Chromium Code Reviews
chromiumcodereview-hr@appspot.gserviceaccount.com (chromiumcodereview-hr) | Please choose your nickname with Settings | Help | Chromium Project | Gerrit Changes | Sign out
(742)

Issues Search
    My Issues | Starred     Open | Closed | All

Side by Side Diff: ui/gfx/quad_unittest.cc

Issue 109433013: Move geometric types to a separate, more lightweight target. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src
Patch Set: . Created 7 years ago
Use n/p to move between diff chunks; N/P to move between comments. Draft comments are only viewable by you.
Jump to:
View unified diff | Download patch | Annotate | Revision Log
« ui/aura/aura.gyp ('K') | « ui/gfx/quad_f.cc ('k') | ui/gfx/rect.h » ('j') | no next file with comments »
Toggle Intra-line Diffs ('i') | Expand Comments ('e') | Collapse Comments ('c') | Show Comments Hide Comments ('s')
OLDNEW
(Empty)
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4
5 #include "ui/gfx/quad_f.h"
6
7 #include "base/basictypes.h"
8 #include "testing/gtest/include/gtest/gtest.h"
9 #include "ui/gfx/rect_f.h"
10
11 namespace gfx {
12
13 TEST(QuadTest, Construction) {
14 // Verify constructors.
15 PointF a(1, 1);
16 PointF b(2, 1);
17 PointF c(2, 2);
18 PointF d(1, 2);
19 PointF e;
20 QuadF q1;
21 QuadF q2(e, e, e, e);
22 QuadF q3(a, b, c, d);
23 QuadF q4(BoundingRect(a, c));
24 EXPECT_EQ(q1.ToString(), q2.ToString());
25 EXPECT_EQ(q3.ToString(), q4.ToString());
26
27 // Verify getters.
28 EXPECT_EQ(q3.p1().ToString(), a.ToString());
29 EXPECT_EQ(q3.p2().ToString(), b.ToString());
30 EXPECT_EQ(q3.p3().ToString(), c.ToString());
31 EXPECT_EQ(q3.p4().ToString(), d.ToString());
32
33 // Verify setters.
34 q3.set_p1(b);
35 q3.set_p2(c);
36 q3.set_p3(d);
37 q3.set_p4(a);
38 EXPECT_EQ(q3.p1().ToString(), b.ToString());
39 EXPECT_EQ(q3.p2().ToString(), c.ToString());
40 EXPECT_EQ(q3.p3().ToString(), d.ToString());
41 EXPECT_EQ(q3.p4().ToString(), a.ToString());
42
43 // Verify operator=(Rect)
44 EXPECT_NE(q1.ToString(), q4.ToString());
45 q1 = BoundingRect(a, c);
46 EXPECT_EQ(q1.ToString(), q4.ToString());
47
48 // Verify operator=(Quad)
49 EXPECT_NE(q1.ToString(), q3.ToString());
50 q1 = q3;
51 EXPECT_EQ(q1.ToString(), q3.ToString());
52 }
53
54 TEST(QuadTest, AddingVectors) {
55 PointF a(1, 1);
56 PointF b(2, 1);
57 PointF c(2, 2);
58 PointF d(1, 2);
59 Vector2dF v(3.5f, -2.5f);
60
61 QuadF q1(a, b, c, d);
62 QuadF added = q1 + v;
63 q1 += v;
64 QuadF expected1(PointF(4.5f, -1.5f),
65 PointF(5.5f, -1.5f),
66 PointF(5.5f, -0.5f),
67 PointF(4.5f, -0.5f));
68 EXPECT_EQ(expected1.ToString(), added.ToString());
69 EXPECT_EQ(expected1.ToString(), q1.ToString());
70
71 QuadF q2(a, b, c, d);
72 QuadF subtracted = q2 - v;
73 q2 -= v;
74 QuadF expected2(PointF(-2.5f, 3.5f),
75 PointF(-1.5f, 3.5f),
76 PointF(-1.5f, 4.5f),
77 PointF(-2.5f, 4.5f));
78 EXPECT_EQ(expected2.ToString(), subtracted.ToString());
79 EXPECT_EQ(expected2.ToString(), q2.ToString());
80
81 QuadF q3(a, b, c, d);
82 q3 += v;
83 q3 -= v;
84 EXPECT_EQ(QuadF(a, b, c, d).ToString(), q3.ToString());
85 EXPECT_EQ(q3.ToString(), (q3 + v - v).ToString());
86 }
87
88 TEST(QuadTest, IsRectilinear) {
89 PointF a(1, 1);
90 PointF b(2, 1);
91 PointF c(2, 2);
92 PointF d(1, 2);
93 Vector2dF v(3.5f, -2.5f);
94
95 EXPECT_TRUE(QuadF().IsRectilinear());
96 EXPECT_TRUE(QuadF(a, b, c, d).IsRectilinear());
97 EXPECT_TRUE((QuadF(a, b, c, d) + v).IsRectilinear());
98
99 float epsilon = std::numeric_limits<float>::epsilon();
100 PointF a2(1 + epsilon / 2, 1 + epsilon / 2);
101 PointF b2(2 + epsilon / 2, 1 + epsilon / 2);
102 PointF c2(2 + epsilon / 2, 2 + epsilon / 2);
103 PointF d2(1 + epsilon / 2, 2 + epsilon / 2);
104 EXPECT_TRUE(QuadF(a2, b, c, d).IsRectilinear());
105 EXPECT_TRUE((QuadF(a2, b, c, d) + v).IsRectilinear());
106 EXPECT_TRUE(QuadF(a, b2, c, d).IsRectilinear());
107 EXPECT_TRUE((QuadF(a, b2, c, d) + v).IsRectilinear());
108 EXPECT_TRUE(QuadF(a, b, c2, d).IsRectilinear());
109 EXPECT_TRUE((QuadF(a, b, c2, d) + v).IsRectilinear());
110 EXPECT_TRUE(QuadF(a, b, c, d2).IsRectilinear());
111 EXPECT_TRUE((QuadF(a, b, c, d2) + v).IsRectilinear());
112
113 struct {
114 PointF a_off, b_off, c_off, d_off;
115 } tests[] = {
116 {
117 PointF(1, 1.00001f),
118 PointF(2, 1.00001f),
119 PointF(2, 2.00001f),
120 PointF(1, 2.00001f)
121 },
122 {
123 PointF(1.00001f, 1),
124 PointF(2.00001f, 1),
125 PointF(2.00001f, 2),
126 PointF(1.00001f, 2)
127 },
128 {
129 PointF(1.00001f, 1.00001f),
130 PointF(2.00001f, 1.00001f),
131 PointF(2.00001f, 2.00001f),
132 PointF(1.00001f, 2.00001f)
133 },
134 {
135 PointF(1, 0.99999f),
136 PointF(2, 0.99999f),
137 PointF(2, 1.99999f),
138 PointF(1, 1.99999f)
139 },
140 {
141 PointF(0.99999f, 1),
142 PointF(1.99999f, 1),
143 PointF(1.99999f, 2),
144 PointF(0.99999f, 2)
145 },
146 {
147 PointF(0.99999f, 0.99999f),
148 PointF(1.99999f, 0.99999f),
149 PointF(1.99999f, 1.99999f),
150 PointF(0.99999f, 1.99999f)
151 }
152 };
153
154 for (size_t i = 0; i < ARRAYSIZE_UNSAFE(tests); ++i) {
155 PointF a_off = tests[i].a_off;
156 PointF b_off = tests[i].b_off;
157 PointF c_off = tests[i].c_off;
158 PointF d_off = tests[i].d_off;
159
160 EXPECT_FALSE(QuadF(a_off, b, c, d).IsRectilinear());
161 EXPECT_FALSE((QuadF(a_off, b, c, d) + v).IsRectilinear());
162 EXPECT_FALSE(QuadF(a, b_off, c, d).IsRectilinear());
163 EXPECT_FALSE((QuadF(a, b_off, c, d) + v).IsRectilinear());
164 EXPECT_FALSE(QuadF(a, b, c_off, d).IsRectilinear());
165 EXPECT_FALSE((QuadF(a, b, c_off, d) + v).IsRectilinear());
166 EXPECT_FALSE(QuadF(a, b, c, d_off).IsRectilinear());
167 EXPECT_FALSE((QuadF(a, b, c, d_off) + v).IsRectilinear());
168 EXPECT_FALSE(QuadF(a_off, b, c_off, d).IsRectilinear());
169 EXPECT_FALSE((QuadF(a_off, b, c_off, d) + v).IsRectilinear());
170 EXPECT_FALSE(QuadF(a, b_off, c, d_off).IsRectilinear());
171 EXPECT_FALSE((QuadF(a, b_off, c, d_off) + v).IsRectilinear());
172 EXPECT_FALSE(QuadF(a, b_off, c_off, d_off).IsRectilinear());
173 EXPECT_FALSE((QuadF(a, b_off, c_off, d_off) + v).IsRectilinear());
174 EXPECT_FALSE(QuadF(a_off, b, c_off, d_off).IsRectilinear());
175 EXPECT_FALSE((QuadF(a_off, b, c_off, d_off) + v).IsRectilinear());
176 EXPECT_FALSE(QuadF(a_off, b_off, c, d_off).IsRectilinear());
177 EXPECT_FALSE((QuadF(a_off, b_off, c, d_off) + v).IsRectilinear());
178 EXPECT_FALSE(QuadF(a_off, b_off, c_off, d).IsRectilinear());
179 EXPECT_FALSE((QuadF(a_off, b_off, c_off, d) + v).IsRectilinear());
180 EXPECT_TRUE(QuadF(a_off, b_off, c_off, d_off).IsRectilinear());
181 EXPECT_TRUE((QuadF(a_off, b_off, c_off, d_off) + v).IsRectilinear());
182 }
183 }
184
185 TEST(QuadTest, IsCounterClockwise) {
186 PointF a1(1, 1);
187 PointF b1(2, 1);
188 PointF c1(2, 2);
189 PointF d1(1, 2);
190 EXPECT_FALSE(QuadF(a1, b1, c1, d1).IsCounterClockwise());
191 EXPECT_FALSE(QuadF(b1, c1, d1, a1).IsCounterClockwise());
192 EXPECT_TRUE(QuadF(a1, d1, c1, b1).IsCounterClockwise());
193 EXPECT_TRUE(QuadF(c1, b1, a1, d1).IsCounterClockwise());
194
195 // Slightly more complicated quads should work just as easily.
196 PointF a2(1.3f, 1.4f);
197 PointF b2(-0.7f, 4.9f);
198 PointF c2(1.8f, 6.2f);
199 PointF d2(2.1f, 1.6f);
200 EXPECT_TRUE(QuadF(a2, b2, c2, d2).IsCounterClockwise());
201 EXPECT_TRUE(QuadF(b2, c2, d2, a2).IsCounterClockwise());
202 EXPECT_FALSE(QuadF(a2, d2, c2, b2).IsCounterClockwise());
203 EXPECT_FALSE(QuadF(c2, b2, a2, d2).IsCounterClockwise());
204
205 // Quads with 3 collinear points should work correctly, too.
206 PointF a3(0, 0);
207 PointF b3(1, 0);
208 PointF c3(2, 0);
209 PointF d3(1, 1);
210 EXPECT_FALSE(QuadF(a3, b3, c3, d3).IsCounterClockwise());
211 EXPECT_FALSE(QuadF(b3, c3, d3, a3).IsCounterClockwise());
212 EXPECT_TRUE(QuadF(a3, d3, c3, b3).IsCounterClockwise());
213 // The next expectation in particular would fail for an implementation
214 // that incorrectly uses only a cross product of the first 3 vertices.
215 EXPECT_TRUE(QuadF(c3, b3, a3, d3).IsCounterClockwise());
216
217 // Non-convex quads should work correctly, too.
218 PointF a4(0, 0);
219 PointF b4(1, 1);
220 PointF c4(2, 0);
221 PointF d4(1, 3);
222 EXPECT_FALSE(QuadF(a4, b4, c4, d4).IsCounterClockwise());
223 EXPECT_FALSE(QuadF(b4, c4, d4, a4).IsCounterClockwise());
224 EXPECT_TRUE(QuadF(a4, d4, c4, b4).IsCounterClockwise());
225 EXPECT_TRUE(QuadF(c4, b4, a4, d4).IsCounterClockwise());
226
227 // A quad with huge coordinates should not fail this check due to
228 // single-precision overflow.
229 PointF a5(1e30f, 1e30f);
230 PointF b5(1e35f, 1e30f);
231 PointF c5(1e35f, 1e35f);
232 PointF d5(1e30f, 1e35f);
233 EXPECT_FALSE(QuadF(a5, b5, c5, d5).IsCounterClockwise());
234 EXPECT_FALSE(QuadF(b5, c5, d5, a5).IsCounterClockwise());
235 EXPECT_TRUE(QuadF(a5, d5, c5, b5).IsCounterClockwise());
236 EXPECT_TRUE(QuadF(c5, b5, a5, d5).IsCounterClockwise());
237 }
238
239 TEST(QuadTest, BoundingBox) {
240 RectF r(3.2f, 5.4f, 7.007f, 12.01f);
241 EXPECT_EQ(r.ToString(), QuadF(r).BoundingBox().ToString());
242
243 PointF a(1.3f, 1.4f);
244 PointF b(-0.7f, 4.9f);
245 PointF c(1.8f, 6.2f);
246 PointF d(2.1f, 1.6f);
247 float left = -0.7f;
248 float top = 1.4f;
249 float right = 2.1f;
250 float bottom = 6.2f;
251 EXPECT_EQ(RectF(left, top, right - left, bottom - top).ToString(),
252 QuadF(a, b, c, d).BoundingBox().ToString());
253 }
254
255 TEST(QuadTest, ContainsPoint) {
256 PointF a(1.3f, 1.4f);
257 PointF b(-0.8f, 4.4f);
258 PointF c(1.8f, 6.1f);
259 PointF d(2.1f, 1.6f);
260
261 Vector2dF epsilon_x(2 * std::numeric_limits<float>::epsilon(), 0);
262 Vector2dF epsilon_y(0, 2 * std::numeric_limits<float>::epsilon());
263
264 Vector2dF ac_center = c - a;
265 ac_center.Scale(0.5f);
266 Vector2dF bd_center = d - b;
267 bd_center.Scale(0.5f);
268
269 EXPECT_TRUE(QuadF(a, b, c, d).Contains(a + ac_center));
270 EXPECT_TRUE(QuadF(a, b, c, d).Contains(b + bd_center));
271 EXPECT_TRUE(QuadF(a, b, c, d).Contains(c - ac_center));
272 EXPECT_TRUE(QuadF(a, b, c, d).Contains(d - bd_center));
273 EXPECT_FALSE(QuadF(a, b, c, d).Contains(a - ac_center));
274 EXPECT_FALSE(QuadF(a, b, c, d).Contains(b - bd_center));
275 EXPECT_FALSE(QuadF(a, b, c, d).Contains(c + ac_center));
276 EXPECT_FALSE(QuadF(a, b, c, d).Contains(d + bd_center));
277
278 EXPECT_TRUE(QuadF(a, b, c, d).Contains(a));
279 EXPECT_FALSE(QuadF(a, b, c, d).Contains(a - epsilon_x));
280 EXPECT_FALSE(QuadF(a, b, c, d).Contains(a - epsilon_y));
281 EXPECT_FALSE(QuadF(a, b, c, d).Contains(a + epsilon_x));
282 EXPECT_TRUE(QuadF(a, b, c, d).Contains(a + epsilon_y));
283
284 EXPECT_TRUE(QuadF(a, b, c, d).Contains(b));
285 EXPECT_FALSE(QuadF(a, b, c, d).Contains(b - epsilon_x));
286 EXPECT_FALSE(QuadF(a, b, c, d).Contains(b - epsilon_y));
287 EXPECT_TRUE(QuadF(a, b, c, d).Contains(b + epsilon_x));
288 EXPECT_FALSE(QuadF(a, b, c, d).Contains(b + epsilon_y));
289
290 EXPECT_TRUE(QuadF(a, b, c, d).Contains(c));
291 EXPECT_FALSE(QuadF(a, b, c, d).Contains(c - epsilon_x));
292 EXPECT_TRUE(QuadF(a, b, c, d).Contains(c - epsilon_y));
293 EXPECT_FALSE(QuadF(a, b, c, d).Contains(c + epsilon_x));
294 EXPECT_FALSE(QuadF(a, b, c, d).Contains(c + epsilon_y));
295
296 EXPECT_TRUE(QuadF(a, b, c, d).Contains(d));
297 EXPECT_TRUE(QuadF(a, b, c, d).Contains(d - epsilon_x));
298 EXPECT_FALSE(QuadF(a, b, c, d).Contains(d - epsilon_y));
299 EXPECT_FALSE(QuadF(a, b, c, d).Contains(d + epsilon_x));
300 EXPECT_FALSE(QuadF(a, b, c, d).Contains(d + epsilon_y));
301
302 // Test a simple square.
303 PointF s1(-1, -1);
304 PointF s2(1, -1);
305 PointF s3(1, 1);
306 PointF s4(-1, 1);
307 // Top edge.
308 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.1f, -1.0f)));
309 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, -1.0f)));
310 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(0.0f, -1.0f)));
311 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, -1.0f)));
312 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(1.1f, -1.0f)));
313 // Bottom edge.
314 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.1f, 1.0f)));
315 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, 1.0f)));
316 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(0.0f, 1.0f)));
317 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, 1.0f)));
318 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(1.1f, 1.0f)));
319 // Left edge.
320 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, -1.1f)));
321 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, -1.0f)));
322 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, 0.0f)));
323 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, 1.0f)));
324 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.0f, 1.1f)));
325 // Right edge.
326 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, -1.1f)));
327 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, -1.0f)));
328 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, 0.0f)));
329 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, 1.0f)));
330 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(1.0f, 1.1f)));
331 // Centered inside.
332 EXPECT_TRUE(QuadF(s1, s2, s3, s4).Contains(PointF(0, 0)));
333 // Centered outside.
334 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(-1.1f, 0)));
335 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(1.1f, 0)));
336 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(0, -1.1f)));
337 EXPECT_FALSE(QuadF(s1, s2, s3, s4).Contains(PointF(0, 1.1f)));
338 }
339
340 TEST(QuadTest, Scale) {
341 PointF a(1.3f, 1.4f);
342 PointF b(-0.8f, 4.4f);
343 PointF c(1.8f, 6.1f);
344 PointF d(2.1f, 1.6f);
345 QuadF q1(a, b, c, d);
346 q1.Scale(1.5f);
347
348 PointF a_scaled = ScalePoint(a, 1.5f);
349 PointF b_scaled = ScalePoint(b, 1.5f);
350 PointF c_scaled = ScalePoint(c, 1.5f);
351 PointF d_scaled = ScalePoint(d, 1.5f);
352 EXPECT_EQ(q1.ToString(),
353 QuadF(a_scaled, b_scaled, c_scaled, d_scaled).ToString());
354
355 QuadF q2;
356 q2.Scale(1.5f);
357 EXPECT_EQ(q2.ToString(), q2.ToString());
358 }
359
360 } // namespace gfx
OLDNEW
« ui/aura/aura.gyp ('K') | « ui/gfx/quad_f.cc ('k') | ui/gfx/rect.h » ('j') | no next file with comments »

Powered by Google App Engine
This is Rietveld 408576698