public static byte[] tolerantHexStringToByteArray(String str) { return hexStringToByteArray(str.toUpperCase().replaceAll("[^A-F0-9]","")); }
public static byte[] tolerantHexStringToByteArray(String str) { return hexStringToByteArray(str.toUpperCase().replaceAll("[^A-F0-9]","")); }
@Test public void ketoneTest() { ContextRx contextRx = new ContextRx(JoH.hexStringToByteArray("02040006")); assertTrue(contextRx.ketone()); }
@Test public void toStringTest() { ContextRx contextRx = new ContextRx(JoH.hexStringToByteArray("02040006")); assertEquals("Context: Sequence: 4 KETONE MEALTYPE: 6 ", contextRx.toString()); } }
@Test public void toStringTest() { ContextRx contextRx = new ContextRx(JoH.hexStringToByteArray("02040006")); assertEquals("Context: Sequence: 4 KETONE MEALTYPE: 6 ", contextRx.toString()); } }
@Test public void ketoneTest() { ContextRx contextRx = new ContextRx(JoH.hexStringToByteArray("02040006")); assertTrue(contextRx.ketone()); }
final byte[] diag = JoH.hexStringToByteArray(Pref.getStringDefaultBlank("nfc_test_diagnostic")); if ((diag != null) && (diag.length > 0)) { Log.d(TAG, "Diagnostic ->: " + HexDump.dumpHexString(diag, 0, diag.length).trim() + " len: " + diag.length);
final byte[] diag = JoH.hexStringToByteArray(Pref.getStringDefaultBlank("nfc_test_diagnostic")); if ((diag != null) && (diag.length > 0)) { Log.d(TAG, "Diagnostic ->: " + HexDump.dumpHexString(diag, 0, diag.length).trim() + " len: " + diag.length);
final byte[] diag = JoH.hexStringToByteArray(Pref.getStringDefaultBlank("nfc_test_diagnostic")); if ((diag != null) && (diag.length > 0)) { Log.d(TAG, "Diagnostic ->: " + HexDump.dumpHexString(diag, 0, diag.length).trim() + " len: " + diag.length);