Exemplo n.º 1
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    def testGlobals(self):

        a = GafferScene.CustomOptions()
        a["options"].addChild(Gaffer.NameValuePlug("test1", 1))
        a["options"].addChild(Gaffer.NameValuePlug("test2", 2))

        b = GafferScene.CustomOptions()
        b["options"].addChild(Gaffer.NameValuePlug("test2", 4))
        b["options"].addChild(Gaffer.NameValuePlug("test3", 3))

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(a["out"])
        merge["in"][1].setInput(b["out"])

        # `Keep`

        self.assertEqual(merge["globalsMode"].getValue(), merge.Mode.Keep)
        self.assertEqual(merge["out"].globals(), a["out"].globals())
        self.assertEqual(merge["out"].globalsHash(), a["out"].globalsHash())

        # `Replace`

        merge["globalsMode"].setValue(merge.Mode.Replace)
        self.assertEqual(merge["out"].globals(), b["out"].globals())
        self.assertEqual(merge["out"].globalsHash(), b["out"].globalsHash())

        # `Merge`

        merge["globalsMode"].setValue(merge.Mode.Merge)
        mergedGlobals = a["out"].globals()
        mergedGlobals.update(b["out"].globals())
        self.assertEqual(merge["out"].globals(), mergedGlobals)
Exemplo n.º 2
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    def testNoInputsPassThrough(self):

        merge = GafferScene.MergeScenes()
        self.assertScenesEqual(merge["in"][0], merge["out"])
        self.assertSceneHashesEqual(
            merge["in"][0],
            merge["out"],
            # Can't expect transform hash to be identical, because
            # `SceneNode::hashTransform()` isn't called for the root.
            checks=self.allSceneChecks - {"transform"})
Exemplo n.º 3
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    def testFirstInputUnconnected(self):

        sphere = GafferScene.Sphere()
        sphere["sets"].setValue("A")

        merge = GafferScene.MergeScenes()
        merge["in"][1].setInput(sphere["out"])

        self.assertSceneValid(merge["out"])
        self.assertScenesEqual(sphere["out"], merge["out"])
        self.assertSceneHashesEqual(sphere["out"], merge["out"])
Exemplo n.º 4
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    def testNullObject(self):

        sphere = GafferScene.Sphere()

        group = GafferScene.Group()
        group["name"].setValue("sphere")

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(sphere["out"])
        merge["in"][1].setInput(group["out"])
        merge["objectMode"].setValue(merge.Mode.Replace)

        self.assertEqual(merge["out"].object("/sphere"),
                         sphere["out"].object("/sphere"))
Exemplo n.º 5
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    def testSingleInputPassThrough(self):

        sphere = GafferScene.Sphere()
        sphere["transform"]["translate"].setValue(imath.V3f(1, 2, 3))
        sphere["sets"].setValue("A")
        cube = GafferScene.Cube()

        group = GafferScene.Group()
        group["in"][0].setInput(sphere["out"])
        group["in"][1].setInput(sphere["out"])

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(group["out"])

        self.assertScenesEqual(merge["out"], group["out"])
        self.assertSceneHashesEqual(merge["out"], group["out"])
Exemplo n.º 6
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    def testBounds(self):

        sphere = GafferScene.Sphere()
        sphere["transform"]["translate"]["x"].setValue(5)

        bigSphere = GafferScene.Sphere()
        bigSphere["radius"].setValue(2)

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(sphere["out"])
        merge["in"][1].setInput(bigSphere["out"])

        # Transform and object both coming from `bigSphere`.

        merge["transformMode"].setValue(merge.Mode.Replace)
        merge["objectMode"].setValue(merge.Mode.Replace)
        self.assertSceneValid(merge["out"])
        self.assertEqual(merge["out"].bound("/"), bigSphere["out"].bound("/"))
        self.assertEqual(merge["out"].bound("/sphere"),
                         bigSphere["out"].bound("/sphere"))

        # Just object coming from `bigSphere`.

        merge["transformMode"].setValue(merge.Mode.Keep)
        self.assertSceneValid(merge["out"])
        self.assertEqual(merge["out"].bound("/"),
                         imath.Box3f(imath.V3f(3, -2, -2), imath.V3f(7, 2, 2)))
        self.assertEqual(merge["out"].bound("/sphere"),
                         bigSphere["out"].bound("/sphere"))

        # Just transform coming from `bigSphere`.

        merge["transformMode"].setValue(merge.Mode.Replace)
        merge["objectMode"].setValue(merge.Mode.Keep)
        self.assertSceneValid(merge["out"])
        self.assertEqual(merge["out"].bound("/"),
                         imath.Box3f(imath.V3f(-1), imath.V3f(1)))
        self.assertEqual(merge["out"].bound("/sphere"),
                         sphere["out"].bound("/sphere"))

        # Neither transforms or objects being merged.

        merge["transformMode"].setValue(merge.Mode.Keep)
        self.assertSceneValid(merge["out"])
        self.assertEqual(merge["out"].bound("/"), sphere["out"].bound("/"))
        self.assertEqual(merge["out"].bound("/sphere"),
                         sphere["out"].bound("/sphere"))
Exemplo n.º 7
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    def testNoRedundantEvaluations(self):

        sphere1 = GafferScene.Sphere()

        sphere2 = GafferScene.Sphere()
        sphere2["radius"].setValue(2)
        sphere2["transform"]["translate"]["x"].setValue(2)

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(sphere1["out"])
        merge["in"][1].setInput(sphere2["out"])
        merge["objectMode"].setValue(merge.Mode.Replace)
        merge["transformMode"].setValue(merge.Mode.Replace)

        # Object
        # ======

        with Gaffer.PerformanceMonitor() as pm:
            merge["out"].object("/sphere")

        self.assertEqual(
            pm.plugStatistics(sphere2["out"]["object"]).hashCount, 1)
        self.assertEqual(
            pm.plugStatistics(sphere2["out"]["object"]).computeCount, 1)

        self.assertEqual(
            pm.plugStatistics(sphere1["out"]["object"]).hashCount, 1)
        # No need to compute `sphere1.out.object` because `sphere2.out.object` wins.
        self.assertEqual(
            pm.plugStatistics(sphere1["out"]["object"]).computeCount, 0)

        # Transform
        # =========

        with Gaffer.PerformanceMonitor() as pm:
            merge["out"].transform("/sphere")

        self.assertEqual(
            pm.plugStatistics(sphere2["out"]["transform"]).hashCount, 1)
        self.assertEqual(
            pm.plugStatistics(sphere2["out"]["transform"]).computeCount, 1)

        # No need to hash or compute `sphere1.out.transform` because `sphere2.out.transform` wins.
        self.assertEqual(
            pm.plugStatistics(sphere1["out"]["transform"]).hashCount, 0)
        self.assertEqual(
            pm.plugStatistics(sphere1["out"]["transform"]).computeCount, 0)
Exemplo n.º 8
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    def testDisabledSceneReader(self):

        sceneReader1 = GafferScene.SceneReader()
        sceneReader1["fileName"].setValue(
            "${GAFFER_ROOT}/python/GafferSceneTest/alembicFiles/cube.abc")

        sceneReader2 = GafferScene.SceneReader()
        sceneReader2["fileName"].setValue(
            "${GAFFER_ROOT}/python/GafferSceneTest/alembicFiles/groupedPlane.abc"
        )

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(sceneReader1["out"])
        merge["in"][1].setInput(sceneReader2["out"])
        self.assertSceneValid(merge["out"])
        self.assertEqual(merge["out"].childNames("/"),
                         IECore.InternedStringVectorData(["group1", "group"]))

        sceneReader2["enabled"].setValue(False)
        self.assertSceneValid(merge["out"])
        self.assertEqual(merge["out"].childNames("/"),
                         IECore.InternedStringVectorData(["group1"]))
Exemplo n.º 9
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    def testMaxInputs(self):

        merge = GafferScene.MergeScenes()
        spheres = []
        groups = []

        for i in range(0, merge["in"].maxSize()):
            sphere = GafferScene.Sphere()
            sphere["name"].setValue("sphere{}".format(i))
            sphere["sets"].setValue("set{}".format(i))
            group = GafferScene.Group()
            group["in"][0].setInput(sphere["out"])
            merge["in"][i].setInput(group["out"])
            spheres.append(sphere)
            groups.append(group)

        self.assertSceneValid(merge["out"])
        self.assertEqual(
            list(merge["out"].childNames("/group")),
            ["sphere{}".format(i) for i in range(0, merge["in"].maxSize())])
        self.assertEqual(
            list(merge["out"].setNames()),
            ["set{}".format(i) for i in range(0, merge["in"].maxSize())])
Exemplo n.º 10
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    def test(self):

        sphereFilter = GafferScene.PathFilter()
        sphereFilter["paths"].setValue(IECore.StringVectorData(["/sphere"]))

        sphere = GafferScene.Sphere()
        sphere["sets"].setValue("sphere both")

        sphereAttributes = GafferScene.CustomAttributes()
        sphereAttributes["in"].setInput(sphere["out"])
        sphereAttributes["filter"].setInput(sphereFilter["out"])
        sphereAttributes["attributes"].addChild(
            Gaffer.NameValuePlug("testAttr1", 1))
        sphereAttributes["attributes"].addChild(
            Gaffer.NameValuePlug("testAttr2", 2))

        bigSphere = GafferScene.Sphere()
        bigSphere["radius"].setValue(2)
        bigSphere["transform"]["translate"]["x"].setValue(1)
        bigSphere["sets"].setValue("bigSphere")

        bigSphereAttributes = GafferScene.CustomAttributes()
        bigSphereAttributes["in"].setInput(bigSphere["out"])
        bigSphereAttributes["filter"].setInput(sphereFilter["out"])
        bigSphereAttributes["attributes"].addChild(
            Gaffer.NameValuePlug("testAttr2", 4))
        bigSphereAttributes["attributes"].addChild(
            Gaffer.NameValuePlug("testAttr3", 3))

        cube = GafferScene.Cube()
        cube["sets"].setValue("cube both")

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(sphereAttributes["out"])
        merge["in"][1].setInput(cube["out"])
        merge["in"][2].setInput(bigSphereAttributes["out"])

        self.assertSceneValid(merge["out"])

        # Hierarchy
        # =========

        self.assertEqual(
            merge["out"].childNames("/"),
            IECore.InternedStringVectorData(["sphere", "cube"]),
        )

        self.assertEqual(
            merge["out"].childNames("/sphere"),
            IECore.InternedStringVectorData(),
        )

        self.assertEqual(
            merge["out"].childNames("/cube"),
            IECore.InternedStringVectorData(),
        )

        # Transform
        # =========

        # `Keep`
        self.assertEqual(merge["transformMode"].getValue(), merge.Mode.Keep)
        self.assertEqual(merge["out"].transform("/"), imath.M44f())
        self.assertEqual(merge["out"].transform("/sphere"), imath.M44f())
        self.assertEqual(merge["out"].transform("/sphere"),
                         sphere["out"].transform("/sphere"))
        self.assertEqual(merge["out"].transformHash("/sphere"),
                         sphere["out"].transformHash("/sphere"))
        self.assertEqual(merge["out"].transform("/cube"),
                         cube["out"].transform("/cube"))
        self.assertEqual(merge["out"].transformHash("/cube"),
                         cube["out"].transformHash("/cube"))
        self.assertSceneValid(merge["out"])

        # `Replace`
        merge["transformMode"].setValue(merge.Mode.Replace)
        self.assertEqual(merge["out"].transform("/"), imath.M44f())
        self.assertEqual(merge["out"].transform("/sphere"),
                         bigSphere["out"].transform("/sphere"))
        self.assertEqual(merge["out"].transformHash("/sphere"),
                         bigSphere["out"].transformHash("/sphere"))
        self.assertEqual(merge["out"].transform("/cube"),
                         cube["out"].transform("/cube"))
        self.assertEqual(merge["out"].transformHash("/cube"),
                         cube["out"].transformHash("/cube"))
        self.assertSceneValid(merge["out"])

        # Objects
        # =======

        # `Keep`
        self.assertEqual(merge["objectMode"].getValue(), merge.Mode.Keep)
        self.assertEqual(merge["out"].object("/sphere"),
                         sphere["out"].object("/sphere"))
        self.assertEqual(merge["out"].objectHash("/sphere"),
                         sphere["out"].objectHash("/sphere"))
        self.assertEqual(merge["out"].object("/cube"),
                         cube["out"].object("/cube"))
        self.assertEqual(merge["out"].objectHash("/cube"),
                         cube["out"].objectHash("/cube"))

        # `Replace`
        merge["objectMode"].setValue(merge.Mode.Replace)
        self.assertEqual(merge["out"].object("/"), IECore.NullObject())
        self.assertEqual(merge["out"].object("/sphere"),
                         bigSphere["out"].object("/sphere"))
        self.assertEqual(merge["out"].object("/cube"),
                         cube["out"].object("/cube"))
        self.assertSceneValid(merge["out"])

        # Combination of 2 input locations, hash can't be passed through.
        self.assertNotEqual(merge["out"].objectHash("/sphere"),
                            sphere["out"].objectHash("/sphere"))
        self.assertNotEqual(merge["out"].objectHash("/sphere"),
                            bigSphere["out"].objectHash("/sphere"))
        # Single input location, hash should be passed through, and cache
        # entries shared.
        self.assertEqual(merge["out"].objectHash("/cube"),
                         cube["out"].objectHash("/cube"))
        self.assertTrue(merge["out"].object("/cube", _copy=False).isSame(
            cube["out"].object("/cube", _copy=False)))

        # Attributes
        # ==========

        # `Keep`
        self.assertEqual(merge["attributesMode"].getValue(), merge.Mode.Keep)
        self.assertEqual(merge["out"].attributes("/sphere"),
                         sphereAttributes["out"].attributes("/sphere"))
        self.assertEqual(merge["out"].attributesHash("/sphere"),
                         sphereAttributes["out"].attributesHash("/sphere"))

        # `Merge`
        merge["attributesMode"].setValue(merge.Mode.Merge)
        self.assertEqual(merge["out"].attributes("/"), IECore.CompoundObject())
        self.assertEqual(
            merge["out"].attributes("/sphere"),
            IECore.CompoundObject({
                "testAttr1": IECore.IntData(1),
                "testAttr2": IECore.IntData(4),
                "testAttr3": IECore.IntData(3)
            }))
        self.assertEqual(merge["out"].attributes("/cube"),
                         IECore.CompoundObject())

        # Combination of 2 input locations, hash can't be passed through.
        self.assertNotEqual(merge["out"].attributesHash("/sphere"),
                            sphere["out"].attributesHash("/sphere"))
        self.assertNotEqual(merge["out"].attributesHash("/sphere"),
                            bigSphere["out"].attributesHash("/sphere"))
        # Single input location, hash should be passed through, and cache
        # entries shared.
        self.assertEqual(merge["out"].attributesHash("/cube"),
                         cube["out"].attributesHash("/cube"))
        self.assertTrue(merge["out"].attributes("/cube", _copy=False).isSame(
            cube["out"].attributes("/cube", _copy=False)))

        # `Replace`
        merge["attributesMode"].setValue(merge.Mode.Replace)
        self.assertEqual(merge["out"].attributes("/sphere"),
                         bigSphereAttributes["out"].attributes("/sphere"))
        self.assertEqual(merge["out"].attributesHash("/sphere"),
                         bigSphereAttributes["out"].attributesHash("/sphere"))

        # Sets
        # ====

        # Sets are always merged

        self.assertEqual(
            merge["out"].setNames(),
            IECore.InternedStringVectorData(
                ["sphere", "both", "cube", "bigSphere"]))
        self.assertEqual(merge["out"].set("sphere").value,
                         IECore.PathMatcher(["/sphere"]))
        self.assertEqual(merge["out"].set("cube").value,
                         IECore.PathMatcher(["/cube"]))
        self.assertEqual(merge["out"].set("both").value,
                         IECore.PathMatcher(["/sphere", "/cube"]))
        self.assertEqual(merge["out"].set("bigSphere").value,
                         IECore.PathMatcher(["/sphere"]))
Exemplo n.º 11
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    def testBoundDoesntDependOnObjectsUnnecessarily(self):

        # Input 0      Input 1
        # =======      =======
        #
        # /group       /group
        #   /sphere       /sphere
        #   /plane        /innerGroup
        #                     /cube

        input0Sphere = GafferScene.Sphere("input0Sphere")
        input0Plane = GafferScene.Plane("input0Plane")
        input0Group = GafferScene.Group("input0Group")
        input0Group["in"][0].setInput(input0Sphere["out"])
        input0Group["in"][1].setInput(input0Plane["out"])

        input1Sphere = GafferScene.Sphere("input1Sphere")
        input1Cube = GafferScene.Cube("input1Cube")
        input1Cube["transform"]["translate"]["x"].setValue(10)
        input1InnerGroup = GafferScene.Group("input1InnerGroup")
        input1InnerGroup["name"].setValue("innerGroup")
        input1InnerGroup["in"][0].setInput(input1Cube["out"])
        input1Group = GafferScene.Group("input1Group")
        input1Group["in"][0].setInput(input1Sphere["out"])
        input1Group["in"][1].setInput(input1InnerGroup["out"])

        merge = GafferScene.MergeScenes()
        merge["in"][0].setInput(input0Group["out"])
        merge["in"][1].setInput(input1Group["out"])

        # If we're only taking transforms and objects from
        # the first active input, then we should be able
        # to compute the bounds purely from input bounds
        # and transforms, without ever needing to compute
        # any objects.

        merge["transformMode"].setValue(merge.Mode.Keep)
        merge["objectMode"].setValue(merge.Mode.Keep)

        with Gaffer.PerformanceMonitor() as pm:

            for path in [
                    "/", "/group", "/group/sphere", "/group/plane",
                    "/group/innerGroup", "/group/innerGroup/cube"
            ]:
                self.assertTrue(
                    GafferScene.SceneAlgo.exists(merge["out"], path))
                merge["out"].bound(path)

        computedPlugs = [plug.fullName() for plug in pm.allStatistics()]
        computedObjectPlugs = [
            plug for plug in computedPlugs if plug.endswith(".object")
        ]
        self.assertEqual(computedObjectPlugs, [])

        # And the bounds should be valid

        self.assertSceneValid(merge["out"])

        # And should update if the transforms change

        input1Cube["transform"]["translate"]["x"].setValue(20)
        self.assertSceneValid(merge["out"])
        input1InnerGroup["transform"]["translate"]["x"].setValue(20)
        self.assertSceneValid(merge["out"])