package net.gcdc.asn1.test; import static org.junit.Assert.assertEquals; import java.util.logging.Level; import net.gcdc.asn1.datatypes.IntRange; import net.gcdc.asn1.datatypes.Sequence; import net.gcdc.asn1.uper.UperEncoder; import org.junit.Test; public class UperEncodeIntegerConstrainedTest { /** * Example from the Standard on UPER.
		TestRecord ::= [APPLICATION 0] IMPLICIT SEQUENCE {
  			number1 INTEGER (1..999),
  			number2 INTEGER (0..999),
  			number3 INTEGER (63..999)
		}
    
*/ @Sequence public static class TestRecord { @IntRange(minValue=1, maxValue=999) public Long value1; @IntRange(minValue=0, maxValue=999) public Long value2; @IntRange(minValue=63, maxValue=999) public Long value3; public TestRecord() { this(new Long(63L)); } public TestRecord(Long num) { value1 = num; value2 = num; value3 = num; } } @Test public void test() throws IllegalArgumentException, IllegalAccessException { TestRecord record = new TestRecord(63L); byte[] encoded = UperEncoder.encode(record); String hex = UperEncoder.hexStringFromBytes(encoded); UperEncoder.logger.log(Level.FINEST,String.format("data hex: %s", hex)); assertEquals("0F83F000",hex); TestRecord result = UperEncoder.decode(encoded, TestRecord.class); assertEquals(result.value1.longValue(),record.value1.longValue()); assertEquals(result.value2.longValue(),record.value2.longValue()); assertEquals(result.value3.longValue(),record.value3.longValue()); } }