#!/usr/bin/env python from nose.tools import * from utilities import Todo import mapnik def test_introspect_symbolizers(): # create a symbolizer p = mapnik.PointSymbolizer(mapnik.PathExpression("../data/images/dummy.png")) p.allow_overlap = True p.opacity = 0.5 eq_(p.allow_overlap, True) eq_(p.opacity, 0.5) eq_(p.filename,'../data/images/dummy.png') # make sure the defaults # are what we think they are eq_(p.allow_overlap, True) eq_(p.opacity,0.5) eq_(p.filename,'../data/images/dummy.png') # contruct objects to hold it r = mapnik.Rule() r.symbols.append(p) s = mapnik.Style() s.rules.append(r) m = mapnik.Map(0,0) m.append_style('s',s) # try to figure out what is # in the map and make sure # style is there and the same s2 = m.find_style('s') rules = s2.rules eq_(len(rules),1) r2 = rules[0] syms = r2.symbols eq_(len(syms),1) ## TODO here, we can do... sym = syms[0] # this is hackish at best p2 = sym.symbol() assert isinstance(p2,mapnik.PointSymbolizer) eq_(p2.allow_overlap, True) eq_(p2.opacity, 0.5) eq_(p2.filename,'../data/images/dummy.png') ## but we need to be able to do: p2 = syms[0] # get the actual symbolizer, not the variant object # this will throw for now... assert isinstance(p2,mapnik.PointSymbolizer) eq_(p2.allow_overlap, True) eq_(p2.opacity, 0.5) eq_(p2.filename,'../data/images/dummy.png')