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/*
* Copyright (c) Contributors, http://opensimulator.org/
* See CONTRIBUTORS.TXT for a full list of copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the OpenSimulator Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.Reflection;
using System.Text;
using log4net;
using Nini.Config;
using NUnit.Framework;
using OpenMetaverse;
using OpenMetaverse.Assets;
using OpenMetaverse.StructuredData;
using OpenSim.Framework;
using OpenSim.Region.CoreModules.Avatar.AvatarFactory;
using OpenSim.Region.OptionalModules.World.NPC;
using OpenSim.Region.Framework.Scenes;
using OpenSim.Region.ScriptEngine.Shared;
using OpenSim.Region.ScriptEngine.Shared.Api;
using OpenSim.Region.ScriptEngine.Shared.Instance;
using OpenSim.Region.ScriptEngine.Shared.ScriptBase;
using OpenSim.Services.Interfaces;
using OpenSim.Tests.Common;
using LSL_Integer = OpenSim.Region.ScriptEngine.Shared.LSL_Types.LSLInteger;
using LSL_List = OpenSim.Region.ScriptEngine.Shared.LSL_Types.list;
namespace OpenSim.Region.ScriptEngine.Shared.Tests
{
[TestFixture]
public class LSL_ApiObjectTests : OpenSimTestCase
{
private const double VECTOR_COMPONENT_ACCURACY = 0.0000005d;
private const float FLOAT_ACCURACY = 0.00005f;
protected Scene m_scene;
protected XEngine.XEngine m_engine;
[SetUp]
public override void SetUp()
{
base.SetUp();
IConfigSource initConfigSource = new IniConfigSource();
IConfig config = initConfigSource.AddConfig("XEngine");
config.Set("Enabled", "true");
m_scene = new SceneHelpers().SetupScene();
SceneHelpers.SetupSceneModules(m_scene, initConfigSource);
m_engine = new XEngine.XEngine();
m_engine.Initialise(initConfigSource);
m_engine.AddRegion(m_scene);
}
[Test]
public void TestllGetLinkPrimitiveParams()
{
TestHelpers.InMethod();
TestHelpers.EnableLogging();
UUID ownerId = TestHelpers.ParseTail(0x1);
SceneObjectGroup grp1 = SceneHelpers.CreateSceneObject(2, ownerId, "grp1-", 0x10);
grp1.AbsolutePosition = new Vector3(10, 11, 12);
m_scene.AddSceneObject(grp1);
LSL_Api apiGrp1 = new LSL_Api();
apiGrp1.Initialize(m_engine, grp1.RootPart, null, null);
// Check simple 1 prim case
{
LSL_List resList
= apiGrp1.llGetLinkPrimitiveParams(1, new LSL_List(new LSL_Integer(ScriptBaseClass.PRIM_ROTATION)));
Assert.That(resList.Length, Is.EqualTo(1));
}
// Check 2 prim case
{
LSL_List resList
= apiGrp1.llGetLinkPrimitiveParams(
1,
new LSL_List(
new LSL_Integer(ScriptBaseClass.PRIM_ROTATION),
new LSL_Integer(ScriptBaseClass.PRIM_LINK_TARGET),
new LSL_Integer(2),
new LSL_Integer(ScriptBaseClass.PRIM_ROTATION)));
Assert.That(resList.Length, Is.EqualTo(2));
}
// Check invalid parameters are ignored
{
LSL_List resList
= apiGrp1.llGetLinkPrimitiveParams(3, new LSL_List(new LSL_Integer(ScriptBaseClass.PRIM_ROTATION)));
Assert.That(resList.Length, Is.EqualTo(0));
}
// Check all parameters are ignored if an initial bad link is given
{
LSL_List resList
= apiGrp1.llGetLinkPrimitiveParams(
3,
new LSL_List(
new LSL_Integer(ScriptBaseClass.PRIM_ROTATION),
new LSL_Integer(ScriptBaseClass.PRIM_LINK_TARGET),
new LSL_Integer(1),
new LSL_Integer(ScriptBaseClass.PRIM_ROTATION)));
Assert.That(resList.Length, Is.EqualTo(0));
}
// Check only subsequent parameters are ignored when we hit the first bad link number
{
LSL_List resList
= apiGrp1.llGetLinkPrimitiveParams(
1,
new LSL_List(
new LSL_Integer(ScriptBaseClass.PRIM_ROTATION),
new LSL_Integer(ScriptBaseClass.PRIM_LINK_TARGET),
new LSL_Integer(3),
new LSL_Integer(ScriptBaseClass.PRIM_ROTATION)));
Assert.That(resList.Length, Is.EqualTo(1));
}
}
[Test]
// llSetPrimitiveParams and llGetPrimitiveParams test.
public void TestllSetPrimitiveParams()
{
TestHelpers.InMethod();
// Create Prim1.
Scene scene = new SceneHelpers().SetupScene();
string obj1Name = "Prim1";
UUID objUuid = new UUID("00000000-0000-0000-0000-000000000001");
SceneObjectPart part1 =
new SceneObjectPart(UUID.Zero, PrimitiveBaseShape.Default,
Vector3.Zero, Quaternion.Identity,
Vector3.Zero) { Name = obj1Name, UUID = objUuid };
Assert.That(scene.AddNewSceneObject(new SceneObjectGroup(part1), false), Is.True);
LSL_Api apiGrp1 = new LSL_Api();
apiGrp1.Initialize(m_engine, part1, null, null);
// Note that prim hollow check is passed with the other prim params in order to allow the
// specification of a different check value from the prim param. A cylinder, prism, sphere,
// torus or ring, with a hole shape of square, is limited to a hollow of 70%. Test 5 below
// specifies a value of 95% and checks to see if 70% was properly returned.
// Test a sphere.
CheckllSetPrimitiveParams(
apiGrp1,
"test 1", // Prim test identification string
new LSL_Types.Vector3(6.0d, 9.9d, 9.9d), // Prim size
ScriptBaseClass.PRIM_TYPE_SPHERE, // Prim type
ScriptBaseClass.PRIM_HOLE_DEFAULT, // Prim hole type
new LSL_Types.Vector3(0.0d, 0.075d, 0.0d), // Prim cut
0.80f, // Prim hollow
new LSL_Types.Vector3(0.0d, 0.0d, 0.0d), // Prim twist
new LSL_Types.Vector3(0.32d, 0.76d, 0.0d), // Prim dimple
0.80f); // Prim hollow check
// Test a prism.
CheckllSetPrimitiveParams(
apiGrp1,
"test 2", // Prim test identification string
new LSL_Types.Vector3(3.5d, 3.5d, 3.5d), // Prim size
ScriptBaseClass.PRIM_TYPE_PRISM, // Prim type
ScriptBaseClass.PRIM_HOLE_CIRCLE, // Prim hole type
new LSL_Types.Vector3(0.0d, 1.0d, 0.0d), // Prim cut
0.90f, // Prim hollow
new LSL_Types.Vector3(0.0d, 0.0d, 0.0d), // Prim twist
new LSL_Types.Vector3(2.0d, 1.0d, 0.0d), // Prim taper
new LSL_Types.Vector3(0.0d, 0.0d, 0.0d), // Prim shear
0.90f); // Prim hollow check
// Test a box.
CheckllSetPrimitiveParams(
apiGrp1,
"test 3", // Prim test identification string
new LSL_Types.Vector3(3.5d, 3.5d, 3.5d), // Prim size
ScriptBaseClass.PRIM_TYPE_BOX, // Prim type
ScriptBaseClass.PRIM_HOLE_TRIANGLE, // Prim hole type
new LSL_Types.Vector3(0.0d, 1.0d, 0.0d), // Prim cut
0.95f, // Prim hollow
new LSL_Types.Vector3(1.0d, 0.0d, 0.0d), // Prim twist
new LSL_Types.Vector3(1.0d, 1.0d, 0.0d), // Prim taper
new LSL_Types.Vector3(0.0d, 0.0d, 0.0d), // Prim shear
0.95f); // Prim hollow check
// Test a tube.
CheckllSetPrimitiveParams(
apiGrp1,
"test 4", // Prim test identification string
new LSL_Types.Vector3(4.2d, 4.2d, 4.2d), // Prim size
ScriptBaseClass.PRIM_TYPE_TUBE, // Prim type
ScriptBaseClass.PRIM_HOLE_SQUARE, // Prim hole type
new LSL_Types.Vector3(0.0d, 1.0d, 0.0d), // Prim cut
0.00f, // Prim hollow
new LSL_Types.Vector3(1.0d, -1.0d, 0.0d), // Prim twist
new LSL_Types.Vector3(1.0d, 0.05d, 0.0d), // Prim hole size
// Expression for y selected to test precision problems during byte
// cast in SetPrimitiveShapeParams.
new LSL_Types.Vector3(0.0d, 0.35d + 0.1d, 0.0d), // Prim shear
new LSL_Types.Vector3(0.0d, 1.0d, 0.0d), // Prim profile cut
// Expression for y selected to test precision problems during sbyte
// cast in SetPrimitiveShapeParams.
new LSL_Types.Vector3(-1.0d, 0.70d + 0.1d + 0.1d, 0.0d), // Prim taper
1.11f, // Prim revolutions
0.88f, // Prim radius
0.95f, // Prim skew
0.00f); // Prim hollow check
// Test a prism.
CheckllSetPrimitiveParams(
apiGrp1,
"test 5", // Prim test identification string
new LSL_Types.Vector3(3.5d, 3.5d, 3.5d), // Prim size
ScriptBaseClass.PRIM_TYPE_PRISM, // Prim type
ScriptBaseClass.PRIM_HOLE_SQUARE, // Prim hole type
new LSL_Types.Vector3(0.0d, 1.0d, 0.0d), // Prim cut
0.95f, // Prim hollow
// Expression for x selected to test precision problems during sbyte
// cast in SetPrimitiveShapeBlockParams.
new LSL_Types.Vector3(0.7d + 0.2d, 0.0d, 0.0d), // Prim twist
// Expression for y selected to test precision problems during sbyte
// cast in SetPrimitiveShapeParams.
new LSL_Types.Vector3(2.0d, (1.3d + 0.1d), 0.0d), // Prim taper
new LSL_Types.Vector3(0.0d, 0.0d, 0.0d), // Prim shear
0.70f); // Prim hollow check
// Test a sculpted prim.
CheckllSetPrimitiveParams(
apiGrp1,
"test 6", // Prim test identification string
new LSL_Types.Vector3(2.0d, 2.0d, 2.0d), // Prim size
ScriptBaseClass.PRIM_TYPE_SCULPT, // Prim type
"be293869-d0d9-0a69-5989-ad27f1946fd4", // Prim map
ScriptBaseClass.PRIM_SCULPT_TYPE_SPHERE); // Prim sculpt type
}
// Set prim params for a box, cylinder or prism and check results.
public void CheckllSetPrimitiveParams(LSL_Api api, string primTest,
LSL_Types.Vector3 primSize, int primType, int primHoleType, LSL_Types.Vector3 primCut,
float primHollow, LSL_Types.Vector3 primTwist, LSL_Types.Vector3 primTaper, LSL_Types.Vector3 primShear,
float primHollowCheck)
{
// Set the prim params.
api.llSetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, primSize,
ScriptBaseClass.PRIM_TYPE, primType, primHoleType,
primCut, primHollow, primTwist, primTaper, primShear));
// Get params for prim to validate settings.
LSL_Types.list primParams =
api.llGetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, ScriptBaseClass.PRIM_TYPE));
// Validate settings.
CheckllSetPrimitiveParamsVector(primSize, api.llList2Vector(primParams, 0), primTest + " prim size");
Assert.AreEqual(primType, api.llList2Integer(primParams, 1),
"TestllSetPrimitiveParams " + primTest + " prim type check fail");
Assert.AreEqual(primHoleType, api.llList2Integer(primParams, 2),
"TestllSetPrimitiveParams " + primTest + " prim hole default check fail");
CheckllSetPrimitiveParamsVector(primCut, api.llList2Vector(primParams, 3), primTest + " prim cut");
Assert.AreEqual(primHollowCheck, api.llList2Float(primParams, 4), FLOAT_ACCURACY,
"TestllSetPrimitiveParams " + primTest + " prim hollow check fail");
CheckllSetPrimitiveParamsVector(primTwist, api.llList2Vector(primParams, 5), primTest + " prim twist");
CheckllSetPrimitiveParamsVector(primTaper, api.llList2Vector(primParams, 6), primTest + " prim taper");
CheckllSetPrimitiveParamsVector(primShear, api.llList2Vector(primParams, 7), primTest + " prim shear");
}
// Set prim params for a sphere and check results.
public void CheckllSetPrimitiveParams(LSL_Api api, string primTest,
LSL_Types.Vector3 primSize, int primType, int primHoleType, LSL_Types.Vector3 primCut,
float primHollow, LSL_Types.Vector3 primTwist, LSL_Types.Vector3 primDimple, float primHollowCheck)
{
// Set the prim params.
api.llSetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, primSize,
ScriptBaseClass.PRIM_TYPE, primType, primHoleType,
primCut, primHollow, primTwist, primDimple));
// Get params for prim to validate settings.
LSL_Types.list primParams =
api.llGetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, ScriptBaseClass.PRIM_TYPE));
// Validate settings.
CheckllSetPrimitiveParamsVector(primSize, api.llList2Vector(primParams, 0), primTest + " prim size");
Assert.AreEqual(primType, api.llList2Integer(primParams, 1),
"TestllSetPrimitiveParams " + primTest + " prim type check fail");
Assert.AreEqual(primHoleType, api.llList2Integer(primParams, 2),
"TestllSetPrimitiveParams " + primTest + " prim hole default check fail");
CheckllSetPrimitiveParamsVector(primCut, api.llList2Vector(primParams, 3), primTest + " prim cut");
Assert.AreEqual(primHollowCheck, api.llList2Float(primParams, 4), FLOAT_ACCURACY,
"TestllSetPrimitiveParams " + primTest + " prim hollow check fail");
CheckllSetPrimitiveParamsVector(primTwist, api.llList2Vector(primParams, 5), primTest + " prim twist");
CheckllSetPrimitiveParamsVector(primDimple, api.llList2Vector(primParams, 6), primTest + " prim dimple");
}
// Set prim params for a torus, tube or ring and check results.
public void CheckllSetPrimitiveParams(LSL_Api api, string primTest,
LSL_Types.Vector3 primSize, int primType, int primHoleType, LSL_Types.Vector3 primCut,
float primHollow, LSL_Types.Vector3 primTwist, LSL_Types.Vector3 primHoleSize,
LSL_Types.Vector3 primShear, LSL_Types.Vector3 primProfCut, LSL_Types.Vector3 primTaper,
float primRev, float primRadius, float primSkew, float primHollowCheck)
{
// Set the prim params.
api.llSetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, primSize,
ScriptBaseClass.PRIM_TYPE, primType, primHoleType,
primCut, primHollow, primTwist, primHoleSize, primShear, primProfCut,
primTaper, primRev, primRadius, primSkew));
// Get params for prim to validate settings.
LSL_Types.list primParams =
api.llGetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, ScriptBaseClass.PRIM_TYPE));
// Valdate settings.
CheckllSetPrimitiveParamsVector(primSize, api.llList2Vector(primParams, 0), primTest + " prim size");
Assert.AreEqual(primType, api.llList2Integer(primParams, 1),
"TestllSetPrimitiveParams " + primTest + " prim type check fail");
Assert.AreEqual(primHoleType, api.llList2Integer(primParams, 2),
"TestllSetPrimitiveParams " + primTest + " prim hole default check fail");
CheckllSetPrimitiveParamsVector(primCut, api.llList2Vector(primParams, 3), primTest + " prim cut");
Assert.AreEqual(primHollowCheck, api.llList2Float(primParams, 4), FLOAT_ACCURACY,
"TestllSetPrimitiveParams " + primTest + " prim hollow check fail");
CheckllSetPrimitiveParamsVector(primTwist, api.llList2Vector(primParams, 5), primTest + " prim twist");
CheckllSetPrimitiveParamsVector(primHoleSize, api.llList2Vector(primParams, 6), primTest + " prim hole size");
CheckllSetPrimitiveParamsVector(primShear, api.llList2Vector(primParams, 7), primTest + " prim shear");
CheckllSetPrimitiveParamsVector(primProfCut, api.llList2Vector(primParams, 8), primTest + " prim profile cut");
CheckllSetPrimitiveParamsVector(primTaper, api.llList2Vector(primParams, 9), primTest + " prim taper");
Assert.AreEqual(primRev, api.llList2Float(primParams, 10), FLOAT_ACCURACY,
"TestllSetPrimitiveParams " + primTest + " prim revolutions fail");
Assert.AreEqual(primRadius, api.llList2Float(primParams, 11), FLOAT_ACCURACY,
"TestllSetPrimitiveParams " + primTest + " prim radius fail");
Assert.AreEqual(primSkew, api.llList2Float(primParams, 12), FLOAT_ACCURACY,
"TestllSetPrimitiveParams " + primTest + " prim skew fail");
}
// Set prim params for a sculpted prim and check results.
public void CheckllSetPrimitiveParams(LSL_Api api, string primTest,
LSL_Types.Vector3 primSize, int primType, string primMap, int primSculptType)
{
// Set the prim params.
api.llSetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, primSize,
ScriptBaseClass.PRIM_TYPE, primType, primMap, primSculptType));
// Get params for prim to validate settings.
LSL_Types.list primParams =
api.llGetPrimitiveParams(new LSL_Types.list(ScriptBaseClass.PRIM_SIZE, ScriptBaseClass.PRIM_TYPE));
// Validate settings.
CheckllSetPrimitiveParamsVector(primSize, api.llList2Vector(primParams, 0), primTest + " prim size");
Assert.AreEqual(primType, api.llList2Integer(primParams, 1),
"TestllSetPrimitiveParams " + primTest + " prim type check fail");
Assert.AreEqual(primMap, (string)api.llList2String(primParams, 2),
"TestllSetPrimitiveParams " + primTest + " prim map check fail");
Assert.AreEqual(primSculptType, api.llList2Integer(primParams, 3),
"TestllSetPrimitiveParams " + primTest + " prim type scuplt check fail");
}
public void CheckllSetPrimitiveParamsVector(LSL_Types.Vector3 vecCheck, LSL_Types.Vector3 vecReturned, string msg)
{
// Check each vector component against expected result.
Assert.AreEqual(vecCheck.x, vecReturned.x, VECTOR_COMPONENT_ACCURACY,
"TestllSetPrimitiveParams " + msg + " vector check fail on x component");
Assert.AreEqual(vecCheck.y, vecReturned.y, VECTOR_COMPONENT_ACCURACY,
"TestllSetPrimitiveParams " + msg + " vector check fail on y component");
Assert.AreEqual(vecCheck.z, vecReturned.z, VECTOR_COMPONENT_ACCURACY,
"TestllSetPrimitiveParams " + msg + " vector check fail on z component");
}
}
}
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