/** * Returns identifier type code (component 5). This is a convenience method that saves you from * casting and handling an exception. */ public IS getCx5_IdentifierTypeCode() { return getTyped(4, IS.class); }
/** * Creates a new CX type */ public CX(Message message) { super(message); init(); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new CX(getMessage()); case 1: return new CX(getMessage()); case 2: return new CX(getMessage()); case 3: return new CX(getMessage()); case 4: return new CX(getMessage()); case 5: return new CX(getMessage()); case 6: return new XPN(getMessage()); default: return null; } }
private void init() { data = new Type[6]; data[0] = new ST(getMessage()); data[1] = new ST(getMessage()); data[2] = new ID(getMessage(), 0); data[3] = new HD(getMessage()); data[4] = new IS(getMessage(), 203); data[5] = new HD(getMessage()); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new CX(getMessage()); case 1: return new CX(getMessage()); case 2: return new CX(getMessage()); case 3: return new CX(getMessage()); case 4: return new CX(getMessage()); case 5: return new CX(getMessage()); case 6: return new XPN(getMessage()); default: return null; } }
private void init() { data = new Type[6]; data[0] = new ST(getMessage()); data[1] = new ST(getMessage()); data[2] = new ID(getMessage(), 0); data[3] = new HD(getMessage()); data[4] = new IS(getMessage(), 203); data[5] = new HD(getMessage()); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new CCD(getMessage()); case 1: return new ID(getMessage(), new Integer( 122 )); case 2: return new CX(getMessage()); default: return null; } }
/** * Returns assigning facility (component 6). This is a convenience method that saves you from * casting and handling an exception. */ public HD getCx6_AssigningFacility() { return getTyped(5, HD.class); }
/** * Creates a new CX type */ public CX(Message message) { super(message); init(); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new CCD(getMessage()); case 1: return new ID(getMessage(), new Integer( 122 )); case 2: return new CX(getMessage()); default: return null; } }
/** * Returns ID (component 1). This is a convenience method that saves you from * casting and handling an exception. */ public ST getCx1_ID() { return getTyped(0, ST.class); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new IS(getMessage(), new Integer( 223 )); case 1: return new IS(getMessage(), new Integer( 220 )); case 2: return new XON(getMessage()); case 3: return new XCN(getMessage()); case 4: return new IS(getMessage(), new Integer( 231 )); case 5: return new IS(getMessage(), new Integer( 295 )); case 6: return new IS(getMessage(), new Integer( 315 )); case 7: return new IS(getMessage(), new Integer( 316 )); case 8: return new ID(getMessage(), new Integer( 136 )); case 9: return new CX(getMessage()); case 10: return new CE(getMessage()); case 11: return new ID(getMessage(), new Integer( 136 )); default: return null; } }
/** * Returns check digit (component 2). This is a convenience method that saves you from * casting and handling an exception. */ public ST getCheckDigit() { return getTyped(1, ST.class); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new IS(getMessage(), new Integer( 223 )); case 1: return new IS(getMessage(), new Integer( 220 )); case 2: return new XON(getMessage()); case 3: return new XCN(getMessage()); case 4: return new IS(getMessage(), new Integer( 231 )); case 5: return new IS(getMessage(), new Integer( 295 )); case 6: return new IS(getMessage(), new Integer( 315 )); case 7: return new IS(getMessage(), new Integer( 316 )); case 8: return new ID(getMessage(), new Integer( 136 )); case 9: return new CX(getMessage()); case 10: return new CE(getMessage()); case 11: return new ID(getMessage(), new Integer( 136 )); default: return null; } }
/** * Returns code identifying the check digit scheme employed (component 3). This is a convenience method that saves you from * casting and handling an exception. */ public ID getCodeIdentifyingTheCheckDigitSchemeEmployed() { return getTyped(2, ID.class); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new SI(getMessage()); case 1: return new IS(getMessage(), new Integer( 334 )); case 2: return new CX(getMessage()); case 3: return new ID(getMessage(), new Integer( 136 )); case 4: return new DT(getMessage()); case 5: return new DT(getMessage()); case 6: return new DT(getMessage()); case 7: return new DT(getMessage()); default: return null; } }
/** * Returns assigning authority (component 4). This is a convenience method that saves you from * casting and handling an exception. */ public HD getAssigningAuthority() { return getTyped(3, HD.class); }
/** {@inheritDoc} */ protected Type createNewTypeWithoutReflection(int field) { switch (field) { case 0: return new SI(getMessage()); case 1: return new IS(getMessage(), new Integer( 334 )); case 2: return new CX(getMessage()); case 3: return new ID(getMessage(), new Integer( 136 )); case 4: return new DT(getMessage()); case 5: return new DT(getMessage()); case 6: return new DT(getMessage()); case 7: return new DT(getMessage()); default: return null; } }
/** * Returns ID (component 1). This is a convenience method that saves you from * casting and handling an exception. */ public ST getCx1_ID() { return getTyped(0, ST.class); }
case 2: return new PL(getMessage()); case 3: return new IS(getMessage(), new Integer( 7 )); case 4: return new CX(getMessage()); case 5: return new PL(getMessage()); case 6: return new XCN(getMessage()); case 16: return new XCN(getMessage()); case 17: return new IS(getMessage(), new Integer( 18 )); case 18: return new CX(getMessage()); case 19: return new FC(getMessage()); case 20: return new IS(getMessage(), new Integer( 32 )); case 47: return new NM(getMessage()); case 48: return new NM(getMessage()); case 49: return new CX(getMessage()); case 50: return new IS(getMessage(), new Integer( 326 )); case 51: return new XCN(getMessage());