set the parent list (private)""" self._parent = parent def toContext(self, list): """Convert this list to the internal Alchemist representation.""" if list == None: return if isinstance(list, Alchemist.Context): dr = list.getDataRoot() if dr.getNumChildren() == 0: dr.addChild(self._attributes[SELF][TYPE], self._attributes[SELF][NAME]) list = list.getDataRoot().getChildByIndex(0) if ANONYMOUS in self._attributes[SELF][FLAGS]: list.setAnonymous(1) if ATOMIC in self._attributes[SELF][FLAGS]: list.setAtomic(1) if PROTECTED in self._attributes[SELF][FLAGS]: list.setProtected(1) return list def __str__(self): """String representation.""" parentStr = self._attributes[SELF][NAME] return self._objToStr(parentStr) def _objToStr(self, parentStr = None): """Internal recursive object to string method.""" retstr = "" if self._attributes[SELF][TYPE] == LIST \ and (ANONYMOUS in self._attributes[SELF][FLAGS]) and len(self): # print numbers num = 1 ckey = self._attributes[SELF][CHILDKEYS][0] attr = self._attributes[ckey] if attr[TYPE] == LIST: for child in self: retstr += child._objToStr("%s.%d" % (parentStr, num)) num += 1 else: for val in self: if val: if attr[TYPE] != BOOL: retstr += "%s.%d=%s\n" % (parentStr, num, str(val)) else: if val: retstr += "%s.%d=true\n" % (parentStr, num) else: retstr += "%s.%d=false\n" % (parentStr, num) num += 1 return retstr for child, attr in self._attributes.items(): if child == SELF: continue val = None if hasattr(self, child): val = getattr(self, child) if attr[TYPE] != LIST: if val != None: if attr[TYPE] != BOOL: retstr += "%s.%s=%s\n" % (parentStr, child, str(val)) else: if val: retstr += "%s.%s=true\n" % (parentStr, child) else: retstr += "%s.%s=false\n" % (parentStr, child) else: if val != None: retstr += val._objToStr("%s.%s" % (parentStr, child)) return retstr def _parseLine(self, vals, value): """Internal import method, which parses an snmp style assignment.""" if len(vals) == 0: return key = vals[0] try: key = int(key) except: pass if len(vals) == 1: if (ANONYMOUS in self._attributes[SELF][FLAGS]): cname = self._attributes[SELF][CHILDKEYS][0] if isinstance(key, int) and len(self) >= int(key) : self[int(key)-1] = value return else: num = self._addAttr(cname) self[num] = value return else: if self._attributes[key][TYPE] == INT: setattr(self, key, int(value)) elif self._attributes[key][TYPE] == BOOL: if value == "true": setattr(self, key, true) elif value == "false": setattr(self, key, false) else: setattr(self, key, value) return else: if key == self._attributes[SELF][NAME]: self._parseLine(vals[1:], value) return if (ANONYMOUS in self._attributes[SELF][FLAGS]): cname = self._attributes[SELF][CHILDKEYS][0] if isinstance(key, int) and len(self) >= int(key) : self[int(key)-1]._parseLine(vals[1:], value) return else: num = self._addAttr(cname) self[num]._parseLine(vals[1:], value) return else: if hasattr(self, key) and getattr(self, key): getattr(self, key)._parseLine(vals[1:], value) return else: self._createAttr(key)._parseLine(vals[1:], value) def load(self, filename = None): import string if filename: file = open(filename, "r") else: file = sys.stdin lines = file.readlines() for line in lines: try: line = line[:-1] vals = string.split(line, "=") if len(vals) <= 1: continue key = vals[0] value = string.join(vals[1:], "=") vals = string.split(key, ".") self._parseLine(vals, value) except StandardException, e: pe = ParseError(_("Error parsing line: %s") % line) pe.args += e.args raise pe def save(self, filename = None): if filename: file = open(filename, "w") else: file = sys.stdout file.write(str(self)) def fromContext(self, list): pass # # @brief deletes this object # def unlink(self): if self._dead: return self._dead = 1 if self._parent != None and self._parent._dead: return parent = self._parent del self._parent self._doClear() if parent and hasattr(parent, "remove" + self._attributes[SELF][NAME]): getattr(parent, "remove" + self._attributes[SELF][NAME])(self) def modified(self): return self.changed def setChanged(self, val): self.changed = val if self._parent != None and val: self._parent.setChanged(val) def copy(self): # create new instance of ourselves n = self.newClass(self._attributes[SELF][NAME], None, None) n.apply(self) return n def _install_funcs(baseclass): for i in baseclass.Attributes[SELF][CHILDKEYS]: val = baseclass.Attributes[i] funcs, allfuncs = baseclass.Attributes[SELF]['install_func'](baseclass, val) for func in funcs: f = getattr(baseclass, '_%sAttr' % func) f = f.im_func defArgs = f.func_defaults[:-1] if defArgs != None and defArgs != (): defArgs = defArgs + (i,) else: defArgs = (i,) nfunc = new.function(f.func_code, f.func_globals, func + i, defArgs) setattr(baseclass, func + i, new.instancemethod(nfunc, None, baseclass)) #install_funcs = classmethod(install_funcs) # # Non-Anonymous List # class GenClassList(GenClass): def __init__(self, list = None, parent = None): GenClass.__init__(self, list, parent) def _doClear(self): for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] self.__dict__[i] = None self.__dict__['__' + i + '_bak'] = None def test(self): for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] if val[TYPE] == LIST: if self.__dict__[i]: self.__dict__[i].test() else: getattr(self, "test" + i)(self.__dict__[i]) def commit(self, changed=true): for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] if hasattr(self, "commit" + i): getattr(self, "commit" + i)(changed) def rollback(self): #print "----------- rollback %s -------" % self._attributes[SELF][NAME] for i in self._attributes[SELF][CHILDKEYS]: getattr(self, "rollback" + i)() def __str__(self): return GenClass.__str__(self) def apply(self, other): if other == None: self.unlink() return for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] if val[TYPE] != LIST: getattr(self, "set" + i)(getattr(other, "get" + i)()) else: child = getattr(self, "create" + i)() if child != None: child.apply(getattr(other, "get" + i)()) def _testAttr(self, value, child=None): return 0 def _getAttr(self, child=None): return self.__dict__[child] def _delAttr(self, child=None): self.__dict__[child] = None def __setattr__(self, name, value): if hasattr(self, "set" + name): getattr(self, "set" + name)(value) else: self.__dict__[name] = value def toContext(self, list): list = GenClass.toContext(self, list) if list == None: return for child in self._attributes[SELF][CHILDKEYS]: val = getattr(self, child) if self._attributes[child][TYPE] == LIST: if val != None: achild = list.addChild(self._attributes[child][TYPE], self._attributes[child][NAME]) val.toContext(achild) else: if val != None: try: achild = list.getChildByName(self._attributes[child][NAME]) except KeyError: achild = list.addChild(self._attributes[child][TYPE], self._attributes[child][NAME]) achild.setValue(val) else: if list.hasChildNamed(self._attributes[child][NAME]): list.getChildByName(self._attributes[child][NAME]).unlink() def fromContext(self, list): if not list: return if isinstance(list, Alchemist.Context): list = list.getDataRoot().getChildByIndex(0) GenClass.fromContext(self, list) for child in self._attributes[SELF][CHILDKEYS]: if self._attributes[child][TYPE] != LIST: setattr(self, child, list.getChildByName(self._attributes[child][NAME]).getValue()) else: achild = list.getChildByName(self._attributes[child][NAME]) nchild = self.newClass(self._attributes[child][NAME], achild, self) setattr(self, child, nchild) def _commitAttr(self, changed=true, child=None): cd = getattr(self, child) if self._attributes[child][TYPE] == LIST: if hasattr(cd, "commit"): getattr(cd, "commit")(changed) if getattr(self, '__' + child + '_bak') != cd: #print "%s changed" % child self.setChanged(changed) setattr(self, '__' + child + '_bak', cd) def _rollbackAttr(self, child=None): if hasattr(self, '__' + child + '_bak'): setattr(self, child, getattr(self, '__' + child + '_bak')) if self._attributes[child][TYPE] == LIST: co = getattr(self, child) if hasattr(co, "rollback"): getattr(co, "rollback")() else: setattr(self, child, None) # # Non-List-Child functions # def _setAttr(self, value, child=None): self.checkType(child, value) self.__dict__[child] = value if isinstance(list, GenClass): value.setParent(self) # # List-Child functions # def _createAttr(self, child=None): val = getattr(self, child) if val == None: val = self.newClass(self._attributes[child][NAME], None, self) setattr(self, child, val) return val def _removeAttr(self, child, childname=None): val = getattr(self, childname) if child == val: child = val setattr(self, childname, None) child.unlink() def GenClassList_get_install_funcs(klass, val): funcs = [ "get", "del", "test", "commit", "rollback" ] if val[TYPE] != LIST: funcs.append("set") else: funcs.extend(["create" , "remove"]) allfuncs = [ "get", "del", "test", "commit", "rollback", "set", "create" , "remove" ] return funcs, allfuncs #get_install_funcs = classmethod(get_install_funcs) # # Anonymous List # class GenClassAList(GenClass, UserList): def __init__(self, list = None, parent = None): UserList.__init__(self) GenClass.__init__(self, list, parent) def _doClear(self): self.data = [] self.data_bak = [] def test(self): for child in self.data: child.test() def __str__(self): return GenClass.__str__(self) def toContext(self, list): list = GenClass.toContext(self, list) if list == None: return for i in xrange(list.getNumChildren()): list.getChildByIndex(0).unlink() for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] for child in self.data: nchild = list.addChild(self._attributes[i][TYPE], self._attributes[i][NAME]) if val[TYPE] == LIST: child.toContext(nchild) else: nchild.setValue(child) def commit(self, changed=true): if self.data_bak != None and self.data == None: #print "%s changed" % self._attributes[SELF][NAME] self.setChanged(changed) elif self.data_bak == None and self.data != None: #print "%s changed" % self._attributes[SELF][NAME] self.setChanged(changed) elif len(self.data_bak) != len(self.data): #print "%s changed" % self._attributes[SELF][NAME] self.setChanged(changed) else: for i in xrange(0, len(self.data_bak)): if self.data_bak[i] != self.data[i]: #print "%s changed" % self._attributes[SELF][NAME] self.setChanged(changed) break for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] if val[TYPE] == LIST: for child in self.data: child.commit(changed) self.data_bak = self.data[:] def fromContext(self, list): if not list: return if isinstance(list, Alchemist.Context): list = list.getDataRoot().getChildByIndex(0) GenClass.fromContext(self, list) for i in self._attributes[SELF][CHILDKEYS]: val = self._attributes[i] for pos in xrange(getattr(self, "getNum" + i)()): getattr(self, "del" + i)(0) if val[TYPE] == LIST: for j in xrange(list.getNumChildren()): child = self.newClass(self._attributes[i][NAME], list.getChildByIndex(j), self) self.data.append(child) else: for i in xrange(list.getNumChildren()): child = list.getChildByIndex(i) self.data.append(child.getValue()) def rollback(self): for childkey in self._attributes[SELF][CHILDKEYS]: val = self._attributes[childkey] if val[TYPE] == LIST: for child in self.data_bak: child.rollback() self.data = self.data_bak[:] def apply(self, other): if other == None: self.unlink() return for child in self._attributes[SELF][CHILDKEYS]: val = self._attributes[child] for pos in xrange(getattr(self, "getNum" + child)()): getattr(self, "del" + child)(0) if val[TYPE] != LIST: for pos in xrange(getattr(other, "getNum" + child)()): getattr(self, "add" + child)() getattr(self, "set" + child)(pos,\ getattr(other, "get" + child)(pos)) else: for pos in xrange(getattr(other, "getNum" + child)()): getattr(self, "add" + child)() getattr(self, "get" + child)(pos).apply(\ getattr(other, "get" + child)(pos)) def _getAttr(self, pos, child = None): return self.data[pos] def _delAttr(self, pos, child = None): self.data.pop(pos) return 0 def _getNumAttr(self, child = None): return len(self.data) def _moveAttr(self, pos1, pos2, child = None): direct = 0 if pos2 > pos1: direct = 1 obj = self.data.pop(pos1) self.data.insert(obj, pos2 - direct) return 0 def __setitem__(self, i, item): #print "------- %s::__setitem__ -------" % self._attributes[SELF][NAME] child = self._attributes[SELF][CHILDKEYS][0] self.checkType(child, item) if isinstance(item, GenClass): item._setParent(self) UserList.__setitem__(self, i, item) def __getslice__(self, i, j): return UserList.__getslice__(self, i, j) def __setslice__(self, i, j, s): return UserList.__setslice__(self, i, j, s) def __delslice__(self, i, j): return UserList.__delslice__(self, i, j) def _addAttr(self, child = None): if self._attributes[child][TYPE] == LIST: nchild = self.newClass(self._attributes[child][NAME], None, self) self.data.append(nchild) else: self.data.append(None) return len(self.data)-1 # # List-Child functions # def _removeAttr(self, val, child = None): try: self.remove(val) except ValueError: pass def append(self, item): #print "------- %s::append() -------" % self._attributes[SELF][NAME] UserList.append(self, item) if isinstance(item, GenClass): item._setParent(self) def insert(self, i, item): UserList.insert(self, i, item) item._setParent(self) # # Non-List-Child functions # def _setAttr(self, pos, value, child = None): #print "_setAttr" self.checkType(child, value) self.data[pos] = value return 0 def GenClassAList_get_install_funcs(klass, val): funcs = [ "get", "del", "move", "getNum" , "add", "set" ] allfuncs = [ "get", "del", "move", "getNum" , "add", "set", "remove" ] return funcs, allfuncs #get_install_funcs = classmethod(get_install_funcs) def GenClass_new_class(attributes, myglobals): classname = attributes[SELF][NAME] if attributes[SELF][TYPE] != LIST: raise AttributeError if ANONYMOUS in attributes[SELF][FLAGS]: listtype = GenClassAList attributes[SELF]['install_func'] = GenClassAList_get_install_funcs else: listtype = GenClassList attributes[SELF]['install_func'] = GenClassList_get_install_funcs def GenClass_init_func(self, list=None, parent=None): if hasattr(self.__class__, "_ListClass"): self.__class__._ListClass.__init__(self, list, parent) def GenClass_newClass_func(self, classname, list=None, parent=None): klass = self.__class__._Globals[classname] if klass: return klass(list, parent) else: return None newclass = new.classobj(classname + '_base', (listtype,), {'Attributes' : attributes, '__init__' : GenClass_init_func, '_ListClass' : listtype, '_Globals' : myglobals, 'newClass' : GenClass_newClass_func}) _install_funcs(newclass) implclass = new.classobj(classname, (newclass,), {}) return (newclass, implclass) def __generateClassAlchemist(list, parent = None, optlower = false, myglobals = None): import Alchemist if myglobals.has_key(list.getName()): return myglobals[list.getName()] = None attributes = { SELF: { NAME : list.getName(), TYPE : LIST, FLAGS : [], PARENT : parent, CHILDKEYS : []}} if list.isAnonymous(): attributes[SELF][FLAGS].append(ANONYMOUS) if list.isAtomic(): attributes[SELF][FLAGS].append(ATOMIC) if list.isProtected(): attributes[SELF][FLAGS].append(PROTECTED) num = list.getNumChildren() retval = {} if parent: pname = parent + "." + attributes[SELF][NAME] else: pname = attributes[SELF][NAME] for i in xrange(num): child = list.getChildByIndex(i) if child.getType() == Alchemist.Data.ADM_TYPE_LIST: __generateClassAlchemist(child, pname, myglobals = myglobals) for i in xrange(num): child = list.getChildByIndex(i) cname = child.getName() if cname in attributes[SELF][CHILDKEYS]: continue if optlower: clname = str.lower(cname) else: clname = cname ctype = child.getType() attributes[cname] = { NAME : clname, TYPE : ctype, FLAGS : [] } attributes[SELF][CHILDKEYS].append(cname) if child.getType() == Alchemist.Data.ADM_TYPE_LIST: if child.isAnonymous(): attributes[cname][FLAGS].append(ANONYMOUS) if child.isAtomic(): attributes[cname][FLAGS].append(ATOMIC) if child.isProtected(): attributes[cname][FLAGS].append(PROTECTED) baseclass, implclass = GenClass_new_class(attributes, myglobals) myglobals[list.getName() + '_base' ] = baseclass myglobals[list.getName() ] = implclass def __GenClass_read_classfile_Alchemist(boxpath, mod = None, OptLower = false): bbc = Alchemist.Context(name = 'FileBlackBox', serial = 1) broot = bbc.getDataRoot() list = broot.addChild(Alchemist.Data.ADM_TYPE_LIST, 'box_cfg') list.addChild(Alchemist.Data.ADM_TYPE_STRING, 'path').setValue(boxpath) list.addChild(Alchemist.Data.ADM_TYPE_STRING, 'box_type').setValue('FileBlackBox') list.addChild(Alchemist.Data.ADM_TYPE_BOOL, 'readable').setValue(true) list.addChild(Alchemist.Data.ADM_TYPE_BOOL, 'writable').setValue(false) bb = FileBlackBox.FileBlackBox(list) if bb.errNo(): print 'Error creating FileBlackBox: ' + bb.strError() sys.exit(10) if bb.isReadable(): con = bb.read() if con == None: if bb.errNo(): print 'Error reading ' + boxpath +': ' + bb.strError() sys.exit(10) else: print 'Error: ' + boxpath + ' is not readable!' sys.exit(10) dr = con.getDataRoot().getChildByIndex(0) __generateClassAlchemist(dr, myglobals = mod.__dict__) def __generateClass(list, parent = None, optlower = false, myglobals = None): listname = list.nodeName.encode() if myglobals.has_key(listname): return myglobals[listname] = None attributes = { SELF: { NAME : listname, TYPE : LIST, FLAGS : [], PARENT : parent, CHILDKEYS : []}} if "ANONYMOUS" in list.attributes.keys() and \ unicode.upper(list.attributes["ANONYMOUS"].value) == "TRUE": attributes[SELF][FLAGS].append(ANONYMOUS) if "ATOMIC" in list.attributes.keys() and \ unicode.upper(list.attributes["ATOMIC"].value) == "TRUE": attributes[SELF][FLAGS].append(ATOMIC) if "PROTECTED" in list.attributes.keys() and \ unicode.upper(list.attributes["PROTECTED"].value) == "TRUE": attributes[SELF][FLAGS].append(PROTECTED) retval = {} if parent: pname = parent + "." + attributes[SELF][NAME] else: pname = attributes[SELF][NAME] for child in list.childNodes: if child.nodeType != child.ELEMENT_NODE: continue if "TYPE" in child.attributes.keys() and \ unicode.upper(child.attributes["TYPE"].value) == "LIST": __generateClass(child, pname, myglobals = myglobals) childnum = 0 for child in list.childNodes: if child.nodeType != child.ELEMENT_NODE: continue cname = child.nodeName.encode() if cname in attributes[SELF][CHILDKEYS]: continue childnum += 1 if optlower: clname = str.OptLower(cname) else: clname = cname if "TYPE" in child.attributes.keys(): ctype = unicode.upper(child.attributes["TYPE"].value) if ctype == "LIST": ctype = Alchemist.Data.ADM_TYPE_LIST elif ctype == "STRING": ctype = Alchemist.Data.ADM_TYPE_STRING elif ctype == "INT": ctype = Alchemist.Data.ADM_TYPE_INT elif ctype == "BOOL": ctype = Alchemist.Data.ADM_TYPE_BOOL elif ctype == "FLOAT": ctype = Alchemist.Data.ADM_TYPE_FLOAT elif ctype == "BASE64": ctype = Alchemist.Data.ADM_TYPE_BASE64 else: raise NOCHILDATTR attributes[cname] = { NAME : clname, TYPE : ctype, FLAGS : [] } attributes[SELF][CHILDKEYS].append(cname) if ctype == Alchemist.Data.ADM_TYPE_LIST: if "ANONYMOUS" in child.attributes.keys() and \ unicode.upper(child.attributes["ANONYMOUS"].value) == "TRUE": attributes[cname][FLAGS].append(ANONYMOUS) if "ATOMIC" in child.attributes.keys() and \ unicode.upper(child.attributes["ATOMIC"].value) == "TRUE": attributes[cname][FLAGS].append(ATOMIC) if "PROTECTED" in child.attributes.keys() and \ unicode.upper(child.attributes["PROTECTED"].value) == "TRUE": attributes[cname][FLAGS].append(PROTECTED) ## else: ## if "PRIMARYKEY" in child.attributes.keys(): ## attributes[cname][FLAGS].append(PRIMARYKEY) ## if "TYPEKEY" in child.attributes.keys(): ## attributes[cname][FLAGS].append(TYPEKEY) baseclass, implclass = GenClass_new_class(attributes, myglobals) myglobals[listname + '_base' ] = baseclass myglobals[listname] = implclass def __GenClass_read_classfile(boxpath, mod = None, OptLower = false): import xml.dom.minidom doc = xml.dom.minidom.parse(boxpath) dt = doc.childNodes[0].getElementsByTagName("datatree")[0] dr = None for e in dt.childNodes: if e.nodeType != e.ELEMENT_NODE: continue dr = e break __generateClass(dr, myglobals = mod.__dict__) def GenClass_read_classfile(boxpath, mod, OptLower = false): """Load the classfile and use the Alchemist, if Use_Alchemist is set in the module""" global Alchemist global LIST global STRING global INT global BOOL global FLOAT global BASE64 use_Alchemist = None if hasattr(mod, "Use_Alchemist"): use_Alchemist = getattr(mod, "Use_Alchemist") if use_Alchemist: import Alchemist LIST = Alchemist.Data.ADM_TYPE_LIST STRING = Alchemist.Data.ADM_TYPE_STRING INT = Alchemist.Data.ADM_TYPE_INT BOOL = Alchemist.Data.ADM_TYPE_BOOL FLOAT = Alchemist.Data.ADM_TYPE_FLOAT BASE64 = Alchemist.Data.ADM_TYPE_BASE64 __GenClass_read_classfile_Alchemist(boxpath, mod, OptLower) else: class Alchemist: class Data: ADM_TYPE_LIST = LIST ADM_TYPE_STRING = STRING ADM_TYPE_INT = INT ADM_TYPE_BOOL = BOOL ADM_TYPE_FLOAT = FLOAT ADM_TYPE_BASE64 = BASE64 pass class Context: pass __GenClass_read_classfile(boxpath, mod, OptLower) __credits__ = """ Changelog: $Log: genClass.py,v $ Revision 1.20 2006/07/25 09:26:03 harald correctly parse bool values Revision 1.19 2005/12/14 21:18:33 clumens Stop using rhpl.log. Revision 1.18 2003/04/29 10:39:23 harald some restructuring and documentation """