diff options
Diffstat (limited to 'OpenSim')
-rw-r--r-- | OpenSim/Region/ScriptEngine/Shared/Tests/LSL_ApiTest.cs | 97 |
1 files changed, 79 insertions, 18 deletions
diff --git a/OpenSim/Region/ScriptEngine/Shared/Tests/LSL_ApiTest.cs b/OpenSim/Region/ScriptEngine/Shared/Tests/LSL_ApiTest.cs index 0cbad41..7594691 100644 --- a/OpenSim/Region/ScriptEngine/Shared/Tests/LSL_ApiTest.cs +++ b/OpenSim/Region/ScriptEngine/Shared/Tests/LSL_ApiTest.cs | |||
@@ -142,30 +142,91 @@ namespace OpenSim.Region.ScriptEngine.Shared.Tests | |||
142 | public void TestllRot2Euler() | 142 | public void TestllRot2Euler() |
143 | { | 143 | { |
144 | // 180, 90 and zero degree rotations. | 144 | // 180, 90 and zero degree rotations. |
145 | CheckllRot2Euler(new LSL_Types.Quaternion(1.0f, 0.0f, 0.0f, 0.0f), new LSL_Types.Vector3(Math.PI, 0.0f, 0.0f)); | 145 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 0.0f, 0.0f, 1.0f)); |
146 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 1.0f, 0.0f, 0.0f), new LSL_Types.Vector3(Math.PI, 0.0f, Math.PI)); | 146 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 0.0f, 0.707107f, 0.707107f)); |
147 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 0.0f, 1.0f, 0.0f), new LSL_Types.Vector3(0.0f, 0.0f, Math.PI)); | 147 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 0.0f, 1.0f, 0.0f)); |
148 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 0.0f, 0.0f, 1.0f), new LSL_Types.Vector3(0.0f, 0.0f, 0.0f)); | 148 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, 0.0f, 0.707107f, -0.707107f)); |
149 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, -0.5f, 0.5f, 0.5f), new LSL_Types.Vector3(0, -Math.PI / 2.0f, Math.PI / 2.0f)); | 149 | CheckllRot2Euler(new LSL_Types.Quaternion(0.707107f, 0.0f, 0.0f, 0.707107f)); |
150 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.707107f, 0.0f, 0.0f, -0.707107f), new LSL_Types.Vector3(Math.PI / 2.0f, 0.0f, 0.0f)); | 150 | CheckllRot2Euler(new LSL_Types.Quaternion(0.5f, -0.5f, 0.5f, 0.5f)); |
151 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, -0.707107f, 0.707107f, 0.0f)); | ||
152 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, -0.5f, 0.5f, -0.5f)); | ||
153 | CheckllRot2Euler(new LSL_Types.Quaternion(1.0f, 0.0f, 0.0f, 0.0f)); | ||
154 | CheckllRot2Euler(new LSL_Types.Quaternion(0.707107f, -0.707107f, 0.0f, 0.0f)); | ||
155 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, -1.0f, 0.0f, 0.0f)); | ||
156 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.707107f, -0.707107f, 0.0f, 0.0f)); | ||
157 | CheckllRot2Euler(new LSL_Types.Quaternion(0.707107f, 0.0f, 0.0f, -0.707107f)); | ||
158 | CheckllRot2Euler(new LSL_Types.Quaternion(0.5f, -0.5f, -0.5f, -0.5f)); | ||
159 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, -0.707107f, -0.707107f, 0.0f)); | ||
160 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, -0.5f, -0.5f, 0.5f)); | ||
161 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, -0.707107f, 0.0f, 0.707107f)); | ||
162 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, -0.5f, 0.5f, 0.5f)); | ||
163 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.707107f, 0.0f, 0.707107f, 0.0f)); | ||
164 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, 0.5f, 0.5f, -0.5f)); | ||
165 | CheckllRot2Euler(new LSL_Types.Quaternion(0.0f, -0.707107f, 0.0f, -0.707107f)); | ||
166 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, -0.5f, -0.5f, -0.5f)); | ||
167 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.707107f, 0.0f, -0.707107f, 0.0f)); | ||
168 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.5f, 0.5f, -0.5f, 0.5f)); | ||
169 | |||
151 | // A couple of messy rotations. | 170 | // A couple of messy rotations. |
152 | CheckllRot2Euler(new LSL_Types.Quaternion(1.0f, 5.651f, -3.1f, 67.023f), new LSL_Types.Vector3(0.037818f, 0.166447f, -0.095595f)); | 171 | CheckllRot2Euler(new LSL_Types.Quaternion(1.0f, 5.651f, -3.1f, 67.023f)); |
153 | CheckllRot2Euler(new LSL_Types.Quaternion(0.719188f, -0.408934f, -0.363998f, -0.427841f), new LSL_Types.Vector3(-1.954769f, -0.174533f, 1.151917f)); | 172 | CheckllRot2Euler(new LSL_Types.Quaternion(0.719188f, -0.408934f, -0.363998f, -0.427841f)); |
173 | |||
174 | // Some deliberately malicious rotations (intended on provoking singularity errors) | ||
175 | // The "f" suffexes are deliberately omitted. | ||
176 | CheckllRot2Euler(new LSL_Types.Quaternion(0.50001f, 0.50001f, 0.50001f, 0.50001f)); | ||
177 | // More malice. The "f" suffixes are deliberately omitted. | ||
178 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.701055, 0.092296, 0.701055, -0.092296)); | ||
179 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.183005, -0.683010, 0.183005, 0.683010)); | ||
180 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.430460, -0.560982, 0.430460, 0.560982)); | ||
181 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.701066, 0.092301, -0.701066, 0.092301)); | ||
182 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.183013, -0.683010, 0.183013, 0.683010)); | ||
183 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.183005, -0.683014, -0.183005, -0.683014)); | ||
184 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.353556, 0.612375, 0.353556, -0.612375)); | ||
185 | CheckllRot2Euler(new LSL_Types.Quaternion(0.353554, -0.612385, -0.353554, 0.612385)); | ||
186 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.560989, 0.430450, 0.560989, -0.430450)); | ||
187 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.183013, 0.683009, -0.183013, 0.683009)); | ||
188 | CheckllRot2Euler(new LSL_Types.Quaternion(0.430457, -0.560985, -0.430457, 0.560985)); | ||
189 | CheckllRot2Euler(new LSL_Types.Quaternion(0.353552, 0.612360, -0.353552, -0.612360)); | ||
190 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.499991, 0.500003, 0.499991, -0.500003)); | ||
191 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.353555, -0.612385, -0.353555, -0.612385)); | ||
192 | CheckllRot2Euler(new LSL_Types.Quaternion(0.701066, -0.092301, -0.701066, 0.092301)); | ||
193 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.499991, 0.500007, 0.499991, -0.500007)); | ||
194 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.683002, 0.183016, -0.683002, 0.183016)); | ||
195 | CheckllRot2Euler(new LSL_Types.Quaternion(0.430458, 0.560982, 0.430458, 0.560982)); | ||
196 | CheckllRot2Euler(new LSL_Types.Quaternion(0.499991, -0.500003, -0.499991, 0.500003)); | ||
197 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.183009, 0.683011, -0.183009, 0.683011)); | ||
198 | CheckllRot2Euler(new LSL_Types.Quaternion(0.560975, -0.430457, 0.560975, -0.430457)); | ||
199 | CheckllRot2Euler(new LSL_Types.Quaternion(0.701055, 0.092300, 0.701055, 0.092300)); | ||
200 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.560990, 0.430459, -0.560990, 0.430459)); | ||
201 | CheckllRot2Euler(new LSL_Types.Quaternion(-0.092302, -0.701059, -0.092302, -0.701059)); | ||
154 | } | 202 | } |
155 | 203 | ||
156 | private void CheckllRot2Euler(LSL_Types.Quaternion rot, LSL_Types.Vector3 eulerCheck) | 204 | // Testing Rot2Euler this way instead of comparing against expected angles because |
205 | // 1. There are several ways to get to the original Quaternion. For example a rotation | ||
206 | // of PI and -PI will give the same result. But PI and -PI aren't equal. | ||
207 | // 2. This method checks to see if the calculated angles from a quaternion can be used | ||
208 | // to create a new quaternion to produce the same rotation. | ||
209 | // However, can't compare the newly calculated quaternion against the original because | ||
210 | // once again, there are multiple quaternions that give the same result. For instance | ||
211 | // <X, Y, Z, S> == <-X, -Y, -Z, -S>. Additionally, the magnitude of S can be changed | ||
212 | // and will still result in the same rotation if the values for X, Y, Z are also changed | ||
213 | // to compensate. | ||
214 | // However, if two quaternions represent the same rotation, then multiplying the first | ||
215 | // quaternion by the conjugate of the second, will give a third quaternion representing | ||
216 | // a zero rotation. This can be tested for by looking at the X, Y, Z values which should | ||
217 | // be zero. | ||
218 | private void CheckllRot2Euler(LSL_Types.Quaternion rot) | ||
157 | { | 219 | { |
158 | // Call LSL function to convert quaternion rotaion to euler radians. | 220 | // Call LSL function to convert quaternion rotaion to euler radians. |
159 | LSL_Types.Vector3 eulerCalc = m_lslApi.llRot2Euler(rot); | 221 | LSL_Types.Vector3 eulerCalc = m_lslApi.llRot2Euler(rot); |
160 | // Check upper and lower bounds of x, y and z. | 222 | // Now use the euler radians to recalculate a new quaternion rotation |
161 | // This type of check is performed as opposed to comparing for equal numbers, in order to allow slight | 223 | LSL_Types.Quaternion newRot = m_lslApi.llEuler2Rot(eulerCalc); |
162 | // differences in accuracy. | 224 | // Multiple original quaternion by conjugate of quaternion calculated with angles. |
163 | Assert.Greater(eulerCalc.x, eulerCheck.x - ANGLE_ACCURACY_IN_RADIANS, "TestllRot2Euler X lower bounds check fail"); | 225 | LSL_Types.Quaternion check = rot * new LSL_Types.Quaternion(-newRot.x, -newRot.y, -newRot.z, newRot.s); |
164 | Assert.Less(eulerCalc.x, eulerCheck.x + ANGLE_ACCURACY_IN_RADIANS, "TestllRot2Euler X upper bounds check fail"); | 226 | |
165 | Assert.Greater(eulerCalc.y, eulerCheck.y - ANGLE_ACCURACY_IN_RADIANS, "TestllRot2Euler Y lower bounds check fail"); | 227 | Assert.AreEqual(0.0, check.x, VECTOR_COMPONENT_ACCURACY, "TestllRot2Euler X bounds check fail"); |
166 | Assert.Less(eulerCalc.y, eulerCheck.y + ANGLE_ACCURACY_IN_RADIANS, "TestllRot2Euler Y upper bounds check fail"); | 228 | Assert.AreEqual(0.0, check.y, VECTOR_COMPONENT_ACCURACY, "TestllRot2Euler Y bounds check fail"); |
167 | Assert.Greater(eulerCalc.z, eulerCheck.z - ANGLE_ACCURACY_IN_RADIANS, "TestllRot2Euler Z lower bounds check fail"); | 229 | Assert.AreEqual(0.0, check.z, VECTOR_COMPONENT_ACCURACY, "TestllRot2Euler Z bounds check fail"); |
168 | Assert.Less(eulerCalc.z, eulerCheck.z + ANGLE_ACCURACY_IN_RADIANS, "TestllRot2Euler Z upper bounds check fail"); | ||
169 | } | 230 | } |
170 | 231 | ||
171 | [Test] | 232 | [Test] |