public UsbEndpointAssert hasInterval(int interval) { isNotNull(); int actualInterval = actual.getInterval(); assertThat(actualInterval) // .overridingErrorMessage("Expected interval <%s> but was <%s>.", interval, actualInterval) // .isEqualTo(interval); return this; }
public UsbEndpointAssert hasInterval(int interval) { isNotNull(); int actualInterval = actual.getInterval(); assertThat(actualInterval) // .overridingErrorMessage("Expected interval <%s> but was <%s>.", interval, actualInterval) // .isEqualTo(interval); return this; }
private String getEndpointText(final UsbEndpoint endpoint, final int index) { final String addressInBinary = padLeft(Integer.toBinaryString(endpoint.getAddress()), "0", 8); final String addressInHex = padLeft(Integer.toHexString(endpoint.getAddress()), "0", 2); final String attributesInBinary = padLeft(Integer.toBinaryString(endpoint.getAttributes()), "0", 8); String endpointText = "#" + index + "\n"; endpointText += getString(R.string.address_) + "0x" + addressInHex + " (" + addressInBinary + ")\n"; endpointText += getString(R.string.number_) + endpoint.getEndpointNumber() + "\n"; endpointText += getString(R.string.direction_) + UsbConstantResolver.resolveUsbEndpointDirection(endpoint.getDirection()) + "\n"; endpointText += getString(R.string.type_) + UsbConstantResolver.resolveUsbEndpointType(endpoint.getType()) + "\n"; endpointText += getString(R.string.poll_interval_) + endpoint.getInterval() + "\n"; endpointText += getString(R.string.max_packet_size_) + endpoint.getMaxPacketSize() + "\n"; endpointText += getString(R.string.attributes_) + attributesInBinary; return endpointText; }
Log.i(TAG," Direction: " + mEndpoint.getDirection()); Log.i(TAG," Number: " + mEndpoint.getEndpointNumber()); Log.i(TAG," Interval: " + mEndpoint.getInterval()); Log.i(TAG," Packet size: " + mEndpoint.getMaxPacketSize()); Log.i(TAG," Type: " + mEndpoint.getType());