mDirection = CAudioInfo::EAudioDirection::AUDIO_DIRECTION_IN;
}
+//LCOV_EXCL_START
CAudioInput::CAudioInput(
unsigned int sampleRate,
CAudioInfo::EChannel channel,
mDirection = CAudioInfo::EAudioDirection::AUDIO_DIRECTION_IN;
mAudioInfo = CAudioInfo(sampleRate, channel, type, audioType, -1);
}
+//LCOV_EXCL_STOP
CAudioInput::~CAudioInput() {
}
*/
if (__mIsUsedSyncRead == true) {
#ifdef _AUDIO_IO_DEBUG_TIMING_
- AUDIO_IO_LOGD("Sync Read Mode! - pClient:[%p], length:[%d]", pClient, length);
+ AUDIO_IO_LOGD("Sync Read Mode! - pClient:[%p], length:[%zu]", pClient, length);
#endif
return;
}
* Accrues callback function
*/
#ifdef _AUDIO_IO_DEBUG_TIMING_
- AUDIO_IO_LOGD("pClient:[%p], length:[%d]", pClient, length);
+ AUDIO_IO_LOGD("pClient:[%p], length:[%zu]", pClient, length);
#endif
CAudioIO::onStream(pClient, length);
}
internalUnlock();
throw;
} catch (const std::bad_alloc&) {
+//LCOV_EXCL_START
internalUnlock();
THROW_ERROR_MSG(CAudioError::EError::ERROR_OUT_OF_MEMORY, "Failed to allocate CPulseAudioClient object");
+//LCOV_EXCL_STOP
}
}