/** * Generate for the first line the headers of the columns * * @return the headers columns */ public String generateHeader() { Map<Integer, DataField> dataFieldsSorted = new TreeMap<Integer, DataField>(dataFields); Iterator<Integer> it = dataFieldsSorted.keySet().iterator(); StringBuilder builderHeader = new StringBuilder(); while (it.hasNext()) { DataField dataField = dataFieldsSorted.get(it.next()); // Retrieve the field Field field = annotatedFields.get(dataField.pos()); // Change accessibility to allow to read protected/private fields field.setAccessible(true); // Get dataField if (!dataField.columnName().equals("")) { builderHeader.append(dataField.columnName()); } else { builderHeader.append(field.getName()); } if (it.hasNext()) { builderHeader.append(separator); } } return builderHeader.toString(); }
/** * Set the default values for the non defined fields. * * @param model the model which has its default fields set. * @throws IllegalAccessException if the underlying fields are inaccessible * @throws Exception In case the field cannot be parsed */ private void setDefaultValuesForFields(final Map<String, Object> model) throws IllegalAccessException, Exception { // Set the default values, if defined for (int i = 1; i <= dataFields.size(); i++) { Field field = annotatedFields.get(i); field.setAccessible(true); DataField dataField = dataFields.get(i); Object modelField = model.get(field.getDeclaringClass().getName()); if (field.get(modelField) == null && !dataField.defaultValue().isEmpty()) { Format<?> format = FormatFactory.getFormat(field.getType(), getLocale(), dataField); Object value = format.parse(dataField.defaultValue()); field.set(modelField, value); } } }
@Override public void initAnnotatedFields() { maxpos = 0; for (Class<?> cl : models) { List<Field> linkFields = new ArrayList<Field>(); if (LOG.isDebugEnabled()) { LOG.debug("Class retrieved: {}", cl.getName()); } for (Field field : cl.getDeclaredFields()) { DataField dataField = field.getAnnotation(DataField.class); if (dataField != null) { if (LOG.isDebugEnabled()) { LOG.debug( "Position defined in the class: {}, position: {}, Field: {}", new Object[] {cl.getName(), dataField.pos(), dataField}); } if (dataField.required()) { ++numberMandatoryFields; } else { ++numberOptionalFields; } int pos = dataField.pos(); if (annotatedFields.containsKey(pos)) { Field f = annotatedFields.get(pos); LOG.warn( "Potentially invalid model: existing @DataField '{}' replaced by '{}'", f.getName(), field.getName()); } dataFields.put(pos, dataField); annotatedFields.put(pos, field); maxpos = Math.max(maxpos, pos); } Link linkField = field.getAnnotation(Link.class); if (linkField != null) { if (LOG.isDebugEnabled()) { LOG.debug("Class linked: {}, Field: {}", cl.getName(), field); } linkFields.add(field); } } if (!linkFields.isEmpty()) { annotatedLinkFields.put(cl.getName(), linkFields); } totalFields = numberMandatoryFields + numberOptionalFields; if (LOG.isDebugEnabled()) { LOG.debug("Number of optional fields: {}", numberOptionalFields); LOG.debug("Number of mandatory fields: {}", numberMandatoryFields); LOG.debug("Total: {}", totalFields); } } if (annotatedFields.size() < maxpos) { LOG.info( "Potentially incomplete model: some csv fields may not be mapped to @DataField members"); } }
/** * Generate a table containing the data formatted and sorted with their position/offset If the * model is Ordered than a key is created combining the annotation @Section and Position of the * field If a relation @OneToMany is defined, than we iterate recursively through this function * The result is placed in the Map<Integer, List> results */ private void generateCsvPositionMap( Class<?> clazz, Object obj, Map<Integer, List<String>> results) throws Exception { String result = ""; for (Field field : clazz.getDeclaredFields()) { field.setAccessible(true); DataField datafield = field.getAnnotation(DataField.class); if (datafield != null) { if (obj != null) { // Retrieve the format, pattern and precision associated to the type Class<?> type = field.getType(); // Create format Format<?> format = FormatFactory.getFormat(type, getLocale(), datafield); // Get field value Object value = field.get(obj); result = formatString(format, value); if (datafield.trim()) { result = result.trim(); } if (datafield.clip() && result.length() > datafield.length()) { result = result.substring(0, datafield.length()); } if (LOG.isDebugEnabled()) { LOG.debug( "Value to be formatted: {}, position: {}, and its formatted value: {}", new Object[] {value, datafield.pos(), result}); } } else { result = ""; } Integer key; if (isMessageOrdered() && obj != null) { // Generate a key using the number of the section // and the position of the field Integer key1 = sections.get(obj.getClass().getName()); Integer key2 = datafield.position(); Integer keyGenerated = generateKey(key1, key2); if (LOG.isDebugEnabled()) { LOG.debug("Key generated: {}, for section: {}", String.valueOf(keyGenerated), key1); } key = keyGenerated; } else { key = datafield.pos(); } if (!results.containsKey(key)) { List<String> list = new LinkedList<String>(); list.add(result); results.put(key, list); } else { List<String> list = results.get(key); list.add(result); } } OneToMany oneToMany = field.getAnnotation(OneToMany.class); if (oneToMany != null) { // Set global variable // Will be used during generation of CSV isOneToMany = true; List<?> list = (List<?>) field.get(obj); if (list != null) { Iterator<?> it = list.iterator(); while (it.hasNext()) { Object target = it.next(); generateCsvPositionMap(target.getClass(), target, results); } } else { // Call this function to add empty value // in the table generateCsvPositionMap(field.getClass(), null, results); } } } }
public void bind(List<String> tokens, Map<String, Object> model, int line) throws Exception { int pos = 1; int counterMandatoryFields = 0; for (String data : tokens) { // Get DataField from model DataField dataField = dataFields.get(pos); ObjectHelper.notNull( dataField, "No position " + pos + " defined for the field: " + data + ", line: " + line); if (dataField.trim()) { data = data.trim(); } if (dataField.required()) { // Increment counter of mandatory fields ++counterMandatoryFields; // Check if content of the field is empty // This is not possible for mandatory fields if (data.equals("")) { throw new IllegalArgumentException( "The mandatory field defined at the position " + pos + " is empty for the line: " + line); } } // Get Field to be setted Field field = annotatedFields.get(pos); field.setAccessible(true); if (LOG.isDebugEnabled()) { LOG.debug("Pos: {}, Data: {}, Field type: {}", new Object[] {pos, data, field.getType()}); } // Create format object to format the field Format<?> format = FormatFactory.getFormat(field.getType(), getLocale(), dataField); // field object to be set Object modelField = model.get(field.getDeclaringClass().getName()); // format the data received Object value = null; if (!data.equals("")) { try { value = format.parse(data); } catch (FormatException ie) { throw new IllegalArgumentException( ie.getMessage() + ", position: " + pos + ", line: " + line, ie); } catch (Exception e) { throw new IllegalArgumentException( "Parsing error detected for field defined at the position: " + pos + ", line: " + line, e); } } else { if (!dataField.defaultValue().isEmpty()) { value = format.parse(dataField.defaultValue()); } else { value = getDefaultValueForPrimitive(field.getType()); } } field.set(modelField, value); ++pos; } LOG.debug("Counter mandatory fields: {}", counterMandatoryFields); if (counterMandatoryFields < numberMandatoryFields) { throw new IllegalArgumentException("Some mandatory fields are missing, line: " + line); } if (pos < totalFields) { setDefaultValuesForFields(model); } }