Loading vibrator/aidl/vts/VtsHalVibratorTargetTest.cpp +5 −3 Original line number Diff line number Diff line Loading @@ -196,7 +196,7 @@ static ActivePwle composeValidActivePwle(sp<IVibrator> vibrator, int32_t capabil active.startFrequency = frequencyHz; active.endAmplitude = (getAmplitudeMin() + getAmplitudeMax()) / 2; active.endFrequency = frequencyHz; active.duration = 1000; vibrator->getPwlePrimitiveDurationMax(&(active.duration)); return active; } Loading Loading @@ -759,7 +759,9 @@ TEST_P(VibratorAidl, ComposeValidPwleWithCallback) { std::future<void> completionFuture{completionPromise.get_future()}; sp<CompletionCallback> callback = new CompletionCallback([&completionPromise] { completionPromise.set_value(); }); uint32_t durationMs = 2100; // Sum of 2 active and 1 braking below int32_t segmentDurationMaxMs; vibrator->getPwlePrimitiveDurationMax(&segmentDurationMaxMs); uint32_t durationMs = segmentDurationMaxMs * 2 + 100; // Sum of 2 active and 1 braking below //TODO(b/187207798): revert back to conservative timeout values once //latencies have been fixed std::chrono::milliseconds timeout{durationMs * 4}; Loading Loading @@ -863,7 +865,7 @@ TEST_P(VibratorAidl, ComposePwleSegmentDurationBoundary) { if (capabilities & IVibrator::CAP_COMPOSE_PWLE_EFFECTS) { ActivePwle active = composeValidActivePwle(vibrator, capabilities); int segmentDurationMaxMs; int32_t segmentDurationMaxMs; vibrator->getPwlePrimitiveDurationMax(&segmentDurationMaxMs); active.duration = segmentDurationMaxMs + 10; // Segment duration greater than allowed Loading Loading
vibrator/aidl/vts/VtsHalVibratorTargetTest.cpp +5 −3 Original line number Diff line number Diff line Loading @@ -196,7 +196,7 @@ static ActivePwle composeValidActivePwle(sp<IVibrator> vibrator, int32_t capabil active.startFrequency = frequencyHz; active.endAmplitude = (getAmplitudeMin() + getAmplitudeMax()) / 2; active.endFrequency = frequencyHz; active.duration = 1000; vibrator->getPwlePrimitiveDurationMax(&(active.duration)); return active; } Loading Loading @@ -759,7 +759,9 @@ TEST_P(VibratorAidl, ComposeValidPwleWithCallback) { std::future<void> completionFuture{completionPromise.get_future()}; sp<CompletionCallback> callback = new CompletionCallback([&completionPromise] { completionPromise.set_value(); }); uint32_t durationMs = 2100; // Sum of 2 active and 1 braking below int32_t segmentDurationMaxMs; vibrator->getPwlePrimitiveDurationMax(&segmentDurationMaxMs); uint32_t durationMs = segmentDurationMaxMs * 2 + 100; // Sum of 2 active and 1 braking below //TODO(b/187207798): revert back to conservative timeout values once //latencies have been fixed std::chrono::milliseconds timeout{durationMs * 4}; Loading Loading @@ -863,7 +865,7 @@ TEST_P(VibratorAidl, ComposePwleSegmentDurationBoundary) { if (capabilities & IVibrator::CAP_COMPOSE_PWLE_EFFECTS) { ActivePwle active = composeValidActivePwle(vibrator, capabilities); int segmentDurationMaxMs; int32_t segmentDurationMaxMs; vibrator->getPwlePrimitiveDurationMax(&segmentDurationMaxMs); active.duration = segmentDurationMaxMs + 10; // Segment duration greater than allowed Loading
