Planet

navi

home

PPS

about

screenshots

download

development

forum

Context Navigation

source: code/trunk/test/util/MathTest.cc @ 10062

Last change on this file since 10062 was 9114, checked in by landauf, 13 years ago
added tests for several classes and functions in util
Property svn:eol-style set to `native`
File size: 8.2 KB

Line
1	#include <gtest/gtest.h>
2	#include "util/Math.h"
3	#include <cmath>
4
5	namespace orxonox
6	{
7	///////////
8	// sgn() //
9	///////////
10	TEST(sgn, PositiveInt)
11	{
12	EXPECT_EQ(1, sgn( 1));
13	EXPECT_EQ(1, sgn(10));
14	}
15
16	TEST(sgn, PositiveDouble)
17	{
18	EXPECT_DOUBLE_EQ(1.0, sgn( 0.1));
19	EXPECT_DOUBLE_EQ(1.0, sgn( 1.0));
20	EXPECT_DOUBLE_EQ(1.0, sgn(10.0));
21	}
22
23	TEST(sgn, NegativeInt)
24	{
25	EXPECT_EQ(-1, sgn( -1));
26	EXPECT_EQ(-1, sgn(-10));
27	}
28
29	TEST(sgn, NegativeDouble)
30	{
31	EXPECT_DOUBLE_EQ(-1.0, sgn( -0.1));
32	EXPECT_DOUBLE_EQ(-1.0, sgn( -1.0));
33	EXPECT_DOUBLE_EQ(-1.0, sgn(-10.0));
34	}
35
36	TEST(sgn, ZeroInt)
37	{
38	EXPECT_EQ(1, sgn(0));
39	}
40
41	TEST(sgn, ZeroDouble)
42	{
43	EXPECT_DOUBLE_EQ(1.0, sgn(0.0));
44	}
45
46	/////////////
47	// clamp() //
48	/////////////
49	TEST(clamp, InRange)
50	{
51	// positive
52	EXPECT_EQ(10, clamp(10, 10, 20));
53	EXPECT_EQ(15, clamp(15, 10, 20));
54	EXPECT_EQ(20, clamp(20, 10, 20));
55
56	// netagive
57	EXPECT_EQ(-10, clamp(-10, -20, -10));
58	EXPECT_EQ(-15, clamp(-15, -20, -10));
59	EXPECT_EQ(-20, clamp(-20, -20, -10));
60
61	// mixed
62	EXPECT_EQ(-10, clamp(-10, -10, 10));
63	EXPECT_EQ( 0, clamp( 0, -10, 10));
64	EXPECT_EQ( 10, clamp( 10, -10, 10));
65	}
66
67	TEST(clamp, OutOfRange)
68	{
69	// positive
70	EXPECT_EQ(10, clamp( 5, 10, 20));
71	EXPECT_EQ(20, clamp(25, 10, 20));
72
73	// netagive
74	EXPECT_EQ(-10, clamp( -5, -20, -10));
75	EXPECT_EQ(-20, clamp(-25, -20, -10));
76
77	// mixed
78	EXPECT_EQ(-10, clamp(-15, -10, 10));
79	EXPECT_EQ( 10, clamp( 15, -10, 10));
80	}
81
82	//////////////
83	// square() //
84	//////////////
85	TEST(square, Int)
86	{
87	// zero
88	EXPECT_EQ( 0, square(0));
89
90	// positive
91	EXPECT_EQ(1, square(1));
92	EXPECT_EQ(4, square(2));
93	EXPECT_EQ(9, square(3));
94
95	// negative
96	EXPECT_EQ(1, square(-1));
97	EXPECT_EQ(4, square(-2));
98	EXPECT_EQ(9, square(-3));
99	}
100
101	TEST(square, Double)
102	{
103	// zero
104	EXPECT_DOUBLE_EQ( 0.0, square(0.0));
105
106	// positive
107	EXPECT_DOUBLE_EQ( 1.00, square(1.0));
108	EXPECT_DOUBLE_EQ( 2.25, square(1.5));
109	EXPECT_DOUBLE_EQ( 4.00, square(2.0));
110
111	// negative
112	EXPECT_DOUBLE_EQ( 1.00, square(-1.0));
113	EXPECT_DOUBLE_EQ( 2.25, square(-1.5));
114	EXPECT_DOUBLE_EQ( 4.00, square(-2.0));
115	}
116
117	////////////
118	// cube() //
119	////////////
120	TEST(cube, Int)
121	{
122	// zero
123	EXPECT_EQ( 0, cube(0));
124
125	// positive
126	EXPECT_EQ( 1, cube(1));
127	EXPECT_EQ( 8, cube(2));
128	EXPECT_EQ(27, cube(3));
129
130	// negative
131	EXPECT_EQ( -1, cube(-1));
132	EXPECT_EQ( -8, cube(-2));
133	EXPECT_EQ(-27, cube(-3));
134	}
135
136	TEST(cube, Double)
137	{
138	// zero
139	EXPECT_DOUBLE_EQ( 0.0, cube(0.0));
140
141	// positive
142	EXPECT_DOUBLE_EQ( 1.000, cube(1.0));
143	EXPECT_DOUBLE_EQ( 3.375, cube(1.5));
144	EXPECT_DOUBLE_EQ( 8.000, cube(2.0));
145
146	// negative
147	EXPECT_DOUBLE_EQ( -1.000, cube(-1.0));
148	EXPECT_DOUBLE_EQ( -3.375, cube(-1.5));
149	EXPECT_DOUBLE_EQ( -8.000, cube(-2.0));
150	}
151
152	///////////
153	// mod() //
154	///////////
155	TEST(mod, ModOperator)
156	{
157	// zero
158	EXPECT_EQ(0, 0 % 10);
159
160	// positive
161	EXPECT_EQ(1, 1 % 10);
162	EXPECT_EQ(5, 5 % 10);
163	EXPECT_EQ(9, 9 % 10);
164	EXPECT_EQ(0, 10 % 10);
165	EXPECT_EQ(5, 15 % 10);
166
167	// negative
168	EXPECT_EQ(-1, -1 % 10);
169	EXPECT_EQ(-5, -5 % 10);
170	EXPECT_EQ(-9, -9 % 10);
171	EXPECT_EQ( 0, -10 % 10);
172	EXPECT_EQ(-5, -15 % 10);
173	}
174
175	TEST(mod, ModFunction)
176	{
177	// zero
178	EXPECT_EQ(0, mod(0, 10));
179
180	// positive
181	EXPECT_EQ(1, mod( 1, 10));
182	EXPECT_EQ(5, mod( 5, 10));
183	EXPECT_EQ(9, mod( 9, 10));
184	EXPECT_EQ(0, mod(10, 10));
185	EXPECT_EQ(5, mod(15, 10));
186
187	// negative
188	EXPECT_EQ(9, mod( -1, 10));
189	EXPECT_EQ(5, mod( -5, 10));
190	EXPECT_EQ(1, mod( -9, 10));
191	EXPECT_EQ(0, mod(-10, 10));
192	EXPECT_EQ(5, mod(-15, 10));
193	}
194
195	///////////////
196	// zeroise() //
197	///////////////
198	TEST(zeroise, Test)
199	{
200	EXPECT_EQ(0, zeroise<int>());
201	EXPECT_EQ((unsigned int)0, zeroise<unsigned int>());
202	EXPECT_DOUBLE_EQ(0.0, zeroise<double>());
203	EXPECT_EQ("", zeroise<std::string>());
204	EXPECT_EQ(Vector3::ZERO, zeroise<Vector3>());
205	}
206
207	///////////////////
208	// interpolate() //
209	///////////////////
210	TEST(interpolate, Linear)
211	{
212	EXPECT_EQ( 0, interpolate(0.00f, 0, 20));
213	EXPECT_EQ( 5, interpolate(0.25f, 0, 20));
214	EXPECT_EQ(10, interpolate(0.50f, 0, 20));
215	EXPECT_EQ(15, interpolate(0.75f, 0, 20));
216	EXPECT_EQ(20, interpolate(1.00f, 0, 20));
217	}
218
219	TEST(interpolate, Smooth)
220	{
221	EXPECT_EQ( 0, interpolateSmooth(0.00f, 0, 20));
222	EXPECT_GT( 5, interpolateSmooth(0.25f, 0, 20));
223	EXPECT_EQ(10, interpolateSmooth(0.50f, 0, 20));
224	EXPECT_LT(15, interpolateSmooth(0.75f, 0, 20));
225	EXPECT_EQ(20, interpolateSmooth(1.00f, 0, 20));
226	}
227
228	///////////
229	// rnd() //
230	///////////
231	TEST(rnd, Default)
232	{
233	// how to test randomness?
234	std::set<float> numbers;
235
236	const float max = 1.0;
237	const float min = 0.0;
238	const size_t iterations = 1000;
239
240	for (size_t i = 0; i < iterations; ++i)
241	numbers.insert(rnd());
242
243	// must have at most <iterations> numbers in the set
244	EXPECT_GE(iterations, numbers.size());
245
246	// all numbers must satisfy 0 <= <number> < 1
247	for (std::set<float>::iterator it = numbers.begin(); it != numbers.end(); ++it)
248	{
249	EXPECT_LE(min, *it);
250	EXPECT_GT(max, *it);
251	}
252	}
253
254	TEST(rnd, Max)
255	{
256	// how to test randomness?
257	std::set<float> numbers;
258
259	const float max = 10.0;
260	const float min = 0.0;
261	const size_t iterations = 1000;
262
263	for (size_t i = 0; i < iterations; ++i)
264	numbers.insert(rnd(max));
265
266	// must have at most <iterations> numbers in the set
267	EXPECT_GE(iterations, numbers.size());
268
269	// all numbers must satisfy 0 <= <number> < <max>
270	for (std::set<float>::iterator it = numbers.begin(); it != numbers.end(); ++it)
271	{
272	EXPECT_LE(min, *it);
273	EXPECT_GT(max, *it);
274	}
275	}
276
277	TEST(rnd, MinMax)
278	{
279	// how to test randomness?
280	std::set<float> numbers;
281
282	const float max = 10.0;
283	const float min = 5.0;
284	const size_t iterations = 1000;
285
286	for (size_t i = 0; i < iterations; ++i)
287	numbers.insert(rnd(min, max));
288
289	// must have at most <iterations> numbers in the set
290	EXPECT_GE(iterations, numbers.size());
291
292	// all numbers must satisfy <min> <= <number> < <max>
293	for (std::set<float>::iterator it = numbers.begin(); it != numbers.end(); ++it)
294	{
295	EXPECT_LE(min, *it);
296	EXPECT_GT(max, *it);
297	}
298	}
299
300	//////////////
301	// rndsgn() //
302	//////////////
303	TEST(rndsgn, Test)
304	{
305	// how to test randomness?
306	std::set<float> numbers;
307
308	const size_t iterations = 100;
309
310	for (size_t i = 0; i < iterations; ++i)
311	numbers.insert(rndsgn());
312
313	// must have at most 2 numbers in the set
314	EXPECT_GE((size_t)2, numbers.size());
315
316	// all numbers must be either 1 oder -1
317	for (std::set<float>::iterator it = numbers.begin(); it != numbers.end(); ++it)
318	EXPECT_TRUE(it == 1 \|\| it == -1);
319	}
320
321	///////////////////////
322	// getUniqueNumber() //
323	///////////////////////
324	TEST(getUniqueNumber, Test)
325	{
326	std::set<unsigned long> numbers;
327
328	const size_t iterations = 1000;
329
330	for (size_t i = 0; i < iterations; ++i)
331	numbers.insert(getUniqueNumber());
332
333	// must have exactly <iterations> numbers in the set, since all numbers should be unique
334	EXPECT_EQ(iterations, numbers.size());
335	}
336	/*
337	getAngle
338	get2DViewdirection
339	get2DViewcoordinates
340	getPredictedPosition
341	*/
342	}

Note: See TracBrowser for help on using the repository browser.

Download in other formats: