src/reportlab/lib/attrmap.py
author rptlab
Tue, 30 Apr 2013 14:20:22 +0100
branchpy33
changeset 3721 0c93dd8ff567
parent 3617 ae5744e97c42
child 3723 99aa837b6703
permissions -rw-r--r--
initial changes from 2to3-3.3

#Copyright ReportLab Europe Ltd. 2000-2012
#see license.txt for license details
#history http://www.reportlab.co.uk/cgi-bin/viewcvs.cgi/public/reportlab/trunk/reportlab/lib/attrmap.py
__version__=''' $Id$ '''
__doc__='''Framework for objects whose assignments are checked. Used by graphics.

We developed reportlab/graphics prior to Python 2 and metaclasses. For the
graphics, we wanted to be able to declare the attributes of a class, check
them on assignment, and convert from string arguments.  Examples of
attrmap-based objects can be found in reportlab/graphics/shapes.  It lets
us defined structures like the one below, which are seen more modern form in
Django models and other frameworks.

We'll probably replace this one day soon, hopefully with no impact on client
code.

class Rect(SolidShape):
    """Rectangle, possibly with rounded corners."""

    _attrMap = AttrMap(BASE=SolidShape,
        x = AttrMapValue(isNumber),
        y = AttrMapValue(isNumber),
        width = AttrMapValue(isNumber),
        height = AttrMapValue(isNumber),
        rx = AttrMapValue(isNumber),
        ry = AttrMapValue(isNumber),
        )


'''
from UserDict import UserDict
from reportlab.lib.validators import isAnything, _SequenceTypes, DerivedValue
from reportlab import rl_config

class CallableValue:
    '''a class to allow callable initial values'''
    def __init__(self,func,*args,**kw):
        #assert iscallable(func)
        self.func = func
        self.args = args
        self.kw = kw

    def __call__(self):
        return self.func(*self.args,**self.kw)

class AttrMapValue:
    '''Simple multi-value holder for attribute maps'''
    def __init__(self,validate=None,desc=None,initial=None, advancedUsage=0, **kw):
        self.validate = validate or isAnything
        self.desc = desc
        self._initial = initial
        self._advancedUsage = advancedUsage
        for k,v in list(kw.items()):
            setattr(self,k,v)

    def __getattr__(self,name):
        #hack to allow callable initial values
        if name=='initial':
            if isinstance(self._initial,CallableValue): return self._initial()
            return self._initial
        elif name=='hidden':
            return 0
        raise AttributeError(name)

    def __repr__(self):
        return 'AttrMapValue(%s)' % ', '.join(['%s=%r' % i for i in self.__dict__.items()])

class AttrMap(UserDict):
    def __init__(self,BASE=None,UNWANTED=[],**kw):
        data = {}
        if BASE:
            if isinstance(BASE,AttrMap):
                data = BASE.data                        #they used BASECLASS._attrMap
            else:
                if type(BASE) not in (type(()),type([])): BASE = (BASE,)
                for B in BASE:
                    if hasattr(B,'_attrMap'):
                        data.update(getattr(B._attrMap,'data',{}))
                    else:
                        raise ValueError('BASE=%s has wrong kind of value' % str(B))

        UserDict.__init__(self,data)
        self.remove(UNWANTED)
        self.data.update(kw)

    def update(self,kw):
        if isinstance(kw,AttrMap): kw = kw.data
        self.data.update(kw)

    def remove(self,unwanted):
        for k in unwanted:
            try:
                del self[k]
            except KeyError:
                pass

    def clone(self,UNWANTED=[],**kw):
        c = AttrMap(BASE=self,UNWANTED=UNWANTED)
        c.update(kw)
        return c

def validateSetattr(obj,name,value):
    '''validate setattr(obj,name,value)'''
    if rl_config.shapeChecking:
        map = obj._attrMap
        if map and name[0]!= '_':
            #we always allow the inherited values; they cannot
            #be checked until draw time.
            if isinstance(value, DerivedValue):
                #let it through
                pass
            else:            
                try:
                    validate = map[name].validate
                    if not validate(value):
                        raise AttributeError("Illegal assignment of '%s' to '%s' in class %s" % (value, name, obj.__class__.__name__))
                except KeyError:
                    raise AttributeError("Illegal attribute '%s' in class %s" % (name, obj.__class__.__name__))
    obj.__dict__[name] = value

def _privateAttrMap(obj,ret=0):
    '''clone obj._attrMap if required'''
    A = obj._attrMap
    oA = getattr(obj.__class__,'_attrMap',None)
    if ret:
        if oA is A:
            return A.clone(), oA
        else:
            return A, None
    else:
        if oA is A:
            obj._attrMap = A.clone()

def _findObjectAndAttr(src, P):
    '''Locate the object src.P for P a string, return parent and name of attribute
    '''
    P = string.split(P, '.')
    if len(P) == 0:
        return None, None
    else:
        for p in P[0:-1]:
            src = getattr(src, p)
        return src, P[-1]

def hook__setattr__(obj):
    if not hasattr(obj,'__attrproxy__'):
        C = obj.__class__
        import new
        obj.__class__=new.classobj(C.__name__,(C,)+C.__bases__,
            {'__attrproxy__':[],
            '__setattr__':lambda self,k,v,osa=getattr(obj,'__setattr__',None),hook=hook: hook(self,k,v,osa)})

def addProxyAttribute(src,name,validate=None,desc=None,initial=None,dst=None):
    '''
    Add a proxy attribute 'name' to src with targets dst
    '''
    #sanity
    assert hasattr(src,'_attrMap'), 'src object has no _attrMap'
    A, oA = _privateAttrMap(src,1)
    if type(dst) not in _SequenceTypes: dst = dst,
    D = []
    DV = []
    for d in dst:
        if type(d) in _SequenceTypes:
            d, e = d[0], d[1:]
        obj, attr = _findObjectAndAttr(src,d)
        if obj:
            dA = getattr(obj,'_attrMap',None)