Not sure if SO is the right place to ask but here goes...

I've been learning about __setattr__() and __getattr__() and feel I understand the various recursion dangers, apart from when an element in a class instance array variable is set as there doesn't appear to be recursion in this case.

class Test(object):
    tableInfo = { 'table1' : {'col1' : 0, 'col2':1} }

    def __init__(self, tableName):
        super(Test, self).__setattr__('_tableName', tableName) # Must be set this way to stop infinite recursion as attribute is accessed in bot set and get attr
        self._rowData = [123, 456]

    def __getattr__(self, name):
        print "# GETTING %s"  % (name)
        assert self._tableName in Test.tableInfo

        if name in Test.tableInfo[self._tableName]:
            return self._rowData[Test.tableInfo[self._tableName][name]]
            raise AttributeError()

    def __setattr__(self, name, val):
        print "# SETTING %s" % (name)
        if name in Test.tableInfo[self._tableName]:
            print "Table column name found"
            self._rowData[Test.tableInfo[self._tableName][name]] = val
            self._someAttr = 1
            super(Test, self).__setattr__(name, val)

class Table1(Test):
    def __init__(self, *args, **kwargs):
        super(Table1, self).__init__("table1", *args, **kwargs)

t = Table1()
print t.col1
print t.col2
t.col1 = 999
print t.col1

t.dummy = 101

The example I was playing with is pasted below:

$ python test.py 
# SETTING _rowData
# GETTING col1
# GETTING col2
# SETTING col1
Table column name found
# SETTING _someAttr
# GETTING col1
# SETTING dummy

I can see that setting col1 causes a recursion back into __setattr__() as I would expect due to the line self._someAttr = 1.

What I don't understand is why I don't see a similar recursion cause by the line self._rowData[Test.tableInfo[self._tableName][name]] = val.

Does anyone know why this is? Thanks...

  • The second snippet doesn't set any attributes; it gets the dictionary attribute, picks keys from it and uses the result to index a list. – jonrsharpe Jan 28 '15 at 10:00

If I understand you correctly, looking at the expression itself should answer your question:

self._rowData[bla] = val gets resolved to

  • self.__getattribute__("_rowData")[bla] = val
  • and then self.__getattribute__("_rowData").__setitem__(bla, val)

There is no further __setattr__ called because no attribute is set in-between, you just change one.

  • Note that as _rowData already exists in instance dictionary due to self._rowData in __init__ the next look ups to it won't call __getattr__(__getattribute__ can find the attribute for us). – Ashwini Chaudhary Jan 28 '15 at 10:04
  • Gotcha... it was the setattr recursion I didn't understand: it was the resolution from self._rowData[bla] = val to self.__getattribute__("_rowData")[bla] = val and the use of __setitem__ as opposed to __setattr__ that I hadn't thought well enough about. Thanks for your help :) – Jimbo Jan 28 '15 at 10:08

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