283     Timestamp now = clock_.CurrentTime();  in TimeUntilNextProcess()
288     Timestamp now = clock_.CurrentTime();  in AdvanceTimeAndProcess()
353     Timestamp now = clock_.CurrentTime();  in ProcessNext()
452   Timestamp wait_start_time = clock_.CurrentTime();  in TEST_P()
457                     bool padding) { wait_end_time = clock_.CurrentTime(); });  in TEST_P()
495   const Timestamp kStartTime = clock_.CurrentTime();  in TEST_P()
590   Timestamp start_time = clock_.CurrentTime();  in TEST_P()
594   EXPECT_LT(clock_.CurrentTime() - start_time, kSendInterval);  in TEST_P()
601   EXPECT_GE(clock_.CurrentTime() - start_time, kSendInterval);  in TEST_P()
641   Timestamp start_time = clock_.CurrentTime();  in TEST_P()
650   const TimeDelta actual_pace_time = clock_.CurrentTime() - start_time;  in TEST_P()
752     Timestamp start_time = clock_.CurrentTime();  in TEST_P()
756     const TimeDelta actual_pace_time = clock_.CurrentTime() - start_time;  in TEST_P()
787             first_send_time = clock_.CurrentTime();  in TEST_P()
789             last_send_time = clock_.CurrentTime();  in TEST_P()
875   Timestamp start_time = clock_.CurrentTime();  in TEST_P()
877   while (clock_.CurrentTime() - start_time < kAveragingWindowLength) {  in TEST_P()
882         (kTargetRate * (clock_.CurrentTime() - start_time)).bytes<size_t>()) {  in TEST_P()
1038   Timestamp start_time = clock_.CurrentTime();  in TEST_P()
1049   TimeDelta pacing_time = clock_.CurrentTime() - start_time;  in TEST_P()
1324   const Timestamp start_time = clock_.CurrentTime();  in TEST_P()
1367   const Timestamp time_start = clock_.CurrentTime();  in TEST_P()
1372   TimeDelta duration = clock_.CurrentTime() - time_start;  in TEST_P()
1492     Timestamp start_time = clock_.CurrentTime();  in TEST_P()
1494     TimeDelta time_between_probes = clock_.CurrentTime() - start_time;  in TEST_P()
1507     const Timestamp probe_time = clock_.CurrentTime();  in TEST_P()
1508     EXPECT_EQ(pacer_->NextSendTime(), clock_.CurrentTime());  in TEST_P()
1554       Timestamp a = clock_.CurrentTime();  in TEST_P()
1560       EXPECT_GT(clock_.CurrentTime() - a, time_between_probes);  in TEST_P()
1804   const TimeDelta time_between_packets = next_send_time - clock_.CurrentTime();  in TEST_P()
1816   const TimeDelta time_left = next_send_time - clock_.CurrentTime();  in TEST_P()
1842   EXPECT_LT(pacer_->NextSendTime() - clock_.CurrentTime(),  in TEST_P()
1849   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(),  in TEST_P()
1939     Timestamp start_time = clock_.CurrentTime();  in TEST_P()
1942       Timestamp now = clock_.CurrentTime();  in TEST_P()
1948       while (clock_.CurrentTime() >= last_audio_time + kAudioPacketInterval) {  in TEST_P()
1963     const TimeDelta actual_drain_time = clock_.CurrentTime() - start_time;  in TEST_P()
2004   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(), kPacketPacingTime);  in TEST_P()
2030   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(),  in TEST_P()
2037   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(), kPacketPacingTime);  in TEST_P()
2043   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(),  in TEST_P()
2050   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(), kPacketPacingTime);  in TEST_P()
2060   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(),  in TEST_P()
2066   EXPECT_EQ(pacer_->NextSendTime() - clock_.CurrentTime(), kPacketPacingTime);  in TEST_P()