chromecast/base/component/component_unittest.cc - Issue 2132593002: Remove remaining calls to deprecated MessageLoop methods on Mac.

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Issue 2132593002: Remove remaining calls to deprecated MessageLoop methods on Mac. (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: h264_vt_encoder_unittest.cc Created 4 years, 5 months ago

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1 // Copyright 2016 The Chromium Authors. All rights reserved.	1 // Copyright 2016 The Chromium Authors. All rights reserved.

2 // Use of this source code is governed by a BSD-style license that can be	2 // Use of this source code is governed by a BSD-style license that can be

3 // found in the LICENSE file.	3 // found in the LICENSE file.

4	4

5 #include "chromecast/base/component/component.h"	5 #include "chromecast/base/component/component.h"

6	6

7 #include <memory>	7 #include <memory>

8	8

9 #include "base/location.h"

10 #include "base/message_loop/message_loop.h"	9 #include "base/message_loop/message_loop.h"

11 #include "base/run_loop.h"	10 #include "base/run_loop.h"

12 #include "base/threading/thread_task_runner_handle.h"	11 #include "base/threading/thread_task_runner_handle.h"

13 #include "testing/gtest/include/gtest/gtest.h"	12 #include "testing/gtest/include/gtest/gtest.h"

14	13

15 namespace chromecast {	14 namespace chromecast {

16	15

17 class ComponentTest : public ::testing::Test {	16 class ComponentTest : public ::testing::Test {

18 protected:	17 protected:

19 ComponentTest() : message_loop_(new base::MessageLoop()) {}	18 ComponentTest() : message_loop_(new base::MessageLoop()) {}

(...skipping 155 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
175 ComponentC c(b.GetRef());	174 ComponentC c(b.GetRef());

176 EXPECT_DEATH(a.MakeTransitiveCircularDependency(c.GetRef()),	175 EXPECT_DEATH(a.MakeTransitiveCircularDependency(c.GetRef()),

177 "Circular dependency");	176 "Circular dependency");

178 }	177 }

179 #endif // (!defined(NDEBUG) \|\| defined(DCHECK_ALWAYS_ON)) &&	178 #endif // (!defined(NDEBUG) \|\| defined(DCHECK_ALWAYS_ON)) &&

180 // GTEST_HAS_DEATH_TEST	179 // GTEST_HAS_DEATH_TEST

181	180

182 TEST_F(ComponentTest, SimpleEnable) {	181 TEST_F(ComponentTest, SimpleEnable) {

183 std::unique_ptr<ComponentA> a(new ComponentA());	182 std::unique_ptr<ComponentA> a(new ComponentA());

184 a->Enable();	183 a->Enable();

185 message_loop_->RunUntilIdle();	184 base::RunLoop().RunUntilIdle();

186 EXPECT_TRUE(a->enabled());	185 EXPECT_TRUE(a->enabled());

187 a.release()->Destroy();	186 a.release()->Destroy();

188 }	187 }

189	188

190 TEST_F(ComponentTest, TransitiveEnable) {	189 TEST_F(ComponentTest, TransitiveEnable) {

191 std::unique_ptr<ComponentA> a(new ComponentA());	190 std::unique_ptr<ComponentA> a(new ComponentA());

192 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));	191 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));

193 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));	192 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));

194 c->Enable();	193 c->Enable();

195 message_loop_->RunUntilIdle();	194 base::RunLoop().RunUntilIdle();

196 EXPECT_TRUE(a->enabled());	195 EXPECT_TRUE(a->enabled());

197 EXPECT_TRUE(b->enabled());	196 EXPECT_TRUE(b->enabled());

198 EXPECT_TRUE(c->enabled());	197 EXPECT_TRUE(c->enabled());

199 a.release()->Destroy();	198 a.release()->Destroy();

200 b.release()->Destroy();	199 b.release()->Destroy();

201 c.release()->Destroy();	200 c.release()->Destroy();

202 }	201 }

203	202

204 TEST_F(ComponentTest, FailEnable) {	203 TEST_F(ComponentTest, FailEnable) {

205 std::unique_ptr<ComponentA> a(new ComponentA());	204 std::unique_ptr<ComponentA> a(new ComponentA());

206 a->FailEnable();	205 a->FailEnable();

207 a->Enable();	206 a->Enable();

208 message_loop_->RunUntilIdle();	207 base::RunLoop().RunUntilIdle();

209 EXPECT_FALSE(a->enabled());	208 EXPECT_FALSE(a->enabled());

210 a.release()->Destroy();	209 a.release()->Destroy();

211 }	210 }

212	211

213 TEST_F(ComponentTest, TransitiveFailEnable) {	212 TEST_F(ComponentTest, TransitiveFailEnable) {

214 std::unique_ptr<ComponentA> a(new ComponentA());	213 std::unique_ptr<ComponentA> a(new ComponentA());

215 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));	214 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));

216 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));	215 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));

217 a->FailEnable();	216 a->FailEnable();

218 c->Enable();	217 c->Enable();

219 message_loop_->RunUntilIdle();	218 base::RunLoop().RunUntilIdle();

220 EXPECT_FALSE(a->enabled());	219 EXPECT_FALSE(a->enabled());

221 EXPECT_FALSE(b->enabled());	220 EXPECT_FALSE(b->enabled());

222 EXPECT_FALSE(c->enabled());	221 EXPECT_FALSE(c->enabled());

223 a.release()->Destroy();	222 a.release()->Destroy();

224 b.release()->Destroy();	223 b.release()->Destroy();

225 c.release()->Destroy();	224 c.release()->Destroy();

226 }	225 }

227	226

228 TEST_F(ComponentTest, DisableWhileEnabling) {	227 TEST_F(ComponentTest, DisableWhileEnabling) {

229 std::unique_ptr<ComponentA> a(new ComponentA());	228 std::unique_ptr<ComponentA> a(new ComponentA());

230 a->Enable();	229 a->Enable();

231 a->Disable();	230 a->Disable();

232 message_loop_->RunUntilIdle();	231 base::RunLoop().RunUntilIdle();

233 EXPECT_FALSE(a->enabled());	232 EXPECT_FALSE(a->enabled());

234 a.release()->Destroy();	233 a.release()->Destroy();

235 }	234 }

236	235

237 TEST_F(ComponentTest, EnableTwice) {	236 TEST_F(ComponentTest, EnableTwice) {

238 std::unique_ptr<ComponentA> a(new ComponentA());	237 std::unique_ptr<ComponentA> a(new ComponentA());

239 a->Enable();	238 a->Enable();

240 a->Enable();	239 a->Enable();

241 message_loop_->RunUntilIdle();	240 base::RunLoop().RunUntilIdle();

242 EXPECT_TRUE(a->enabled());	241 EXPECT_TRUE(a->enabled());

243 a.release()->Destroy();	242 a.release()->Destroy();

244 }	243 }

245	244

246 TEST_F(ComponentTest, DisableTwice) {	245 TEST_F(ComponentTest, DisableTwice) {

247 std::unique_ptr<ComponentA> a(new ComponentA());	246 std::unique_ptr<ComponentA> a(new ComponentA());

248 a->Enable();	247 a->Enable();

249 message_loop_->RunUntilIdle();	248 base::RunLoop().RunUntilIdle();

250 EXPECT_TRUE(a->enabled());	249 EXPECT_TRUE(a->enabled());

251 a->Disable();	250 a->Disable();

252 message_loop_->RunUntilIdle();	251 base::RunLoop().RunUntilIdle();

253 EXPECT_FALSE(a->enabled());	252 EXPECT_FALSE(a->enabled());

254 a->Disable();	253 a->Disable();

255 message_loop_->RunUntilIdle();	254 base::RunLoop().RunUntilIdle();

256 EXPECT_FALSE(a->enabled());	255 EXPECT_FALSE(a->enabled());

257 a.release()->Destroy();	256 a.release()->Destroy();

258 }	257 }

259	258

260 TEST_F(ComponentTest, DisableAfterFailedEnable) {	259 TEST_F(ComponentTest, DisableAfterFailedEnable) {

261 std::unique_ptr<ComponentA> a(new ComponentA());	260 std::unique_ptr<ComponentA> a(new ComponentA());

262 a->FailEnable();	261 a->FailEnable();

263 a->Enable();	262 a->Enable();

264 message_loop_->RunUntilIdle();	263 base::RunLoop().RunUntilIdle();

265 EXPECT_FALSE(a->enabled());	264 EXPECT_FALSE(a->enabled());

266 a->Disable();	265 a->Disable();

267 message_loop_->RunUntilIdle();	266 base::RunLoop().RunUntilIdle();

268 EXPECT_FALSE(a->enabled());	267 EXPECT_FALSE(a->enabled());

269 a.release()->Destroy();	268 a.release()->Destroy();

270 }	269 }

271	270

272 TEST_F(ComponentTest, DisableAfterNeverEnabled) {	271 TEST_F(ComponentTest, DisableAfterNeverEnabled) {

273 std::unique_ptr<ComponentA> a(new ComponentA());	272 std::unique_ptr<ComponentA> a(new ComponentA());

274 a->Disable();	273 a->Disable();

275 message_loop_->RunUntilIdle();	274 base::RunLoop().RunUntilIdle();

276 EXPECT_FALSE(a->enabled());	275 EXPECT_FALSE(a->enabled());

277 a.release()->Destroy();	276 a.release()->Destroy();

278 }	277 }

279	278

280 TEST_F(ComponentTest, DisableDependencyWhileEnabling) {	279 TEST_F(ComponentTest, DisableDependencyWhileEnabling) {

281 std::unique_ptr<ComponentA> a(new ComponentA());	280 std::unique_ptr<ComponentA> a(new ComponentA());

282 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));	281 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));

283 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));	282 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));

284 b->Enable();	283 b->Enable();

285 message_loop_->RunUntilIdle();	284 base::RunLoop().RunUntilIdle();

286 c->Enable();	285 c->Enable();

287 a->Disable();	286 a->Disable();

288 message_loop_->RunUntilIdle();	287 base::RunLoop().RunUntilIdle();

289 EXPECT_FALSE(a->enabled());	288 EXPECT_FALSE(a->enabled());

290 EXPECT_FALSE(b->enabled());	289 EXPECT_FALSE(b->enabled());

291 EXPECT_FALSE(c->enabled());	290 EXPECT_FALSE(c->enabled());

292 a.release()->Destroy();	291 a.release()->Destroy();

293 b.release()->Destroy();	292 b.release()->Destroy();

294 c.release()->Destroy();	293 c.release()->Destroy();

295 }	294 }

296	295

297 TEST_F(ComponentTest, EnableDisableEnable) {	296 TEST_F(ComponentTest, EnableDisableEnable) {

298 std::unique_ptr<ComponentA> a(new ComponentA());	297 std::unique_ptr<ComponentA> a(new ComponentA());

299 a->Enable();	298 a->Enable();

300 a->Disable();	299 a->Disable();

301 a->Enable();	300 a->Enable();

302 message_loop_->RunUntilIdle();	301 base::RunLoop().RunUntilIdle();

303 EXPECT_TRUE(a->enabled());	302 EXPECT_TRUE(a->enabled());

304 a.release()->Destroy();	303 a.release()->Destroy();

305 }	304 }

306	305

307 TEST_F(ComponentTest, DisableEnableDisable) {	306 TEST_F(ComponentTest, DisableEnableDisable) {

308 std::unique_ptr<ComponentA> a(new ComponentA());	307 std::unique_ptr<ComponentA> a(new ComponentA());

309 a->Enable();	308 a->Enable();

310 message_loop_->RunUntilIdle();	309 base::RunLoop().RunUntilIdle();

311 EXPECT_TRUE(a->enabled());	310 EXPECT_TRUE(a->enabled());

312 a->Disable();	311 a->Disable();

313 a->Enable();	312 a->Enable();

314 a->Disable();	313 a->Disable();

315 message_loop_->RunUntilIdle();	314 base::RunLoop().RunUntilIdle();

316 EXPECT_FALSE(a->enabled());	315 EXPECT_FALSE(a->enabled());

317 a.release()->Destroy();	316 a.release()->Destroy();

318 }	317 }

319	318

320 TEST_F(ComponentTest, TransitiveEnableDisableEnable) {	319 TEST_F(ComponentTest, TransitiveEnableDisableEnable) {

321 std::unique_ptr<ComponentA> a(new ComponentA());	320 std::unique_ptr<ComponentA> a(new ComponentA());

322 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));	321 std::unique_ptr<ComponentB> b(new ComponentB(a->GetRef()));

323 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));	322 std::unique_ptr<ComponentC> c(new ComponentC(b->GetRef()));

324 a->Enable();	323 a->Enable();

325 message_loop_->RunUntilIdle();	324 base::RunLoop().RunUntilIdle();

326 c->Enable();	325 c->Enable();

327 a->Disable();	326 a->Disable();

328 message_loop_->RunUntilIdle();	327 base::RunLoop().RunUntilIdle();

329 EXPECT_FALSE(a->enabled());	328 EXPECT_FALSE(a->enabled());

330 EXPECT_FALSE(b->enabled());	329 EXPECT_FALSE(b->enabled());

331 EXPECT_FALSE(c->enabled());	330 EXPECT_FALSE(c->enabled());

332 c->Enable();	331 c->Enable();

333 message_loop_->RunUntilIdle();	332 base::RunLoop().RunUntilIdle();

334 EXPECT_TRUE(a->enabled());	333 EXPECT_TRUE(a->enabled());

335 EXPECT_TRUE(b->enabled());	334 EXPECT_TRUE(b->enabled());

336 EXPECT_TRUE(c->enabled());	335 EXPECT_TRUE(c->enabled());

337 a.release()->Destroy();	336 a.release()->Destroy();

338 b.release()->Destroy();	337 b.release()->Destroy();

339 c.release()->Destroy();	338 c.release()->Destroy();

340 }	339 }

341	340

342 TEST_F(ComponentTest, WeakRefs) {	341 TEST_F(ComponentTest, WeakRefs) {

343 std::unique_ptr<ComponentA> a(new ComponentA());	342 std::unique_ptr<ComponentA> a(new ComponentA());

344 ComponentA::WeakRef weak = a->GetRef();	343 ComponentA::WeakRef weak = a->GetRef();

345 EXPECT_FALSE(weak.Try());	344 EXPECT_FALSE(weak.Try());

346 a->Enable();	345 a->Enable();

347 EXPECT_FALSE(weak.Try());	346 EXPECT_FALSE(weak.Try());

348 message_loop_->RunUntilIdle();	347 base::RunLoop().RunUntilIdle();

349 EXPECT_TRUE(weak.Try());	348 EXPECT_TRUE(weak.Try());

350 weak.Try()->Test();	349 weak.Try()->Test();

351 a->Disable();	350 a->Disable();

352 message_loop_->RunUntilIdle();	351 base::RunLoop().RunUntilIdle();

353 EXPECT_FALSE(weak.Try());	352 EXPECT_FALSE(weak.Try());

354 a.release()->Destroy();	353 a.release()->Destroy();

355 }	354 }

356	355

357 TEST_F(ComponentTest, WeakRefsKeepEnabled) {	356 TEST_F(ComponentTest, WeakRefsKeepEnabled) {

358 std::unique_ptr<ComponentA> a(new ComponentA());	357 std::unique_ptr<ComponentA> a(new ComponentA());

359 ComponentA::WeakRef weak = a->GetRef();	358 ComponentA::WeakRef weak = a->GetRef();

360 EXPECT_FALSE(weak.Try());	359 EXPECT_FALSE(weak.Try());

361 a->Enable();	360 a->Enable();

362 EXPECT_FALSE(weak.Try());	361 EXPECT_FALSE(weak.Try());

363 message_loop_->RunUntilIdle();	362 base::RunLoop().RunUntilIdle();

364 {	363 {

365 auto held_ref = weak.Try();	364 auto held_ref = weak.Try();

366 EXPECT_TRUE(held_ref);	365 EXPECT_TRUE(held_ref);

367 held_ref->Test();	366 held_ref->Test();

368 a->Disable();	367 a->Disable();

369 message_loop_->RunUntilIdle();	368 base::RunLoop().RunUntilIdle();

370 // The held ref keeps \|a\| enabled until it goes out of scope.	369 // The held ref keeps \|a\| enabled until it goes out of scope.

371 EXPECT_TRUE(a->enabled());	370 EXPECT_TRUE(a->enabled());

372 }	371 }

373 message_loop_->RunUntilIdle();	372 base::RunLoop().RunUntilIdle();

374 EXPECT_FALSE(a->enabled());	373 EXPECT_FALSE(a->enabled());

375 EXPECT_FALSE(weak.Try());	374 EXPECT_FALSE(weak.Try());

376 a.release()->Destroy();	375 a.release()->Destroy();

377 }	376 }

378	377

379 } // namespace chromecast	378 } // namespace chromecast

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