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1 /*
2  * Copyright 2013 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #define LOG_TAG "QuatTest"
18 
19 #include <math.h>
20 #include <stdlib.h>
21 
22 #include <random>
23 #include <functional>
24 
25 #include <math/quat.h>
26 #include <math/mat4.h>
27 #include <math/vec3.h>
28 #include <math/vec4.h>
29 
30 #include <gtest/gtest.h>
31 
32 namespace android {
33 
34 class QuatTest : public testing::Test {
35 protected:
36 };
37 
TEST_F(QuatTest,Basics)38 TEST_F(QuatTest, Basics) {
39     quatd q;
40     double4& v(q.xyzw);
41 
42     EXPECT_EQ(sizeof(quatd), sizeof(double)*4);
43     EXPECT_EQ(reinterpret_cast<void*>(&q), reinterpret_cast<void*>(&v));
44 }
45 
TEST_F(QuatTest,Constructors)46 TEST_F(QuatTest, Constructors) {
47     quatd q0;
48     EXPECT_EQ(q0.x, 0);
49     EXPECT_EQ(q0.y, 0);
50     EXPECT_EQ(q0.z, 0);
51     EXPECT_EQ(q0.w, 0);
52 
53     quatd q1(1);
54     EXPECT_EQ(q1.x, 0);
55     EXPECT_EQ(q1.y, 0);
56     EXPECT_EQ(q1.z, 0);
57     EXPECT_EQ(q1.w, 1);
58 
59     quatd q2(1, 2, 3, 4);
60     EXPECT_EQ(q2.x, 2);
61     EXPECT_EQ(q2.y, 3);
62     EXPECT_EQ(q2.z, 4);
63     EXPECT_EQ(q2.w, 1);
64 
65     quatd q3(q2);
66     EXPECT_EQ(q3.x, 2);
67     EXPECT_EQ(q3.y, 3);
68     EXPECT_EQ(q3.z, 4);
69     EXPECT_EQ(q3.w, 1);
70 
71     quatd q4(q3.xyz, 42);
72     EXPECT_EQ(q4.x, 2);
73     EXPECT_EQ(q4.y, 3);
74     EXPECT_EQ(q4.z, 4);
75     EXPECT_EQ(q4.w, 42);
76 
77     quatd q5(double3(q2.xy, 42), 24);
78     EXPECT_EQ(q5.x, 2);
79     EXPECT_EQ(q5.y, 3);
80     EXPECT_EQ(q5.z, 42);
81     EXPECT_EQ(q5.w, 24);
82 
83     quatd q6;
84     q6 = 12;
85     EXPECT_EQ(q6.x, 0);
86     EXPECT_EQ(q6.y, 0);
87     EXPECT_EQ(q6.z, 0);
88     EXPECT_EQ(q6.w, 12);
89 
90     quatd q7 = 1 + 2_id + 3_jd + 4_kd;
91     EXPECT_EQ(q7.x, 2);
92     EXPECT_EQ(q7.y, 3);
93     EXPECT_EQ(q7.z, 4);
94     EXPECT_EQ(q7.w, 1);
95 
96     quatf qf(2);
97     EXPECT_EQ(qf.x, 0);
98     EXPECT_EQ(qf.y, 0);
99     EXPECT_EQ(qf.z, 0);
100     EXPECT_EQ(qf.w, 2);
101 }
102 
TEST_F(QuatTest,Access)103 TEST_F(QuatTest, Access) {
104     quatd q0(1, 2, 3, 4);
105     q0.x = 10;
106     q0.y = 20;
107     q0.z = 30;
108     q0.w = 40;
109     EXPECT_EQ(q0.x, 10);
110     EXPECT_EQ(q0.y, 20);
111     EXPECT_EQ(q0.z, 30);
112     EXPECT_EQ(q0.w, 40);
113 
114     q0[0] = 100;
115     q0[1] = 200;
116     q0[2] = 300;
117     q0[3] = 400;
118     EXPECT_EQ(q0.x, 100);
119     EXPECT_EQ(q0.y, 200);
120     EXPECT_EQ(q0.z, 300);
121     EXPECT_EQ(q0.w, 400);
122 
123     q0.xyz = double3(1, 2, 3);
124     EXPECT_EQ(q0.x, 1);
125     EXPECT_EQ(q0.y, 2);
126     EXPECT_EQ(q0.z, 3);
127     EXPECT_EQ(q0.w, 400);
128 }
129 
TEST_F(QuatTest,UnaryOps)130 TEST_F(QuatTest, UnaryOps) {
131     quatd q0(1, 2, 3, 4);
132 
133     q0 += 1;
134     EXPECT_EQ(q0.x, 2);
135     EXPECT_EQ(q0.y, 3);
136     EXPECT_EQ(q0.z, 4);
137     EXPECT_EQ(q0.w, 2);
138 
139     q0 -= 1;
140     EXPECT_EQ(q0.x, 2);
141     EXPECT_EQ(q0.y, 3);
142     EXPECT_EQ(q0.z, 4);
143     EXPECT_EQ(q0.w, 1);
144 
145     q0 *= 2;
146     EXPECT_EQ(q0.x, 4);
147     EXPECT_EQ(q0.y, 6);
148     EXPECT_EQ(q0.z, 8);
149     EXPECT_EQ(q0.w, 2);
150 
151     q0 /= 2;
152     EXPECT_EQ(q0.x, 2);
153     EXPECT_EQ(q0.y, 3);
154     EXPECT_EQ(q0.z, 4);
155     EXPECT_EQ(q0.w, 1);
156 
157     quatd q1(10, 20, 30, 40);
158 
159     q0 += q1;
160     EXPECT_EQ(q0.x, 22);
161     EXPECT_EQ(q0.y, 33);
162     EXPECT_EQ(q0.z, 44);
163     EXPECT_EQ(q0.w, 11);
164 
165     q0 -= q1;
166     EXPECT_EQ(q0.x, 2);
167     EXPECT_EQ(q0.y, 3);
168     EXPECT_EQ(q0.z, 4);
169     EXPECT_EQ(q0.w, 1);
170 
171     q1 = -q1;
172     EXPECT_EQ(q1.x, -20);
173     EXPECT_EQ(q1.y, -30);
174     EXPECT_EQ(q1.z, -40);
175     EXPECT_EQ(q1.w, -10);
176 
177     // TODO(mathias): multiplies
178 }
179 
TEST_F(QuatTest,ComparisonOps)180 TEST_F(QuatTest, ComparisonOps) {
181     quatd q0(1, 2, 3, 4);
182     quatd q1(10, 20, 30, 40);
183 
184     EXPECT_TRUE(q0 == q0);
185     EXPECT_TRUE(q0 != q1);
186     EXPECT_FALSE(q0 != q0);
187     EXPECT_FALSE(q0 == q1);
188 }
189 
TEST_F(QuatTest,ArithmeticOps)190 TEST_F(QuatTest, ArithmeticOps) {
191     quatd q0(1, 2, 3, 4);
192     quatd q1(10, 20, 30, 40);
193 
194     quatd q2(q0 + q1);
195     EXPECT_EQ(q2.x, 22);
196     EXPECT_EQ(q2.y, 33);
197     EXPECT_EQ(q2.z, 44);
198     EXPECT_EQ(q2.w, 11);
199 
200     q0 = q1 * 2;
201     EXPECT_EQ(q0.x, 40);
202     EXPECT_EQ(q0.y, 60);
203     EXPECT_EQ(q0.z, 80);
204     EXPECT_EQ(q0.w, 20);
205 
206     q0 = 2 * q1;
207     EXPECT_EQ(q0.x, 40);
208     EXPECT_EQ(q0.y, 60);
209     EXPECT_EQ(q0.z, 80);
210     EXPECT_EQ(q0.w, 20);
211 
212     quatf qf(2);
213     q0 = q1 * qf;
214     EXPECT_EQ(q0.x, 40);
215     EXPECT_EQ(q0.y, 60);
216     EXPECT_EQ(q0.z, 80);
217     EXPECT_EQ(q0.w, 20);
218 
219     EXPECT_EQ(1_id * 1_id, quat(-1));
220     EXPECT_EQ(1_jd * 1_jd, quat(-1));
221     EXPECT_EQ(1_kd * 1_kd, quat(-1));
222     EXPECT_EQ(1_id * 1_jd * 1_kd, quat(-1));
223 }
224 
TEST_F(QuatTest,ArithmeticFunc)225 TEST_F(QuatTest, ArithmeticFunc) {
226     quatd q(1, 2, 3, 4);
227     quatd qc(conj(q));
228     __attribute__((unused)) quatd qi(inverse(q));
229     quatd qn(normalize(q));
230 
231     EXPECT_EQ(qc.x, -2);
232     EXPECT_EQ(qc.y, -3);
233     EXPECT_EQ(qc.z, -4);
234     EXPECT_EQ(qc.w,  1);
235 
236     EXPECT_EQ(~q, qc);
237     EXPECT_EQ(length(q), length(qc));
238     EXPECT_EQ(sqrt(30), length(q));
239     EXPECT_FLOAT_EQ(1, length(qn));
240     EXPECT_FLOAT_EQ(1, dot(qn, qn));
241 
242     quatd qr = quatd::fromAxisAngle(double3(0, 0, 1), M_PI / 2);
243     EXPECT_EQ(mat4d(qr).toQuaternion(), qr);
244     EXPECT_EQ(1_id, mat4d(1_id).toQuaternion());
245     EXPECT_EQ(1_jd, mat4d(1_jd).toQuaternion());
246     EXPECT_EQ(1_kd, mat4d(1_kd).toQuaternion());
247 
248 
249     EXPECT_EQ(qr, log(exp(qr)));
250 
251     quatd qq = qr * qr;
252     quatd q2 = pow(qr, 2);
253     EXPECT_NEAR(qq.x, q2.x, 1e-15);
254     EXPECT_NEAR(qq.y, q2.y, 1e-15);
255     EXPECT_NEAR(qq.z, q2.z, 1e-15);
256     EXPECT_NEAR(qq.w, q2.w, 1e-15);
257 
258     quatd qa = quatd::fromAxisAngle(double3(0, 0, 1), 0);
259     quatd qb = quatd::fromAxisAngle(double3(0, 0, 1), M_PI / 2);
260     quatd qs = slerp(qa, qb, 0.5);
261     qr = quatd::fromAxisAngle(double3(0, 0, 1), M_PI / 4);
262     EXPECT_FLOAT_EQ(qr.x, qs.x);
263     EXPECT_FLOAT_EQ(qr.y, qs.y);
264     EXPECT_FLOAT_EQ(qr.z, qs.z);
265     EXPECT_FLOAT_EQ(qr.w, qs.w);
266 
267     qs = nlerp(qa, qb, 0.5);
268     EXPECT_FLOAT_EQ(qr.x, qs.x);
269     EXPECT_FLOAT_EQ(qr.y, qs.y);
270     EXPECT_FLOAT_EQ(qr.z, qs.z);
271     EXPECT_FLOAT_EQ(qr.w, qs.w);
272 }
273 
TEST_F(QuatTest,MultiplicationExhaustive)274 TEST_F(QuatTest, MultiplicationExhaustive) {
275     static constexpr double value_eps = double(1000) * std::numeric_limits<double>::epsilon();
276 
277     std::default_random_engine generator(171717);
278     std::uniform_real_distribution<double> distribution(-10.0, 10.0);
279     auto rand_gen = std::bind(distribution, generator);
280 
281     for (size_t i = 0; i < (1024 * 1024); ++i) {
282         double3 axis_a = normalize(double3(rand_gen(), rand_gen(), rand_gen()));
283         double angle_a = rand_gen();
284         quatd a = quatd::fromAxisAngle(axis_a, angle_a);
285 
286         double3 axis_b = normalize(double3(rand_gen(), rand_gen(), rand_gen()));
287         double angle_b = rand_gen();
288         quatd b = quatd::fromAxisAngle(axis_b, angle_b);
289 
290         quatd ab = a * b;
291         quatd ab_other(a.w * b.xyz + b.w * a.xyz + cross(a.xyz, b.xyz),
292             (a.w * b.w) - dot(a.xyz, b.xyz));
293 
294         ASSERT_NEAR(ab.x, ab_other.x, value_eps);
295         ASSERT_NEAR(ab.y, ab_other.y, value_eps);
296         ASSERT_NEAR(ab.z, ab_other.z, value_eps);
297         ASSERT_NEAR(ab.w, ab_other.w, value_eps);
298     }
299 }
300 
301 }; // namespace android
302