Mercurial > fife-parpg
view tests/swig_tests/location_tests.py @ 624:b312d170ab0c
* Removed the "trigger" system as it was not in use and very incomplete. I couldn't come up with a good reason why it should be part of event channel either. The trigger system is scheduled for a future release anyway.
author | prock@33b003aa-7bff-0310-803a-e67f0ece8222 |
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date | Fri, 01 Oct 2010 19:25:40 +0000 |
parents | 81641655bc38 |
children |
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#!/usr/bin/env python # -*- coding: utf-8 -*- # #################################################################### # Copyright (C) 2005-2009 by the FIFE team # http://www.fifengine.de # This file is part of FIFE. # # FIFE is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library 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 # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the # Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA # #################################################################### from swig_test_utils import * import fifelog P = fife.ModelCoordinate D = fife.ExactModelCoordinate NEAR_TRESHOLD = 0.001 def is_near(x, y): return (y-NEAR_TRESHOLD) < x < (y+NEAR_TRESHOLD) def pt_is_near(p1, p2): return ((p2.x-NEAR_TRESHOLD) < p1.x < (p2.x+NEAR_TRESHOLD)) and \ ((p2.y-NEAR_TRESHOLD) < p1.y < (p2.y+NEAR_TRESHOLD)) class TestLocation(unittest.TestCase): def setUp(self): self.squaregrid1 = fife.SquareGrid() self.squaregrid2 = fife.SquareGrid() self.layer1 = fife.Layer("layer1", None, self.squaregrid1) self.layer2 = fife.Layer("layer2", None, self.squaregrid2) self.loc1 = fife.Location(self.layer1) self.loc2 = fife.Location(self.layer2) def testBasicMapping(self): self.loc1.setLayerCoordinates(P(5,5)) pt = self.loc1.getLayerCoordinates() self.assertEqual(pt, P(5,5)) pt = self.loc1.getExactLayerCoordinates() self.assertEqual(pt, D(5,5)) pt = self.loc1.getMapCoordinates() self.assertEqual(pt, D(5,5)) pt = self.loc1.getLayerCoordinates(self.layer2) self.assertEqual(pt, P(5,5)) pt = self.loc1.getExactLayerCoordinates(self.layer2) self.assertEqual(pt, D(5,5)) def testSquareGridScale(self): self.squaregrid2.setXScale(5) self.squaregrid2.setYScale(5) self.loc1.setLayerCoordinates(P(5,5)) pt = self.loc1.getLayerCoordinates(self.layer2) self.assertEqual(pt, P(1,1)) pt = self.loc1.getExactLayerCoordinates(self.layer2) self.assertEqual(pt, D(5,5)) def testSquareGridRotation(self): self.squaregrid1.setRotation(90) self.loc1.setLayerCoordinates(P(3,3)) pt = self.loc1.getMapCoordinates() self.assertEqual(pt, D(-3,3)) def testSquareGridShifts(self): self.squaregrid1.setXShift(-3) self.squaregrid1.setYShift(-3) self.loc1.setLayerCoordinates(P(3,3)) pt = self.loc1.getMapCoordinates() self.assertEqual(pt, D(0,0)) def testSquareCombinations(self): # correct order in combinations = translate, rotate, scale self.squaregrid1.setXShift(2) self.squaregrid1.setYShift(2) self.squaregrid1.setRotation(90) self.squaregrid1.setXScale(5) self.squaregrid1.setYScale(5) self.loc1.setLayerCoordinates(P(1,1)) pt = self.loc1.getMapCoordinates() print pt self.assert_(is_near(pt.x, -3)) self.assert_(is_near(pt.y, 7)) class TestHexGrid(unittest.TestCase): def setUp(self): self.hexgrid1 = fife.HexGrid() self.squaregrid1 = fife.SquareGrid() self.hex_layer1 = fife.Layer("hexlayer", None, self.hexgrid1) self.square_layer1 = fife.Layer("squarelayer", None, self.squaregrid1) self.loc1 = fife.Location(self.hex_layer1) self.loc2 = fife.Location(self.square_layer1) self.engine = getEngine(True) self.log = fifelog.LogManager(self.engine) #self.log.setVisibleModules('hexgrid', 'cellgrid') def tearDown(self): del self.engine del self.log def testHexGrid0row(self): self.loc1.setMapCoordinates(D(-2,0)) self.assert_(self.loc1.getLayerCoordinates() == P(-2,0)) self.loc1.setMapCoordinates(D(-1,0)) self.assert_(self.loc1.getLayerCoordinates() == P(-1,0)) self.loc1.setMapCoordinates(D(0,0)) self.assert_(self.loc1.getLayerCoordinates() == P(0,0)) self.loc1.setMapCoordinates(D(1,0)) self.assert_(self.loc1.getLayerCoordinates() == P(1,0)) self.loc1.setMapCoordinates(D(2,0)) self.assert_(self.loc1.getLayerCoordinates() == P(2,0)) def testHexGrid1row(self): self.loc1.setMapCoordinates(D(-1.1,1)) self.assert_(self.loc1.getLayerCoordinates() == P(-2,1)) self.loc1.setMapCoordinates(D(-0.5,1)) self.assert_(self.loc1.getLayerCoordinates() == P(-1,1)) self.loc1.setMapCoordinates(D(-0.1,1)) self.assert_(self.loc1.getLayerCoordinates() == P(-1,1)) self.loc1.setMapCoordinates(D(0.1,1)) self.assert_(self.loc1.getLayerCoordinates() == P(0,1)) def testHexGridm1row(self): self.loc1.setMapCoordinates(D(-1.1,-1)) self.assert_(self.loc1.getLayerCoordinates() == P(-2,-1)) self.loc1.setMapCoordinates(D(-0.5,-1)) self.assert_(self.loc1.getLayerCoordinates() == P(-1,-1)) self.loc1.setMapCoordinates(D(-0.1,-1)) self.assert_(self.loc1.getLayerCoordinates() == P(-1,-1)) self.loc1.setMapCoordinates(D(0.1,-1)) self.assert_(self.loc1.getLayerCoordinates() == P(0,-1)) def testEdgeHits(self): self.loc1.setMapCoordinates(D(0.5,0.5)) self.assert_(self.loc1.getLayerCoordinates() == P(0,1)) self.loc1.setMapCoordinates(D(0.1,0.4)) #print "______''___" + str(self.loc1.getLayerCoordinates()) self.assert_(self.loc1.getLayerCoordinates() == P(0,0)) self.loc1.setMapCoordinates(D(0.1,-0.4)) self.assert_(self.loc1.getLayerCoordinates() == P(0,0)) self.loc1.setMapCoordinates(D(-0.5,-0.5)) self.assert_(self.loc1.getLayerCoordinates() == P(-1,-1)) TEST_CLASSES = [TestHexGrid, TestLocation] if __name__ == '__main__': unittest.main()