def testStringCache():
value1 = "!1+"
value2 = "+2+"
value3 = "+3!"
add = MT.createNode("Math.Add")
valuenode = MT.createNode("Values.String Value")
valuenode2 = MT.createNode("Values.String Value")
valuenode.insockets[0].value = value1
valuenode2.insockets[0].value = value2
print("setting the input of valuenode to %s" % value1)
MT.project.root.addNode(add)
MT.project.root.addNode(valuenode)
MT.project.root.addNode(valuenode2)
pos = valuenode.pos
valuenode.pos = (pos[0] - 150, pos[1] - 50)
valuenode2.pos = (pos[0] - 150, pos[1] + 50)
add.insockets[0].connected = valuenode.outsockets[0]
add.insockets[1].connected = valuenode2.outsockets[0]
add.insockets[2].value = value3
cache = MT.cache.DataCache(add.outsockets[0])
print("resulting value: %s" % cache.getOutput())
print("expected value: %s" % value1 + value2 + value3)
return (value1 + value2 + value3) == cache.getOutput()
def __init__(self, node, raw=False):
super().__init__(node, raw)
if raw:
return
data = MT.createNode(self.datanode)
obj = MT.createNode("Objects.Object")
node.graph.addNode(data)
node.graph.addNode(obj)
obj.insockets[0].connected = node.graph[0].outsockets[-1]
obj.insockets[1].connected = node.graph[0].outsockets[-1]
obj.insockets[2].connected = data.outsockets[0]
obj.insockets[3].connected = node.graph[0].outsockets[-1]
for s in data.insockets:
default = s.value
s.connected = node.graph[0].outsockets[-1]
node.insockets[-1].value = default
node.graph[1].insockets[0].connected = obj.outsockets[0]
node.graph[2].pos = (-70, 80)
node.graph[3].pos = (70, 80)
node.graph[1].pos = (70, 160)
def testStringCache():
value1 = "!1+"
value2 = "+2+"
value3 = "+3!"
add = MT.createNode("Math.Add")
valuenode = MT.createNode("Values.String Value")
valuenode2 = MT.createNode("Values.String Value")
valuenode.insockets[0].value = value1
valuenode2.insockets[0].value = value2
print("setting the input of valuenode to %s" % value1)
MT.project.root.addNode(add)
MT.project.root.addNode(valuenode)
MT.project.root.addNode(valuenode2)
pos = valuenode.pos
valuenode.pos = (pos[0] - 150, pos[1] - 50)
valuenode2.pos = (pos[0] - 150, pos[1] + 50)
add.insockets[0].connected = valuenode.outsockets[0]
add.insockets[1].connected = valuenode2.outsockets[0]
add.insockets[2].value = value3
cache = MT.cache.DataCache(add.outsockets[0])
print("resulting value: %s" % cache.getOutput())
print("expected value: %s" % value1 + value2 + value3)
return (value1 + value2 + value3) == cache.getOutput()
def __init__(self, node, raw=False):
super().__init__(node, raw)
if raw:
return
data = MT.createNode(self.datanode)
obj = MT.createNode("Objects.Object")
node.graph.addNode(data)
node.graph.addNode(obj)
obj.insockets[0].connected = node.graph[0].outsockets[-1]
obj.insockets[1].connected = node.graph[0].outsockets[-1]
obj.insockets[2].connected = data.outsockets[0]
obj.insockets[3].connected = node.graph[0].outsockets[-1]
for s in data.insockets:
default = s.value
s.connected = node.graph[0].outsockets[-1]
node.insockets[-1].value = default
node.graph[1].insockets[0].connected = obj.outsockets[0]
node.graph[2].pos = (-70, 80)
node.graph[3].pos = (70, 80)
node.graph[1].pos = (70, 160)
def testSimulation():
simNode = MT.createNode("General.Simulation")
add = MT.createNode("Math.Add")
startValue = MT.createNode("Values.Int Value")
MT.project.root.addNode(simNode)
MT.project.root.addNode(startValue)
simNode.graph.addNode(add)
innode = simNode.graph[1]
outnode = simNode.graph[2]
test = TestCase()
test.equal(len(simNode.graph[2].insockets), 0,
"Amount of outputs before connection")
add.insockets[0].connected = innode.outsockets[0]
test.equal(len(simNode.graph[2].insockets), 1,
"Amount of outputs after connection")
simNode.insockets[1].connected = startValue.outsockets[0]
add.insockets[1].value = 1
startValue.insockets[0].value = 0
outnode.insockets[0].connected = add.outsockets[0]
test.equal(simNode.insockets[1].type, "INTEGER")
test.equal(innode.outsockets[0].type, "INTEGER")
test.equal(add.insockets[0].type, "INTEGER")
test.equal(add.outsockets[0].type, "INTEGER")
test.equal(outnode.insockets[0].type, "INTEGER", "outnode")
test.equal(simNode.outsockets[0].type, "INTEGER", "simnode output")
simNode.insockets[0].value = 1
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 1, "Simulation Step: 1")
simNode.insockets[0].value = 2
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 2, "Simulation Step: 2")
simNode.insockets[0].value = 3
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 3, "Simulation Step: 3")
simNode.insockets[0].value = 4
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 4, "Simulation Step: 4")
simNode.insockets[0].value = 5
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 5, "Simulation Step: 5")
return test.exit()
def testSimulation():
simNode = MT.createNode("General.Simulation")
add = MT.createNode("Math.Add")
startValue = MT.createNode("Values.Int Value")
MT.project.root.addNode(simNode)
MT.project.root.addNode(startValue)
simNode.graph.addNode(add)
innode = simNode.graph[1]
outnode = simNode.graph[2]
test = TestCase()
test.equal(len(simNode.graph[2].insockets), 0, "Amount of outputs before connection")
add.insockets[0].connected = innode.outsockets[0]
test.equal(len(simNode.graph[2].insockets), 1, "Amount of outputs after connection")
simNode.insockets[1].connected = startValue.outsockets[0]
add.insockets[1].value = 1
startValue.insockets[0].value = 0
outnode.insockets[0].connected = add.outsockets[0]
test.equal(simNode.insockets[1].type, "INTEGER")
test.equal(innode.outsockets[0].type, "INTEGER")
test.equal(add.insockets[0].type, "INTEGER")
test.equal(add.outsockets[0].type, "INTEGER")
test.equal(outnode.insockets[0].type, "INTEGER", "outnode")
test.equal(simNode.outsockets[0].type, "INTEGER", "simnode output")
simNode.insockets[0].value = 1
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 1, "Simulation Step: 1")
simNode.insockets[0].value = 2
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 2, "Simulation Step: 2")
simNode.insockets[0].value = 3
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 3, "Simulation Step: 3")
simNode.insockets[0].value = 4
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 4, "Simulation Step: 4")
simNode.insockets[0].value = 5
MT.cache.DataCache.invalidate(simNode)
cache = MT.cache.DataCache(simNode.outsockets[0])
test.equal(cache.getOutput(), 5, "Simulation Step: 5")
return test.exit()
def testInheritSocketTypeMath():
add = MT.createNode("Math.Add")
flnode = MT.createNode("Values.Float Value")
add.insockets[0].connected = flnode.outsockets[0]
test = TestCase()
test.equal(add.insockets[0].type, flnode.outsockets[0].type, "connected")
test.equal(add.insockets[0].type, add.outsockets[0].type, "in to out")
return test.exit()
def testNewProject():
node = MT.createNode("Math.Add")
node1 = MT.createNode("Values.Float Value")
node2 = MT.createNode("Values.Int Value")
MT.project.root.addNode(node)
MT.project.root.addNode(node1)
MT.project.root.addNode(node2)
MT.newProject()
return len(MT.project.root) == 0
def testNewProject():
node = MT.createNode("Math.Add")
node1 = MT.createNode("Values.Float Value")
node2 = MT.createNode("Values.Int Value")
MT.project.root.addNode(node)
MT.project.root.addNode(node1)
MT.project.root.addNode(node2)
MT.newProject()
return len(MT.project.root) == 0
def testSwitchNode():
value1 = MT.createNode("Values.Float Value")
value2 = MT.createNode("Values.Float Value")
value3 = MT.createNode("Values.Float Value")
value1.insockets[0].value = 1
value2.insockets[0].value = 3
value3.insockets[0].value = 6
switch = MT.createNode("General.Switch")
MT.project.root.addNode(value1)
MT.project.root.addNode(value2)
MT.project.root.addNode(value3)
MT.project.root.addNode(switch)
#find array converter ... this is still kinda ugly
array = None
for child in switch.insockets[1].childNodes:
if child.name == "ArrayNode":
array = child
break
print(array.type)
print(dir(array))
array.insockets[0].connected = value1.outsockets[0]
array.insockets[1].connected = value2.outsockets[0]
array.insockets[2].connected = value3.outsockets[0]
switch.insockets[1].connected = array.outsockets[0]
test = TestCase()
print("Test1:")
switch.insockets[0].value = 0
cache = MT.cache.DataCache(switch.outsockets[0])
test.equal(cache.getOutput(), value1.insockets[0].value)
print("Test2:")
switch.insockets[0].value = 1
MT.cache.DataCache.invalidate(switch)
cache = MT.cache.DataCache(switch.outsockets[0])
test.equal(cache.getOutput(), value2.insockets[0].value)
print("Test3:")
switch.insockets[0].value = 2
MT.cache.DataCache.invalidate(switch)
cache = MT.cache.DataCache(switch.outsockets[0])
test.equal(cache.getOutput(), value3.insockets[0].value)
return test.exit()
def testSwitchNode():
value1 = MT.createNode("Values.Float Value")
value2 = MT.createNode("Values.Float Value")
value3 = MT.createNode("Values.Float Value")
value1.insockets[0].value = 1
value2.insockets[0].value = 3
value3.insockets[0].value = 6
switch = MT.createNode("General.Switch")
MT.project.root.addNode(value1)
MT.project.root.addNode(value2)
MT.project.root.addNode(value3)
MT.project.root.addNode(switch)
# find array converter ... this is still kinda ugly
array = None
for child in switch.insockets[1].childNodes:
if child.name == "ArrayNode":
array = child
break
print(array.type)
print(dir(array))
array.insockets[0].connected = value1.outsockets[0]
array.insockets[1].connected = value2.outsockets[0]
array.insockets[2].connected = value3.outsockets[0]
switch.insockets[1].connected = array.outsockets[0]
test = TestCase()
print("Test1:")
switch.insockets[0].value = 0
cache = MT.cache.DataCache(switch.outsockets[0])
test.equal(cache.getOutput(), value1.insockets[0].value)
print("Test2:")
switch.insockets[0].value = 1
MT.cache.DataCache.invalidate(switch)
cache = MT.cache.DataCache(switch.outsockets[0])
test.equal(cache.getOutput(), value2.insockets[0].value)
print("Test3:")
switch.insockets[0].value = 2
MT.cache.DataCache.invalidate(switch)
cache = MT.cache.DataCache(switch.outsockets[0])
test.equal(cache.getOutput(), value3.insockets[0].value)
return test.exit()
def testConnectSockets():
add = MT.createNode("Math.Add")
add2 = MT.createNode("Math.Add")
MT.project.root.addNode(add)
MT.project.root.addNode(add2)
add.insockets[0].connected = add2.outsockets[0]
test = TestCase()
test.equal(add.insockets[0].connected.ptr, add2.outsockets[0].ptr)
return test.exit();
def testForLoopCache():
test = TestCase()
loop = MT.createNode("General.For")
MT.project.root.addNode(loop)
loop.insockets[0].value = 0
loop.insockets[1].value = 10
loop.insockets[2].value = 1
add = MT.createNode("Math.Add")
loop.graph.addNode(add)
test.equal(len(loop.graph[2].insockets), 0,
"outsockets of loop container before (direct) connection")
test.equal(len(loop.graph[1].outsockets), 1,
"looped insockets node has too many sockets")
loopsocket = loop.graph[1].outsockets[0]
add.insockets[0].connected = loopsocket
test.equal(len(loop.graph[2].insockets), 1,
"outsockets of loop container before (indirect) connection")
add.insockets[1].value = 1
loop.graph[2].insockets[0].connected = add.outsockets[0]
loop.insockets[3].value = 1
test.equal(add.outsockets[0].type, "INTEGER", "output of Add")
test.equal(add.insockets[0].type, "INTEGER", "1st input of Add")
test.equal(add.insockets[1].type, "INTEGER", "2nd input of Add")
test.equal(loop.outsockets[0].type, "INTEGER", "output of ForNode")
test.equal(loop.insockets[3].type, "INTEGER",
"input of startvalue into ForLoop")
test.equal(loop.graph[1].outsockets[0].type, "INTEGER",
"input of ForLoop Container")
test.equal(loop.graph[2].insockets[0].type, "INTEGER",
"output of ForLoop Container")
test.equal(len(loop.graph), 4, "nodes inside loop container")
test.equal(len(loop.graph[0].outsockets), 4, "static loop inputs")
test.equal(len(loop.graph[1].outsockets), 2, "looped inputs")
if not test.equal(len(loop.graph[2].insockets), 1, "loop outputs"):
print("the sockets on this node: {}".format(
[s.name for s in loop.graph[2].insockets]))
test.equal(len(loop.outsockets), 1, "number of outsockes on forloop node")
test.equal(len(loop.insockets), 4, "number of insockets on forloop node")
cache = MT.cache.DataCache(loop.outsockets[0])
expected_result = 11
test.equal(cache.getOutput(), expected_result, "Loop Result")
return test.exit()
def testSaveProject():
node = MT.createNode("Math.Add")
node1 = MT.createNode("Values.Float Value")
node2 = MT.createNode("Values.Int Value")
MT.project.root.addNode(node)
MT.project.root.addNode(node1)
MT.project.root.addNode(node2)
now = datetime.datetime.now()
MT.project.filename = "projectTest" + now.strftime("%d%m%y%H%M%S") + ".mt"
MT.project.save()
return os.path.exists(MT.project.filename)
def testSaveProject():
node = MT.createNode("Math.Add")
node1 = MT.createNode("Values.Float Value")
node2 = MT.createNode("Values.Int Value")
MT.project.root.addNode(node)
MT.project.root.addNode(node1)
MT.project.root.addNode(node2)
now = datetime.datetime.now()
MT.project.filename = "projectTest" + now.strftime("%d%m%y%H%M%S") + ".mt"
MT.project.save()
return os.path.exists(MT.project.filename)
def dropEvent(self, event):
nodeLabel = str(event.mimeData().text())
event.mimeData().setText("")
self.drop = False
if nodeLabel == "":
return
_node = MT.createNode(nodeLabel)
if _node is not None:
self.scene().space.addNode(_node)
scenePos = self.mapToScene(event.pos())
nw = NodeDesigner.width
nh = NodeDesigner.height
_node.pos = (scenePos.x() - nw / 2, scenePos.y() - nh / 2)
#link it
#find sockets this corresponds to
insocket = None
for socket in self.start.data.insockets:
if (socket.connected is not None
and socket.connected.node.ptr == self.end.data.ptr):
insocket = socket
break
out = insocket.connected
#find new matching insocket and link
insockets = MT.getCompatibleSockets(out, node_)
if len(insockets) == 1:
insockets[0].connected = out
else:
menu = QMenu()
for socket in insockets:
action = menu.addAction(socket.name)
def connect():
socket.connected = out
action.triggered.connect(connect)
menu.exec_(event.screenPos())
outsockets = list(
filter(lambda o: MT.isCompatible(insocket, o),
_node.outsockets))
if len(outsockets) == 1:
insocket.connected = outsockets[0]
else:
menu = QMenu()
for socket in outsockets:
action = menu.addAction(socket.name)
def connect():
insocket.connected = socket
action.triggered.connect(connect)
menu.exec_(event.screenPos())
def testTimeline():
timelinenode = MT.createNode("Values.Frame")
floatnode = MT.createNode("Values.Float Value")
floatnode.insockets[0].connected = timelinenode.outsockets[0]
cache = MT.cache.DataCache(floatnode.outsockets[0])
print("initial frame value as {}: {}".format(cache.type, cache.getOutput()))
MT.timeline.setFrame(44)
MT.cache.DataCache.invalidate(timelinenode)
cache = MT.cache.DataCache(floatnode.outsockets[0])
print("new cached frame value as %s: %d" % (cache.type, cache.getOutput()))
print("new frame value: %d" % (MT.timeline.frame()))
return int(cache.getOutput()) == 44
def testInheritSocketTypeContainer():
test = TestCase()
container = MT.createNode("General.Container")
floatValue = MT.createNode("Values.Float Value")
intValue = MT.createNode("Values.Int Value")
MT.project.root.addNode(container)
container.graph.addNode(floatValue)
container.graph[1].insockets[0].connected = floatValue.outsockets[0]
intValue.insockets[0].connected = container.graph[0].outsockets[0]
test.equal(container.graph[1].insockets[0].type, "FLOAT")
test.equal(container.outsockets[0].type, "FLOAT")
test.equal(container.graph[0].outsockets[0].type, "INTEGER", "input sockets of container graph")
test.equal(container.insockets[0].type, "INTEGER", "input of container itself")
return test.exit()
def testFloatCache():
'''Creating two add nodes, connecting them and trying to get a value from it'''
add = MT.createNode("Math.Add")
valuenode = MT.createNode("Values.Float Value")
valuenode2 = MT.createNode("Values.Float Value")
add.insockets[0].name = "add.in01"
valuenode.insockets[0].name = "valuenode.in01"
valuenode.insockets[0].value = 5.
valuenode2.insockets[0].name = "valuenode2.in01"
valuenode2.insockets[0].value = 8.
MT.project.root.addNode(add)
MT.project.root.addNode(valuenode)
MT.project.root.addNode(valuenode2)
pos = valuenode.pos
valuenode.pos = (pos[0] - 150, pos[1] - 50)
valuenode2.pos = (pos[0] - 150, pos[1] + 50)
add.insockets[0].connected = valuenode.outsockets[0]
add.insockets[1].connected = valuenode2.outsockets[0]
add.insockets[2].value = 12.
cache = MT.cache.DataCache(add.outsockets[0])
test = TestCase()
test.equal(len(MT.project.root), 3, "root space size")
test.equal(len(MT.project.root[0].outsockets), 1, "add outsockets")
test.equal(len(MT.project.root[0].insockets), 3, "add insockets")
test.equal(len(MT.project.root[1].outsockets), 1,
"float value 1 outsockets")
test.equal(len(MT.project.root[1].insockets), 1, "float value 1 insockets")
test.equal(len(MT.project.root[2].outsockets), 1,
"float value 2 outsockets")
test.equal(len(MT.project.root[2].insockets), 1, "float value 2 insockets")
test.equal(MT.project.root[1].insockets[0].value, 5., "float value 1")
test.equal(MT.project.root[2].insockets[0].value, 8., "float value 2")
test.equal(MT.project.root[0].insockets[2].value, 12., "add input value")
print("resulting value: %d" % cache.getOutput())
print("expected value: %d" % (12 + 5 + 8))
test.equal((12 + 5 + 8), cache.getOutput(), "cache output")
return test.exit()
def testForLoopCache():
test = TestCase()
loop = MT.createNode("General.For")
MT.project.root.addNode(loop)
loop.insockets[0].value = 0
loop.insockets[1].value = 10
loop.insockets[2].value = 1
add = MT.createNode("Math.Add")
loop.graph.addNode(add)
test.equal(len(loop.graph[2].insockets), 0, "outsockets of loop container before (direct) connection")
test.equal(len(loop.graph[1].outsockets), 1, "looped insockets node has too many sockets")
loopsocket = loop.graph[1].outsockets[0]
add.insockets[0].connected = loopsocket
test.equal(len(loop.graph[2].insockets), 1, "outsockets of loop container before (indirect) connection")
add.insockets[1].value = 1
loop.graph[2].insockets[0].connected = add.outsockets[0]
loop.insockets[3].value = 1
test.equal(add.outsockets[0].type, "INTEGER", "output of Add")
test.equal(add.insockets[0].type, "INTEGER", "1st input of Add")
test.equal(add.insockets[1].type, "INTEGER", "2nd input of Add")
test.equal(loop.outsockets[0].type, "INTEGER", "output of ForNode")
test.equal(loop.insockets[3].type, "INTEGER", "input of startvalue into ForLoop")
test.equal(loop.graph[1].outsockets[0].type, "INTEGER", "input of ForLoop Container")
test.equal(loop.graph[2].insockets[0].type, "INTEGER", "output of ForLoop Container")
test.equal(len(loop.graph), 4, "nodes inside loop container")
test.equal(len(loop.graph[0].outsockets), 4, "static loop inputs")
test.equal(len(loop.graph[1].outsockets), 2, "looped inputs")
if not test.equal(len(loop.graph[2].insockets), 1, "loop outputs"):
print("the sockets on this node: {}".format([s.name for s in loop.graph[2].insockets]))
test.equal(len(loop.outsockets), 1, "number of outsockes on forloop node")
test.equal(len(loop.insockets), 4, "number of insockets on forloop node")
cache = MT.cache.DataCache(loop.outsockets[0])
expected_result = 11
test.equal(cache.getOutput(), expected_result, "Loop Result")
return test.exit()
def dropEvent(self, event):
nodeLabel = str(event.mimeData().text())
event.mimeData().setText("")
self.drop = False
if nodeLabel == "":
return
_node = MT.createNode(nodeLabel)
if _node is not None:
self.scene().space.addNode(_node)
scenePos = self.mapToScene(event.pos())
nw = NodeDesigner.width
nh = NodeDesigner.height
_node.pos = (scenePos.x() - nw/2, scenePos.y() - nh/2)
#link it
#find sockets this corresponds to
insocket = None
for socket in self.start.data.insockets:
if (socket.connected is not None
and socket.connected.node.ptr == self.end.data.ptr):
insocket = socket
break
out = insocket.connected
#find new matching insocket and link
insockets = MT.getCompatibleSockets(out, node_)
if len(insockets) == 1:
insockets[0].connected = out
else:
menu = QMenu()
for socket in insockets:
action = menu.addAction(socket.name)
def connect():
socket.connected = out
action.triggered.connect(connect)
menu.exec_(event.screenPos())
outsockets = list(filter(lambda o: MT.isCompatible(insocket, o), _node.outsockets))
if len(outsockets) == 1:
insocket.connected = outsockets[0]
else:
menu = QMenu()
for socket in outsockets:
action = menu.addAction(socket.name)
def connect():
insocket.connected = socket
action.triggered.connect(connect)
menu.exec_(event.screenPos())
def testFloatCache():
"""Creating two add nodes, connecting them and trying to get a value from it"""
add = MT.createNode("Math.Add")
valuenode = MT.createNode("Values.Float Value")
valuenode2 = MT.createNode("Values.Float Value")
add.insockets[0].name = "add.in01"
valuenode.insockets[0].name = "valuenode.in01"
valuenode.insockets[0].value = 5.0
valuenode2.insockets[0].name = "valuenode2.in01"
valuenode2.insockets[0].value = 8.0
MT.project.root.addNode(add)
MT.project.root.addNode(valuenode)
MT.project.root.addNode(valuenode2)
pos = valuenode.pos
valuenode.pos = (pos[0] - 150, pos[1] - 50)
valuenode2.pos = (pos[0] - 150, pos[1] + 50)
add.insockets[0].connected = valuenode.outsockets[0]
add.insockets[1].connected = valuenode2.outsockets[0]
add.insockets[2].value = 12.0
cache = MT.cache.DataCache(add.outsockets[0])
test = TestCase()
test.equal(len(MT.project.root), 3, "root space size")
test.equal(len(MT.project.root[0].outsockets), 1, "add outsockets")
test.equal(len(MT.project.root[0].insockets), 3, "add insockets")
test.equal(len(MT.project.root[1].outsockets), 1, "float value 1 outsockets")
test.equal(len(MT.project.root[1].insockets), 1, "float value 1 insockets")
test.equal(len(MT.project.root[2].outsockets), 1, "float value 2 outsockets")
test.equal(len(MT.project.root[2].insockets), 1, "float value 2 insockets")
test.equal(MT.project.root[1].insockets[0].value, 5.0, "float value 1")
test.equal(MT.project.root[2].insockets[0].value, 8.0, "float value 2")
test.equal(MT.project.root[0].insockets[2].value, 12.0, "add input value")
print("resulting value: %d" % cache.getOutput())
print("expected value: %d" % (12 + 5 + 8))
test.equal((12 + 5 + 8), cache.getOutput(), "cache output")
return test.exit()
def testForeachLoopCache():
loop = MT.createNode("General.Foreach")
listNode = MT.createNode("General.Create List")
add = MT.createNode("Math.Add")
value = MT.createNode("Values.Int Value")
listNode.insockets[0].value = 12.5
listNode.insockets[1].value = 10
value.insockets[0].value = 2
loop.insockets[0].connected = listNode.outsockets[0]
test = TestCase()
loopInputNode = loop.graph[1]
test.equal(listNode.insockets[0].type, "FLOAT")
test.equal(listNode.outsockets[0].type, "LIST:FLOAT")
test.equal(len(loopInputNode.outsockets), 1, "inputs to the foreach node")
add.insockets[0].connected = loopInputNode.outsockets[0]
add.insockets[1].connected = value.outsockets[0]
loop.graph[2].insockets[0].connected = add.outsockets[0]
MT.project.root.addNode(loop)
MT.project.root.addNode(listNode)
loop.graph.addNode(add)
loop.graph.addNode(value)
cache = MT.cache.DataCache(loop.outsockets[0])
output = cache.getOutput()
test.equal(add.insockets[0].type, "FLOAT")
test.equal(add.insockets[1].type, "INTEGER")
test.equal(loop.graph[1].outsockets[0].type, "FLOAT")
test.equal(len(output), 10)
test.equal(cache.getOutput(), [14.5] * 10)
return test.exit()
def testForeachLoopCache():
loop = MT.createNode("General.Foreach")
listNode = MT.createNode("General.Create List")
add = MT.createNode("Math.Add")
value = MT.createNode("Values.Int Value")
listNode.insockets[0].value = 12.5
listNode.insockets[1].value = 10
value.insockets[0].value = 2
loop.insockets[0].connected = listNode.outsockets[0]
test = TestCase()
loopInputNode = loop.graph[1]
test.equal(listNode.insockets[0].type, "FLOAT")
test.equal(listNode.outsockets[0].type, "LIST:FLOAT")
test.equal(len(loopInputNode.outsockets), 1, "inputs to the foreach node")
add.insockets[0].connected = loopInputNode.outsockets[0]
add.insockets[1].connected = value.outsockets[0]
loop.graph[2].insockets[0].connected = add.outsockets[0]
MT.project.root.addNode(loop)
MT.project.root.addNode(listNode)
loop.graph.addNode(add)
loop.graph.addNode(value)
cache = MT.cache.DataCache(loop.outsockets[0])
output = cache.getOutput()
test.equal(add.insockets[0].type, "FLOAT")
test.equal(add.insockets[1].type, "INTEGER")
test.equal(loop.graph[1].outsockets[0].type, "FLOAT")
test.equal(len(output), 10)
test.equal(cache.getOutput(), [14.5] * 10)
return test.exit()
def testSocketProperties():
value = MT.createNode("Values.Float Value")
value.insockets[0].value = 2.5
cache = MT.cache.DataCache(value.outsockets[0])
success = cache.getData(0) == 2.5
value = MT.createNode("Values.Int Value")
value.insockets[0].value = 2
cache = MT.cache.DataCache(value.outsockets[0])
success = success and cache.getData(0) == 2
value = MT.createNode("Values.Color Value")
value.insockets[0].value = (1, 0, 0, 1)
cache = MT.cache.DataCache(value.outsockets[0])
success = success and cache.getData(0) == (1, 0, 0, 1)
value = MT.createNode("Values.String Value")
value.insockets[0].value = "bla bla HUBSGHDJ"
cache = MT.cache.DataCache(value.outsockets[0])
success = success and cache.getData(0) == "bla bla HUBSGHDJ"
return success
def testSocketProperties():
value = MT.createNode("Values.Float Value")
value.insockets[0].value = 2.5
cache = MT.cache.DataCache(value.outsockets[0])
success = cache.getData(0) == 2.5
value = MT.createNode("Values.Int Value")
value.insockets[0].value = 2
cache = MT.cache.DataCache(value.outsockets[0])
success = success and cache.getData(0) == 2
value = MT.createNode("Values.Color Value")
value.insockets[0].value = (1, 0, 0, 1)
cache = MT.cache.DataCache(value.outsockets[0])
success = success and cache.getData(0) == (1, 0, 0, 1)
value = MT.createNode("Values.String Value")
value.insockets[0].value = "bla bla HUBSGHDJ"
cache = MT.cache.DataCache(value.outsockets[0])
success = success and cache.getData(0) == "bla bla HUBSGHDJ"
return success
def _createNetwork(self):
self.add = MT.createNode("Math.Add")
self.add2 = MT.createNode("Math.Add")
self.add3 = MT.createNode("Math.Add")
self.valuenode = MT.createNode("Values.Float Value")
self.valuenode2 = MT.createNode("Values.Float Value")
self.valuenode3 = MT.createNode("Values.Float Value")
MT.project.root.addNode(self.valuenode3)
MT.project.root.addNode(self.add)
MT.project.root.addNode(self.add2)
MT.project.root.addNode(self.add3)
MT.project.root.addNode(self.valuenode)
MT.project.root.addNode(self.valuenode2)
pos = self.valuenode.pos
self.valuenode.pos = (pos[0] - 150, pos[1] - 50)
self.valuenode2.pos = (pos[0] - 150, pos[1] + 50)
self.add.insockets[0].connected = self.valuenode.outsockets[0]
self.add.insockets[1].connected = self.valuenode2.outsockets[0]
self.add.insockets[2].connected = self.valuenode3.outsockets[0]
self.add2.insockets[0].connected = self.add.outsockets[0]
self.add3.insockets[0].connected = self.add2.outsockets[0]
def _createNetwork(self):
self.add = MT.createNode("Math.Add")
self.add2 = MT.createNode("Math.Add")
self.add3 = MT.createNode("Math.Add")
self.valuenode = MT.createNode("Values.Float Value")
self.valuenode2 = MT.createNode("Values.Float Value")
self.valuenode3 = MT.createNode("Values.Float Value")
MT.project.root.addNode(self.valuenode3)
MT.project.root.addNode(self.add)
MT.project.root.addNode(self.add2)
MT.project.root.addNode(self.add3)
MT.project.root.addNode(self.valuenode)
MT.project.root.addNode(self.valuenode2)
pos = self.valuenode.pos
self.valuenode.pos = (pos[0] - 150, pos[1] - 50)
self.valuenode2.pos = (pos[0] - 150, pos[1] + 50)
self.add.insockets[0].connected = self.valuenode.outsockets[0]
self.add.insockets[1].connected = self.valuenode2.outsockets[0]
self.add.insockets[2].connected = self.valuenode3.outsockets[0]
self.add2.insockets[0].connected = self.add.outsockets[0]
self.add3.insockets[0].connected = self.add2.outsockets[0]
def testCreateList():
createListNode = MT.createNode("General.Create List")
floatValueNode = MT.createNode("Values.Float Value")
intValueNode = MT.createNode("Values.Int Value")
MT.project.root.addNode(createListNode)
MT.project.root.addNode(floatValueNode)
MT.project.root.addNode(intValueNode)
floatValueNode.insockets[0].value = 5.0
intValueNode.insockets[0].value = 10
createListNode.insockets[0].connected = floatValueNode.outsockets[0]
createListNode.insockets[1].connected = intValueNode.outsockets[0]
cache = MT.cache.DataCache(createListNode.outsockets[0])
test = TestCase()
test.equal(cache.getOutput(), [5, 5, 5, 5, 5, 5, 5, 5, 5, 5])
test.equal(floatValueNode.insockets[0].value, 5.0)
test.equal(intValueNode.insockets[0].value, 10)
return test.exit()
def createContainer(nodes):
space = nodes[0].space
inconnections = {}
outconnections = {}
container = MT.createNode("General.Container")
ci = container.graph[0]
co = container.graph[1]
middle = (0, 0)
for n in nodes:
middle = (middle[0] + n.pos[0], middle[1] + n.pos[1])
#find ingoing node connections
for socket in n.insockets:
if not socket.connected:
continue
cntd = socket.connected
if not cntd.node in nodes:
inconnections[socket] = cntd
#find outgoing node connections
for socket in n.outsockets:
if len(socket.cntdSockets) == 0:
continue
for s in socket.cntdSockets:
if not s.node in nodes:
outconnections[s] = socket
#remove nodes from current space
space.removeNode(n)
container.graph.addNode(n)
space.addNode(container)
#reconnect incoming and outgoing connections
for isocket, osocket in inconnections.items():
isocket.connected = ci.outsockets[-1]
container.insockets[-1].connected = osocket
for isocket, osocket in outconnections.items():
co.insockets[-1].connected = osocket
isocket.connected = container.outsockets[-1]
middle = (middle[0] / 2, middle[1] / 2)
container.pos = middle
def createContainer(nodes):
space = nodes[0].space
inconnections = {}
outconnections = {}
container = MT.createNode("General.Container")
ci = container.graph[0]
co = container.graph[1]
middle = (0, 0)
for n in nodes:
middle = (middle[0] + n.pos[0], middle[1] + n.pos[1])
#find ingoing node connections
for socket in n.insockets:
if not socket.connected:
continue
cntd = socket.connected
if not cntd.node in nodes:
inconnections[socket] = cntd
#find outgoing node connections
for socket in n.outsockets:
if len(socket.cntdSockets) == 0:
continue
for s in socket.cntdSockets:
if not s.node in nodes:
outconnections[s] = socket
#remove nodes from current space
space.removeNode(n)
container.graph.addNode(n)
space.addNode(container)
#reconnect incoming and outgoing connections
for isocket, osocket in inconnections.items():
isocket.connected = ci.outsockets[-1]
container.insockets[-1].connected = osocket
for isocket, osocket in outconnections.items():
co.insockets[-1].connected = osocket
isocket.connected = container.outsockets[-1]
middle = (middle[0] / 2, middle[1] / 2)
container.pos = middle
def testLoadProject():
MT.newProject()
node = MT.createNode("Math.Add")
node1 = MT.createNode("Values.Float Value")
node2 = MT.createNode("Values.Int Value")
node3 = MT.createNode("General.Container")
node.insockets[0].connected = node1.outsockets[0]
node.pos = (0, 0)
node1.pos = (0, 20)
node2.pos = (0, 40)
node3.pos = (0, 60)
node4 = MT.createNode("Values.String Value")
node5 = MT.createNode("Values.Vector3D")
node6 = MT.createNode("Values.Vector2D")
node7 = MT.createNode("Values.Color Value")
node8 = MT.createNode("Objects.Transform")
node9 = MT.createNode("Objects.Lights.Spot Light")
node4.pos = (0, 0)
node5.pos = (0, 20)
node6.pos = (0, 40)
node7.pos = (0, 60)
node8.pos = (0, 80)
node9.pos = (0, 100)
MT.project.root.addNode(node)
MT.project.root.addNode(node1)
MT.project.root.addNode(node2)
MT.project.root.addNode(node3)
node3.graph.addNode(node4)
node3.graph.addNode(node5)
node3.graph.addNode(node6)
node3.graph.addNode(node7)
node3.graph.addNode(node8)
node3.graph.addNode(node9)
graphsize = len(node3.graph)
node9.insockets[6].value = True
node1.insockets[0].value = 5.7
node2.insockets[0].value = 14
now = datetime.datetime.now()
filename = "projectTest.mt"
MT.project.filename = filename
print("saving project: " + filename)
MT.project.save()
print()
MT.newProject()
print("open project: " + filename)
MT.openProject(filename)
node = MT.project.root[0]
node1 = MT.project.root[1]
node2 = MT.project.root[2]
node3 = MT.project.root[3]
node4 = MT.project.root[3].graph[2]
node5 = MT.project.root[3].graph[3]
node6 = MT.project.root[3].graph[4]
node7 = MT.project.root[3].graph[5]
node8 = MT.project.root[3].graph[6]
node9 = MT.project.root[3].graph[7]
test = TestCase()
test.equal(len(MT.project.root), 4, "Project size")
test.contains("Add", node.name)
test.contains("Float Value", node1.name)
test.contains("Int Value", node2.name)
test.contains("Container", node3.name)
test.equal((0, 0), node.pos)
test.equal((0, 20), node1.pos)
test.equal((0, 40), node2.pos)
test.equal((0, 60), node3.pos)
test.equal((0, 0), node4.pos)
test.equal((0, 20), node5.pos)
test.equal((0, 40), node6.pos)
test.equal((0, 60), node7.pos)
test.equal((0, 80), node8.pos)
test.equal(node.insockets[0].connected, node1.outsockets[0], "add insocket and float value out")
test.equal(len(node3.graph), graphsize)
test.contains("String Value", node4.name)
test.contains("Vector3D", node5.name)
test.contains("Vector2D", node6.name)
test.contains("Color Value", node7.name)
test.contains("Transform", node8.name)
test.contains("Spot Light", node9.name)
test.equal(len(node8.insockets), 2, "number of insockets")
test.equal(node2.insockets[0].value, 14)
test.floatEqual(node1.insockets[0].value, 5.7, 0.00001)
test.equal(node9.insockets[5].value, False)
test.equal(node9.insockets[6].value, True)
test.equal(node9.insockets[7].value, 512)
return test.exit()
def testContainerCache():
'''Creating two add nodes, connecting them and trying to get a value from it'''
add = MT.createNode("Math.Add")
valuenode = MT.createNode("Values.Float Value")
valuenode2 = MT.createNode("Values.Float Value")
valuenode3 = MT.createNode("Values.Float Value")
container = MT.createNode("General.Container")
output = container.graph[1]
inputnode = container.graph[0]
value1 = 5.
value2 = 8.
value3 = 12.
value4 = 23.
add.insockets[0].name = "add.in01"
valuenode.insockets[0].name = "valuenode.in01"
valuenode.insockets[0].value = value1
valuenode2.insockets[0].name = "valuenode2.in01"
valuenode2.insockets[0].value = value2
valuenode3.insockets[0].value = value4
MT.project.root.addNode(container)
MT.project.root.addNode(valuenode3)
container.graph.addNode(add)
container.graph.addNode(valuenode)
container.graph.addNode(valuenode2)
pos = valuenode.pos
valuenode.pos = (pos[0] - 150, pos[1] - 50)
valuenode2.pos = (pos[0] - 150, pos[1] + 50)
add.insockets[0].connected = valuenode.outsockets[0]
add.insockets[1].connected = valuenode2.outsockets[0]
add.insockets[2].connected = inputnode.outsockets[0]
output.insockets[0].connected = add.outsockets[0]
container.insockets[0].connected = valuenode3.outsockets[0]
add.insockets[3].value = value3
cache = MT.cache.DataCache(container.outsockets[0])
expected_result = value1 + value2 + value3 + value4
test = TestCase()
test.equal(cache.getOutput(), expected_result)
test.equal(container.insockets[0].type, valuenode3.outsockets[0].type)
test.equal(add.insockets[0].type, valuenode.outsockets[0].type)
test.equal(add.insockets[1].type, valuenode2.outsockets[0].type)
test.equal(add.insockets[2].type, inputnode.outsockets[0].type)
test.equal(inputnode.outsockets[0].type, container.insockets[0].type)
test.equal(container.insockets[0].type, "FLOAT")
test.equal(add.insockets[0].type, "FLOAT")
test.equal(add.insockets[1].type, "FLOAT")
test.equal(add.insockets[2].type, "FLOAT")
test.equal(inputnode.outsockets[0].type, "FLOAT")
valuenode.insockets[0].value = 10.
MT.cache.DataCache.invalidate(valuenode)
cache = MT.cache.DataCache(container.outsockets[0])
expected_result = 10. + value2 + value3 + value4
test.equal(cache.getOutput(), expected_result, "invalidation")
return test.exit()
def testWhileLoopCache():
loop = MT.createNode("General.While")
MT.project.root.addNode(loop)
test = TestCase()
return test.exit()
def testContainerCache():
'''Creating two add nodes, connecting them and trying to get a value from it'''
add = MT.createNode("Math.Add")
valuenode = MT.createNode("Values.Float Value")
valuenode2 = MT.createNode("Values.Float Value")
valuenode3 = MT.createNode("Values.Float Value")
container = MT.createNode("General.Container")
output = container.graph[1]
inputnode = container.graph[0]
value1 = 5.
value2 = 8.
value3 = 12.
value4 = 23.
add.insockets[0].name = "add.in01"
valuenode.insockets[0].name = "valuenode.in01"
valuenode.insockets[0].value = value1
valuenode2.insockets[0].name = "valuenode2.in01"
valuenode2.insockets[0].value = value2
valuenode3.insockets[0].value = value4
MT.project.root.addNode(container)
MT.project.root.addNode(valuenode3)
container.graph.addNode(add)
container.graph.addNode(valuenode)
container.graph.addNode(valuenode2)
pos = valuenode.pos
valuenode.pos = (pos[0] - 150, pos[1] - 50)
valuenode2.pos = (pos[0] - 150, pos[1] + 50)
add.insockets[0].connected = valuenode.outsockets[0]
add.insockets[1].connected = valuenode2.outsockets[0]
add.insockets[2].connected = inputnode.outsockets[0]
output.insockets[0].connected = add.outsockets[0]
container.insockets[0].connected = valuenode3.outsockets[0]
add.insockets[3].value = value3
cache = MT.cache.DataCache(container.outsockets[0])
expected_result = value1 + value2 + value3 + value4
test = TestCase()
test.equal(cache.getOutput(), expected_result)
test.equal(container.insockets[0].type, valuenode3.outsockets[0].type)
test.equal(add.insockets[0].type, valuenode.outsockets[0].type)
test.equal(add.insockets[1].type, valuenode2.outsockets[0].type)
test.equal(add.insockets[2].type, inputnode.outsockets[0].type)
test.equal(inputnode.outsockets[0].type, container.insockets[0].type)
test.equal(container.insockets[0].type, "FLOAT")
test.equal(add.insockets[0].type, "FLOAT")
test.equal(add.insockets[1].type, "FLOAT")
test.equal(add.insockets[2].type, "FLOAT")
test.equal(inputnode.outsockets[0].type, "FLOAT")
valuenode.insockets[0].value = 10.
MT.cache.DataCache.invalidate(valuenode)
cache = MT.cache.DataCache(container.outsockets[0])
expected_result = 10. + value2 + value3 + value4
test.equal(cache.getOutput(), expected_result, "invalidation")
return test.exit()
def testLoadProject():
MT.newProject()
node = MT.createNode("Math.Add")
node1 = MT.createNode("Values.Float Value")
node2 = MT.createNode("Values.Int Value")
node3 = MT.createNode("General.Container")
node.insockets[0].connected = node1.outsockets[0]
node.pos = (0, 0)
node1.pos = (0, 20)
node2.pos = (0, 40)
node3.pos = (0, 60)
node4 = MT.createNode("Values.String Value")
node5 = MT.createNode("Values.Vector3D")
node6 = MT.createNode("Values.Vector2D")
node7 = MT.createNode("Values.Color Value")
node8 = MT.createNode("Objects.Transform")
node9 = MT.createNode("Objects.Lights.Spot Light")
node4.pos = (0, 0)
node5.pos = (0, 20)
node6.pos = (0, 40)
node7.pos = (0, 60)
node8.pos = (0, 80)
node9.pos = (0, 100)
MT.project.root.addNode(node)
MT.project.root.addNode(node1)
MT.project.root.addNode(node2)
MT.project.root.addNode(node3)
node3.graph.addNode(node4)
node3.graph.addNode(node5)
node3.graph.addNode(node6)
node3.graph.addNode(node7)
node3.graph.addNode(node8)
node3.graph.addNode(node9)
graphsize = len(node3.graph)
node9.insockets[6].value = True
node1.insockets[0].value = 5.7
node2.insockets[0].value = 14
now = datetime.datetime.now()
filename = "projectTest.mt"
MT.project.filename = filename
print("saving project: " + filename)
MT.project.save()
print()
MT.newProject()
print("open project: " + filename)
MT.openProject(filename)
node = MT.project.root[0]
node1 = MT.project.root[1]
node2 = MT.project.root[2]
node3 = MT.project.root[3]
node4 = MT.project.root[3].graph[2]
node5 = MT.project.root[3].graph[3]
node6 = MT.project.root[3].graph[4]
node7 = MT.project.root[3].graph[5]
node8 = MT.project.root[3].graph[6]
node9 = MT.project.root[3].graph[7]
test = TestCase()
test.equal(len(MT.project.root), 4, "Project size")
test.contains("Add", node.name)
test.contains("Float Value", node1.name)
test.contains("Int Value", node2.name)
test.contains("Container", node3.name)
test.equal((0, 0), node.pos)
test.equal((0, 20), node1.pos)
test.equal((0, 40), node2.pos)
test.equal((0, 60), node3.pos)
test.equal((0, 0), node4.pos)
test.equal((0, 20), node5.pos)
test.equal((0, 40), node6.pos)
test.equal((0, 60), node7.pos)
test.equal((0, 80), node8.pos)
test.equal(node.insockets[0].connected, node1.outsockets[0],
"add insocket and float value out")
test.equal(len(node3.graph), graphsize)
test.contains("String Value", node4.name)
test.contains("Vector3D", node5.name)
test.contains("Vector2D", node6.name)
test.contains("Color Value", node7.name)
test.contains("Transform", node8.name)
test.contains("Spot Light", node9.name)
test.equal(len(node8.insockets), 2, "number of insockets")
test.equal(node2.insockets[0].value, 14)
test.floatEqual(node1.insockets[0].value, 5.7, 0.00001)
test.equal(node9.insockets[5].value, False)
test.equal(node9.insockets[6].value, True)
test.equal(node9.insockets[7].value, 512)
return test.exit()
def nodeSlot():
node = MT.createNode(nodeType)
self.graph.space.addNode(node)
def testWhileLoopCache():
loop = MT.createNode("General.While")
MT.project.root.addNode(loop)
test = TestCase()
return test.exit()
def nodeSlot():
node = MT.createNode(nodeType)
self.graph.space.addNode(node)
def dropNode(self, label, pos):
_node = MT.createNode(label)
if _node is not None:
self.scene().space.addNode(_node)
_node.pos = pos
return _node
def dropNode(self, label, pos):
_node = MT.createNode(label)
if _node is not None:
self.scene().space.addNode(_node)
_node.pos = pos
return _node
