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view tests/swig_tests/model_tests.py @ 187:644bf7ca1e0a

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Fixed unit test. Models reference the time manager through the TimeProvider.
author phoku@33b003aa-7bff-0310-803a-e67f0ece8222
date Wed, 25 Feb 2009 20:58:09 +0000
parents bf7f838e6684
children 81641655bc38
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
from swig_test_utils import *
import math

class TestModel(unittest.TestCase):
	
	def setUp(self):
		self.timeManager = fife.TimeManager()
		self.model = fife.Model()

	def tearDown(self):
		del self.timeManager

	def testModel(self):
		map1 = self.model.createMap("map001")
		map2 = self.model.createMap("map002")
		
		query = self.model.getMap("map001")
		self.assertEqual(map1.getId(), query.getId())

		query = self.model.getMap("map002")
		self.assertEqual(map2.getId(), query.getId())

		query = self.model.getMaps()
		self.assertEqual(len(query), 2)

		self.assertEqual(len(query), self.model.getNumMaps())

		self.model.deleteMap(map2)

		query = self.model.getMaps()
		self.assertEqual(len(query), 1)

		self.model.createMap("map003")
		self.model.createMap("map004")
		
		query = self.model.getMaps()
		self.assertEqual(len(query), 3)
		self.assertEqual(self.model.getNumMaps(), 3)
		
		self.model.deleteMaps()
		query = self.model.getMaps()
		self.assertEqual(len(query), 0)
		self.assertEqual(self.model.getNumMaps(), 0)

	def testMaps(self):
		map = self.model.createMap("map005")

		self.assertEqual(map.getNumLayers(), 0)

		grid = fife.SquareGrid()

		layer1 = map.createLayer("layer001", grid)
		layer2 = map.createLayer("layer002", grid)

		self.assertEqual(layer1.getId(), "layer001")
		self.assertEqual(layer2.getId(), "layer002")

		self.assertEqual(len(map.getLayers()), 2)

		self.assertEqual(map.getNumLayers(), 2)
		map.deleteLayer(layer2)
		self.assertEqual(map.getNumLayers(), 1)
		map.deleteLayers()
		self.assertEqual(map.getNumLayers(), 0)

	def testLayers(self):
		map = self.model.createMap("map006")

		grid = fife.SquareGrid()
		obj1 = self.model.createObject("object001","test_nspace")
		obj2 = self.model.createObject("object002","test_nspace")

		self.assertEqual(obj1.getId(), "object001")
		self.assertEqual(obj2.getId(), "object002")

		layer = map.createLayer("layer003", grid)

		self.assertEqual(layer.hasInstances(), 0)
		self.assertEqual(layer.getMap().getId(), map.getId())

		inst = layer.createInstance(obj1, fife.ModelCoordinate(4,4))
		layer.createInstance(obj2, fife.ModelCoordinate(5,6))
		layer.createInstance(obj2, fife.ModelCoordinate(5,4))
		
		#query = layer.getInstances("Name", "Goon")
		#self.assertEqual(len(query), 2)
		self.assertEqual(len(layer.getInstances()), 3)

		#self.assertEqual(query[0].get("Name"), "Goon")
		#p1 = fife.ModelCoordinate(4,4)
		#print p1.x, p1.y
		#p2 = inst.getLocation().getLayerCoordinates()
		#print p2.x, p2.y
		#self.assertEqual(inst.getLocation().getLayerCoordinates(), fife.ModelCoordinate(4,4))

	def testObjects(self):
		obj1 = self.model.createObject("object003","test_nspace")
		obj2 = self.model.createObject("object004","test_nspace")
		self.model.createObject("object005","test_nspace")
		self.model.createObject("object006","test_nspace")

		self.assertEqual(self.model.deleteObject(obj2),True)

		map = self.model.createMap("map007")
		grid = fife.SquareGrid()
		layer = map.createLayer("layer004",grid)

		inst = layer.createInstance(obj1, fife.ModelCoordinate(4,4))
		self.assertEqual(self.model.deleteObject(obj1),False)
		self.assertEqual(self.model.deleteObjects(),False)
		layer.deleteInstance(inst)
		self.assertEqual(self.model.deleteObject(obj1),True)
		self.assertEqual(self.model.deleteObjects(),True)

class TestActionAngles(unittest.TestCase):
	def setUp(self):
		self.runaction = fife.Action("action001")
		fife.ActionVisual.create(self.runaction)
		self.runaction.get2dGfxVisual().addAnimation(90, 1)
		self.runaction.get2dGfxVisual().addAnimation(0, 0)
		self.runaction.get2dGfxVisual().addAnimation(270, 3)
		self.runaction.get2dGfxVisual().addAnimation(180, 2)
		self.walkaction = fife.Action("action002")
		fife.ActionVisual.create(self.walkaction)
		self.walkaction.get2dGfxVisual().addAnimation(70, 1)
		self.walkaction.get2dGfxVisual().addAnimation(200, 2)
		self.walkaction.get2dGfxVisual().addAnimation(320, 3)

	def testRunAngle89(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(89), 1)
	
	def testRunAngle90(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(90), 1)
	
	def testRunAngle91(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(91), 1)
	
	def testRunAngle135(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(135), 2)
	
	def testRunAngle134(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(134), 1)
	
	def testRunAngle136(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(136), 2)
	
	def testRunAngle0(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(0), 0)
	
	def testRunAngle40(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(40), 0)
	
	def testRunAngle45(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(45), 1)
	
	def testRunAngle270(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(270), 3)

	def testRunAngle269(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(269), 3)
	
	def testRunAngle271(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(271), 3)
	
	def testRunAngle314(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(314), 3)
	
	def testRunAngle359(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(359), 0)
	
	def testRunAngle400(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(400), 0)
	
	def testRunAngle451(self):
		self.assertEqual(self.runaction.get2dGfxVisual().getAnimationIndexByAngle(451), 1)
	
	def testWalkAngle0(self):
		self.assertEqual(self.walkaction.get2dGfxVisual().getAnimationIndexByAngle(0), 3)

	def testWalkAngle60(self):
		self.assertEqual(self.walkaction.get2dGfxVisual().getAnimationIndexByAngle(60), 1)

	def testWalkAngle199(self):
		self.assertEqual(self.walkaction.get2dGfxVisual().getAnimationIndexByAngle(199), 2)

class InstanceListener(fife.InstanceActionListener):
	def __init__(self):
		fife.InstanceActionListener.__init__(self)
		self.finished = False

	def OnActionFinished(self, instance, action):
		self.finishedInstance = instance
		self.finishedAction = action
		self.finished = True

class ActivityTests(unittest.TestCase):
	def setUp(self):
		grid = fife.HexGrid()
		map = fife.Map("map007")
		self.layer = map.addLayer("layer010", grid)
		
		self.target = fife.Location(self.layer)
		self.target.setPosition(fife.ModelCoordinate(10,10))
		
		self.obj = fife.Object("object010", '')
		self.pather = fife.LinearPather()
		self.obj.setPather(self.pather)
		self.inst = self.layer.addInstance(self.obj, fife.ModelCoordinate(4,4))
		self.action = self.obj.addAction('action010', 'run')
		self.action.addAnimation(0, 1)
		self.action.thisown = 0
		self.listener = InstanceListener()
		self.inst.addActionListener(self.listener)
		
	def testMovingAction(self):
		self.inst.move('run', self.target, 0.5)
		for i in xrange(30):
			self.inst.update()
		self.assert_(self.listener.finished)

	def testNonMovingAction(self):
		self.inst.move('run', fife.ModelCoordinate(0,0))
		self.inst.update()
		self.assert_(self.listener.finished)

class GridTests(unittest.TestCase):
	def _testgrid(self, grid, curpos, access, cost):
		for k, v in access.items():
			print k, v
			self.assertEqual(grid.isAccessible(fife.ModelCoordinate(*curpos), fife.ModelCoordinate(*k)), v)
		for k, v in cost.items():
			self.assertEqual(int(10000 * grid.getAdjacentCost(fife.ModelCoordinate(*curpos), fife.ModelCoordinate(*k))), 
			                 int(10000 * v))
		
		curpos = fife.ModelCoordinate(*curpos)
		accessiblepts = fife.ModelCoordinateVector()
		grid.getAccessibleCoordinates(curpos, accessiblepts)
		costpts = [fife.ModelCoordinate(*pt) for pt in cost.keys()]
		for pt in costpts:
			self.assert_(pt in accessiblepts)
		for pt in accessiblepts:
			self.assert_(pt in costpts)

	
	def testHexGrid(self):
		grid = fife.HexGrid()
		curpos = (1,1)
		access = {
			(0,0): False,
			(0,1): True,
			(0,2): False,
			(1,0): True,
			(1,1): True,
			(1,2): True,
			(2,0): True,
			(2,1): True,
			(2,2): True,
		}
		cost = {
			(0,1): 1,
			(1,0): 1,
			(1,1): 0,
			(1,2): 1,
			(2,0): 1,
			(2,1): 1,
			(2,2): 1,
		}
		self._testgrid(grid, curpos, access, cost)
	
	def testSquareGrid(self):
		grid = fife.SquareGrid()
		curpos = (1,1)
		access = {
			(0,0): False,
			(0,1): True,
			(0,2): False,
			(1,0): True,
			(1,1): True,
			(1,2): True,
			(2,0): False,
			(2,1): True,
			(2,2): False,
		}
		cost = {
			(0,1): 1,
			(1,0): 1,
			(1,1): 0,
			(1,2): 1,
			(2,1): 1,
		}
		self._testgrid(grid, curpos, access, cost)

	def testDiagSquareGrid(self):
		grid = fife.SquareGrid(True)
		curpos = (1,1)
		access = {
			(0,0): True,
			(0,1): True,
			(0,2): True,
			(1,0): True,
			(1,1): True,
			(1,2): True,
			(2,0): True,
			(2,1): True,
			(2,2): True,
		}
		cost = {
			(0,0): math.sqrt(2),
			(0,1): 1,
			(0,2): math.sqrt(2),
			(1,0): 1,
			(1,1): 0,
			(1,2): 1,
			(2,0): math.sqrt(2),
			(2,1): 1,
			(2,2): math.sqrt(2),
		}
		self._testgrid(grid, curpos, access, cost)


TEST_CLASSES = [TestModel, TestActionAngles, GridTests] #ActivityTests

if __name__ == '__main__':
    unittest.main()