public void TestDeleteSceneObjectAsyncToUserInventory()
{
TestHelper.InMethod();
//log4net.Config.XmlConfigurator.Configure();
UUID agentId = UUID.Parse("00000000-0000-0000-0000-000000000001");
string myObjectName = "Fred";
TestScene scene = SceneSetupHelpers.SetupScene();
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(scene, myObjectName);
Assert.That(
scene.CommsManager.UserAdminService.AddUser(
"Bob", "Hoskins", "test", "*****@*****.**", 1000, 1000, agentId),
Is.EqualTo(agentId));
IClientAPI client = SceneSetupHelpers.AddRootAgent(scene, agentId);
CachedUserInfo userInfo = scene.CommsManager.UserProfileCacheService.GetUserDetails(agentId);
Assert.That(userInfo, Is.Not.Null);
Assert.That(userInfo.RootFolder, Is.Not.Null);
SceneSetupHelpers.DeleteSceneObjectAsync(scene, part, DeRezAction.Take, userInfo.RootFolder.ID, client);
// Check that we now have the taken part in our inventory
Assert.That(myObjectName, Is.EqualTo(userInfo.RootFolder.FindItemByPath(myObjectName).Name));
// Check that the taken part has actually disappeared
SceneObjectPart retrievedPart = scene.GetSceneObjectPart(part.LocalId);
Assert.That(retrievedPart, Is.Null);
}
public void TestDeleteSceneObjectAsync()
{
TestHelper.InMethod();
//log4net.Config.XmlConfigurator.Configure();
UUID agentId = UUID.Parse("00000000-0000-0000-0000-000000000001");
TestScene scene = SceneSetupHelpers.SetupScene();
// Turn off the timer on the async sog deleter - we'll crank it by hand for this test.
AsyncSceneObjectGroupDeleter sogd = scene.SceneObjectGroupDeleter;
sogd.Enabled = false;
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(scene);
IClientAPI client = SceneSetupHelpers.AddRootAgent(scene, agentId);
scene.DeRezObjects(client, new System.Collections.Generic.List <uint>()
{
part.LocalId
}, UUID.Zero, DeRezAction.Delete, UUID.Zero);
SceneObjectPart retrievedPart = scene.GetSceneObjectPart(part.LocalId);
Assert.That(retrievedPart, Is.Not.Null);
sogd.InventoryDeQueueAndDelete();
SceneObjectPart retrievedPart2 = scene.GetSceneObjectPart(part.LocalId);
Assert.That(retrievedPart2, Is.Null);
}
public void TestAddSceneObject()
{
TestHelper.InMethod();
Scene scene = SceneSetupHelpers.SetupScene();
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectPart retrievedPart = scene.GetSceneObjectPart(part.LocalId);
//m_log.Debug("retrievedPart : {0}", retrievedPart);
// If the parts have the same UUID then we will consider them as one and the same
Assert.That(retrievedPart.UUID, Is.EqualTo(part.UUID));
}
public void TestDeleteSceneObject()
{
TestHelper.InMethod();
TestScene scene = SceneSetupHelpers.SetupScene();
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(scene);
scene.DeleteSceneObject(part.ParentGroup, false);
SceneObjectPart retrievedPart = scene.GetSceneObjectPart(part.LocalId);
Assert.That(retrievedPart, Is.Null);
}
public void SetUp()
{
IConfigSource initConfigSource = new IniConfigSource();
IConfig config = initConfigSource.AddConfig("XEngine");
config.Set("Enabled", "true");
Scene scene = SceneSetupHelpers.SetupScene();
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(scene);
XEngine.XEngine engine = new XEngine.XEngine();
engine.Initialise(initConfigSource);
engine.AddRegion(scene);
m_lslApi = new LSL_Api();
m_lslApi.Initialize(engine, part, part.LocalId, part.UUID);
}
public void TestSetMediaUrl()
{
TestHelper.InMethod();
string homeUrl = "opensimulator.org";
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(m_scene);
MediaEntry me = new MediaEntry()
{
HomeURL = homeUrl
};
m_module.SetMediaEntry(part, 1, me);
Assert.That(part.Shape.Media[1].HomeURL, Is.EqualTo(homeUrl));
Assert.That(part.MediaUrl, Is.EqualTo("x-mv:0000000000/" + UUID.Zero));
Assert.That(part.Shape.Textures.FaceTextures[1].MediaFlags, Is.True);
}
public void TestClearMediaUrl()
{
TestHelper.InMethod();
// log4net.Config.XmlConfigurator.Configure();
SceneObjectPart part = SceneSetupHelpers.AddSceneObject(m_scene);
MediaEntry me = new MediaEntry();
m_module.SetMediaEntry(part, 1, me);
m_module.ClearMediaEntry(part, 1);
Assert.That(part.Shape.Media[1], Is.EqualTo(null));
// Although we've cleared one face, other faces may still be present. So we need to check for an
// update media url version
Assert.That(part.MediaUrl, Is.EqualTo("x-mv:0000000001/" + UUID.Zero));
// By changing media flag to false, the face texture once again becomes identical to the DefaultTexture.
// Therefore, when libOMV reserializes it, it disappears and we are left with no face texture in this slot.
// Not at all confusing, eh?
Assert.That(part.Shape.Textures.FaceTextures[1], Is.Null);
}
public void TestLinkDelink2SceneObjects()
{
TestHelper.InMethod();
bool debugtest = false;
Scene scene = SceneSetupHelpers.SetupScene();
SceneObjectPart part1 = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectGroup grp1 = part1.ParentGroup;
SceneObjectPart part2 = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectGroup grp2 = part2.ParentGroup;
grp1.AbsolutePosition = new Vector3(10, 10, 10);
grp2.AbsolutePosition = Vector3.Zero;
// <90,0,0>
grp1.Rotation = (Quaternion.CreateFromEulers(90 * Utils.DEG_TO_RAD, 0, 0));
// <180,0,0>
grp2.UpdateGroupRotationR(Quaternion.CreateFromEulers(180 * Utils.DEG_TO_RAD, 0, 0));
// Required for linking
grp1.RootPart.UpdateFlag = 0;
grp2.RootPart.UpdateFlag = 0;
// Link grp2 to grp1. part2 becomes child prim to grp1. grp2 is eliminated.
grp1.LinkToGroup(grp2);
// FIXME: Can't do this test yet since group 2 still has its root part! We can't yet null this since
// it might cause SOG.ProcessBackup() to fail due to the race condition. This really needs to be fixed.
Assert.That(grp2.IsDeleted, "SOG 2 was not registered as deleted after link.");
Assert.That(grp2.Parts.Length, Is.EqualTo(0), "Group 2 still contained children after delink.");
Assert.That(grp1.Parts.Length == 2);
if (debugtest)
{
m_log.Debug("parts: " + grp1.Parts.Length);
m_log.Debug("Group1: Pos:" + grp1.AbsolutePosition + ", Rot:" + grp1.Rotation);
m_log.Debug("Group1: Prim1: OffsetPosition:" + part1.OffsetPosition + ", OffsetRotation:" + part1.RotationOffset);
m_log.Debug("Group1: Prim2: OffsetPosition:" + part2.OffsetPosition + ", OffsetRotation:" + part2.RotationOffset);
}
// root part should have no offset position or rotation
Assert.That(part1.OffsetPosition == Vector3.Zero && part1.RotationOffset == Quaternion.Identity,
"root part should have no offset position or rotation");
// offset position should be root part position - part2.absolute position.
Assert.That(part2.OffsetPosition == new Vector3(-10, -10, -10),
"offset position should be root part position - part2.absolute position.");
float roll = 0;
float pitch = 0;
float yaw = 0;
// There's a euler anomoly at 180, 0, 0 so expect 180 to turn into -180.
part1.RotationOffset.GetEulerAngles(out roll, out pitch, out yaw);
Vector3 rotEuler1 = new Vector3(roll * Utils.RAD_TO_DEG, pitch * Utils.RAD_TO_DEG, yaw * Utils.RAD_TO_DEG);
if (debugtest)
{
m_log.Debug(rotEuler1);
}
part2.RotationOffset.GetEulerAngles(out roll, out pitch, out yaw);
Vector3 rotEuler2 = new Vector3(roll * Utils.RAD_TO_DEG, pitch * Utils.RAD_TO_DEG, yaw * Utils.RAD_TO_DEG);
if (debugtest)
{
m_log.Debug(rotEuler2);
}
Assert.That(rotEuler2.ApproxEquals(new Vector3(-180, 0, 0), 0.001f) || rotEuler2.ApproxEquals(new Vector3(180, 0, 0), 0.001f),
"Not exactly sure what this is asserting...");
// Delink part 2
SceneObjectGroup grp3 = grp1.DelinkFromGroup(part2.LocalId);
if (debugtest)
{
m_log.Debug("Group2: Prim2: OffsetPosition:" + part2.AbsolutePosition + ", OffsetRotation:" + part2.RotationOffset);
}
Assert.That(grp1.Parts.Length, Is.EqualTo(1), "Group 1 still contained part2 after delink.");
Assert.That(part2.AbsolutePosition == Vector3.Zero, "The absolute position should be zero");
Assert.That(grp3.HasGroupChangedDueToDelink, Is.True);
}
public void TestLinkDelink2groups4SceneObjects()
{
TestHelper.InMethod();
bool debugtest = false;
Scene scene = SceneSetupHelpers.SetupScene();
SceneObjectPart part1 = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectGroup grp1 = part1.ParentGroup;
SceneObjectPart part2 = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectGroup grp2 = part2.ParentGroup;
SceneObjectPart part3 = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectGroup grp3 = part3.ParentGroup;
SceneObjectPart part4 = SceneSetupHelpers.AddSceneObject(scene);
SceneObjectGroup grp4 = part4.ParentGroup;
grp1.AbsolutePosition = new Vector3(10, 10, 10);
grp2.AbsolutePosition = Vector3.Zero;
grp3.AbsolutePosition = new Vector3(20, 20, 20);
grp4.AbsolutePosition = new Vector3(40, 40, 40);
// <90,0,0>
grp1.Rotation = (Quaternion.CreateFromEulers(90 * Utils.DEG_TO_RAD, 0, 0));
// <180,0,0>
grp2.UpdateGroupRotationR(Quaternion.CreateFromEulers(180 * Utils.DEG_TO_RAD, 0, 0));
// <270,0,0>
grp3.Rotation = (Quaternion.CreateFromEulers(270 * Utils.DEG_TO_RAD, 0, 0));
// <0,90,0>
grp4.UpdateGroupRotationR(Quaternion.CreateFromEulers(0, 90 * Utils.DEG_TO_RAD, 0));
// Required for linking
grp1.RootPart.UpdateFlag = 0;
grp2.RootPart.UpdateFlag = 0;
grp3.RootPart.UpdateFlag = 0;
grp4.RootPart.UpdateFlag = 0;
// Link grp2 to grp1. part2 becomes child prim to grp1. grp2 is eliminated.
grp1.LinkToGroup(grp2);
// Link grp4 to grp3.
grp3.LinkToGroup(grp4);
// At this point we should have 4 parts total in two groups.
Assert.That(grp1.Parts.Length == 2, "Group1 children count should be 2");
Assert.That(grp2.IsDeleted, "Group 2 was not registered as deleted after link.");
Assert.That(grp2.Parts.Length, Is.EqualTo(0), "Group 2 still contained parts after delink.");
Assert.That(grp3.Parts.Length == 2, "Group3 children count should be 2");
Assert.That(grp4.IsDeleted, "Group 4 was not registered as deleted after link.");
Assert.That(grp4.Parts.Length, Is.EqualTo(0), "Group 4 still contained parts after delink.");
if (debugtest)
{
m_log.Debug("--------After Link-------");
m_log.Debug("Group1: parts:" + grp1.Parts.Length);
m_log.Debug("Group1: Pos:" + grp1.AbsolutePosition + ", Rot:" + grp1.Rotation);
m_log.Debug("Group1: Prim1: OffsetPosition:" + part1.OffsetPosition + ", OffsetRotation:" + part1.RotationOffset);
m_log.Debug("Group1: Prim2: OffsetPosition:" + part2.OffsetPosition + ", OffsetRotation:" + part2.RotationOffset);
m_log.Debug("Group3: parts:" + grp3.Parts.Length);
m_log.Debug("Group3: Pos:" + grp3.AbsolutePosition + ", Rot:" + grp3.Rotation);
m_log.Debug("Group3: Prim1: OffsetPosition:" + part3.OffsetPosition + ", OffsetRotation:" + part3.RotationOffset);
m_log.Debug("Group3: Prim2: OffsetPosition:" + part4.OffsetPosition + ", OffsetRotation:" + part4.RotationOffset);
}
// Required for linking
grp1.RootPart.UpdateFlag = 0;
grp3.RootPart.UpdateFlag = 0;
// root part should have no offset position or rotation
Assert.That(part1.OffsetPosition == Vector3.Zero && part1.RotationOffset == Quaternion.Identity,
"root part should have no offset position or rotation (again)");
// offset position should be root part position - part2.absolute position.
Assert.That(part2.OffsetPosition == new Vector3(-10, -10, -10),
"offset position should be root part position - part2.absolute position (again)");
float roll = 0;
float pitch = 0;
float yaw = 0;
// There's a euler anomoly at 180, 0, 0 so expect 180 to turn into -180.
part1.RotationOffset.GetEulerAngles(out roll, out pitch, out yaw);
Vector3 rotEuler1 = new Vector3(roll * Utils.RAD_TO_DEG, pitch * Utils.RAD_TO_DEG, yaw * Utils.RAD_TO_DEG);
if (debugtest)
{
m_log.Debug(rotEuler1);
}
part2.RotationOffset.GetEulerAngles(out roll, out pitch, out yaw);
Vector3 rotEuler2 = new Vector3(roll * Utils.RAD_TO_DEG, pitch * Utils.RAD_TO_DEG, yaw * Utils.RAD_TO_DEG);
if (debugtest)
{
m_log.Debug(rotEuler2);
}
Assert.That(rotEuler2.ApproxEquals(new Vector3(-180, 0, 0), 0.001f) || rotEuler2.ApproxEquals(new Vector3(180, 0, 0), 0.001f),
"Not sure what this assertion is all about...");
// Now we're linking the first group to the third group. This will make the first group child parts of the third one.
grp3.LinkToGroup(grp1);
// Delink parts 2 and 3
grp3.DelinkFromGroup(part2.LocalId);
grp3.DelinkFromGroup(part3.LocalId);
if (debugtest)
{
m_log.Debug("--------After De-Link-------");
m_log.Debug("Group1: parts:" + grp1.Parts.Length);
m_log.Debug("Group1: Pos:" + grp1.AbsolutePosition + ", Rot:" + grp1.Rotation);
m_log.Debug("Group1: Prim1: OffsetPosition:" + part1.OffsetPosition + ", OffsetRotation:" + part1.RotationOffset);
m_log.Debug("Group1: Prim2: OffsetPosition:" + part2.OffsetPosition + ", OffsetRotation:" + part2.RotationOffset);
m_log.Debug("Group3: parts:" + grp3.Parts.Length);
m_log.Debug("Group3: Pos:" + grp3.AbsolutePosition + ", Rot:" + grp3.Rotation);
m_log.Debug("Group3: Prim1: OffsetPosition:" + part3.OffsetPosition + ", OffsetRotation:" + part3.RotationOffset);
m_log.Debug("Group3: Prim2: OffsetPosition:" + part4.OffsetPosition + ", OffsetRotation:" + part4.RotationOffset);
}
Assert.That(part2.AbsolutePosition == Vector3.Zero, "Badness 1");
Assert.That(part4.OffsetPosition == new Vector3(20, 20, 20), "Badness 2");
Quaternion compareQuaternion = new Quaternion(0, 0.7071068f, 0, 0.7071068f);
Assert.That((part4.RotationOffset.X - compareQuaternion.X < 0.00003) &&
(part4.RotationOffset.Y - compareQuaternion.Y < 0.00003) &&
(part4.RotationOffset.Z - compareQuaternion.Z < 0.00003) &&
(part4.RotationOffset.W - compareQuaternion.W < 0.00003),
"Badness 3");
}
