private void _addParamElements(Element methodElement, JavaMethod javaMethod) {
JavaParameter[] javaParameters = javaMethod.getParameters();
DocletTag[] paramDocletTags = javaMethod.getTagsByName("param");
for (JavaParameter javaParameter : javaParameters) {
_addParamElement(methodElement, javaParameter, paramDocletTags);
}
}
// Processes parameters of javaMethod and enters the proper key-values into the methodNode
private void processParameters(JavaMethod javaMethod, ObjectNode methodNode) {
ArrayNode parameters = mapper.createArrayNode();
methodNode.set("parameters", parameters);
boolean required = true;
for (JavaParameter javaParameter : javaMethod.getParameters()) {
ObjectNode individualParameterNode = mapper.createObjectNode();
Optional<JavaAnnotation> optional =
javaParameter
.getAnnotations()
.stream()
.filter(
annotation ->
annotation.getType().getName().equals(PATH_PARAM)
|| annotation.getType().getName().equals(QUERY_PARAM))
.findAny();
JavaAnnotation pathType = optional.isPresent() ? optional.get() : null;
String annotationName = javaParameter.getName();
if (pathType != null) { // the parameter is a path or query parameter
individualParameterNode.put(
"name", pathType.getNamedParameter("value").toString().replace("\"", ""));
if (pathType.getType().getName().equals(PATH_PARAM)) {
individualParameterNode.put("in", "path");
} else if (pathType.getType().getName().equals(QUERY_PARAM)) {
individualParameterNode.put("in", "query");
}
individualParameterNode.put("type", getType(javaParameter.getType()));
} else { // the parameter is a body parameter
individualParameterNode.put("name", annotationName);
individualParameterNode.put("in", "body");
// TODO add actual hardcoded schemas and a type
// body parameters must have a schema associated with them
ArrayNode schema = mapper.createArrayNode();
individualParameterNode.set("schema", schema);
}
for (DocletTag p : javaMethod.getTagsByName("param")) {
if (p.getValue().contains(annotationName)) {
try {
String description = p.getValue().split(" ", 2)[1].trim();
if (description.contains("optional")) {
required = false;
}
individualParameterNode.put("description", description);
} catch (Exception e) {
e.printStackTrace();
}
}
}
individualParameterNode.put("required", required);
parameters.add(individualParameterNode);
}
}
private void buildQueryAndPathDocuments(
Method method, JavaMethod javaMethod, MethodDocument document) {
if (method.getParameterTypes().length != javaMethod.getParameters().length) {
LOG.error(
"Unable to generate argument documentation: number of method arguments is not "
+ "the same as number of @param found in javadoc.");
return;
}
List<ParamDocument> queryParams = new ArrayList<ParamDocument>();
List<ParamDocument> pathParams = new ArrayList<ParamDocument>();
Annotation[][] annotations = method.getParameterAnnotations();
for (int i = 0; i < annotations.length; i++) {
JavaParameter javaParameter = javaMethod.getParameters()[i];
DocletTag javaParameterTag = javaMethod.getTagsByName("param")[i];
// Check annotations at parameter i
for (Annotation a : annotations[i]) {
if (a.annotationType() == QueryParam.class) {
queryParams.add(
new ParamDocument(
javaParameter.getName(),
extractParameterValue(javaParameterTag, javaParameter.getName())));
} else if (a.annotationType() == PathParam.class) {
pathParams.add(
new ParamDocument(
javaParameter.getName(),
extractParameterValue(javaParameterTag, javaParameter.getName())));
}
}
}
LOG.info("Found {} query params for method {}", queryParams.size(), method.getName());
LOG.info("Found {} path params for method {}", pathParams.size(), method.getName());
document.setQueryParams(ImmutableList.copyOf(queryParams));
document.setPathParams(ImmutableList.copyOf(pathParams));
}
private String _getMethodKey(JavaMethod javaMethod) {
StringBundler sb = new StringBundler();
sb.append(javaMethod.getName());
sb.append(StringPool.OPEN_PARENTHESIS);
JavaParameter[] javaParameters = javaMethod.getParameters();
for (JavaParameter javaParameter : javaParameters) {
sb.append(javaParameter.getName());
sb.append("|");
sb.append(_getTypeValue(javaParameter));
sb.append(",");
}
sb.append(StringPool.CLOSE_PARENTHESIS);
return sb.toString();
}
private String _getMethodKey(JavaMethod javaMethod) {
StringBuilder sb = new StringBuilder();
sb.append(javaMethod.getName());
sb.append("(");
JavaParameter[] javaParameters = javaMethod.getParameters();
for (JavaParameter javaParameter : javaParameters) {
sb.append(javaParameter.getName());
sb.append("|");
sb.append(javaParameter.getType().getValue());
sb.append(",");
}
sb.append(")");
return sb.toString();
}
private void _copyInterface(String parentDir, String srcFile) throws IOException {
JavaClass javaClass = _getJavaClass(parentDir, srcFile);
JavaMethod[] methods = javaClass.getMethods();
Arrays.sort(methods, new JavaMethodComparator());
StringMaker sm = new StringMaker();
// Package
sm.append("package " + javaClass.getPackage() + ";");
// Imports
sm.append("[$IMPORTS$]");
// Class declaration
sm.append(
"public class Copy" + javaClass.getName() + " implements " + javaClass.getName() + " {");
String varName = "_" + TextFormatter.format(javaClass.getName(), TextFormatter.I);
// Methods
Set imports = new TreeSet();
for (int i = 0; i < methods.length; i++) {
JavaMethod javaMethod = methods[i];
String methodName = javaMethod.getName();
if (javaMethod.isPublic()) {
String returnValueName = javaMethod.getReturns().getValue();
imports.add(returnValueName);
sm.append(
"public "
+ javaMethod.getReturns().getJavaClass().getName()
+ _getDimensions(javaMethod.getReturns())
+ " "
+ methodName
+ "(");
JavaParameter[] parameters = javaMethod.getParameters();
for (int j = 0; j < parameters.length; j++) {
JavaParameter javaParameter = parameters[j];
sm.append(
javaParameter.getType().getJavaClass().getName()
+ _getDimensions(javaParameter.getType())
+ " "
+ javaParameter.getName());
imports.add(javaParameter.getType().getValue());
if ((j + 1) != parameters.length) {
sm.append(", ");
}
}
sm.append(")");
Type[] thrownExceptions = javaMethod.getExceptions();
Set newExceptions = new LinkedHashSet();
for (int j = 0; j < thrownExceptions.length; j++) {
Type thrownException = thrownExceptions[j];
newExceptions.add(thrownException.getJavaClass().getName());
imports.add(thrownException.getValue());
}
if (newExceptions.size() > 0) {
sm.append(" throws ");
Iterator itr = newExceptions.iterator();
while (itr.hasNext()) {
sm.append(itr.next());
if (itr.hasNext()) {
sm.append(", ");
}
}
}
sm.append("{");
if (!returnValueName.equals("void")) {
sm.append("return ");
}
sm.append(varName + "." + methodName + "(");
for (int j = 0; j < parameters.length; j++) {
JavaParameter javaParameter = parameters[j];
sm.append(javaParameter.getName());
if ((j + 1) != parameters.length) {
sm.append(", ");
}
}
sm.append(");");
sm.append("}");
}
}
// Fields
sm.append("private " + javaClass.getName() + " " + varName + ";");
// Class close brace
sm.append("}");
// Imports
String content = sm.toString();
sm = new StringMaker();
Iterator itr = imports.iterator();
while (itr.hasNext()) {
String importClass = (String) itr.next();
if (!importClass.equals("boolean")
&& !importClass.equals("double")
&& !importClass.equals("int")
&& !importClass.equals("long")
&& !importClass.equals("short")
&& !importClass.equals("void")) {
sm.append("import " + importClass + ";");
}
}
content = StringUtil.replace(content, "[$IMPORTS$]", sm.toString());
// Write file
File file =
new File(
parentDir
+ "/"
+ StringUtil.replace(javaClass.getPackage(), ".", "/")
+ "/Copy"
+ javaClass.getName()
+ ".java");
ServiceBuilder.writeFile(file, content);
}
private boolean _isOverrideMethod(
JavaClass javaClass, JavaMethod javaMethod, Collection<Tuple> ancestorJavaClassTuples) {
if (javaMethod.isConstructor() || javaMethod.isPrivate() || javaMethod.isStatic()) {
return false;
}
String methodName = javaMethod.getName();
JavaParameter[] javaParameters = javaMethod.getParameters();
Type[] types = new Type[javaParameters.length];
for (int i = 0; i < javaParameters.length; i++) {
types[i] = javaParameters[i].getType();
}
// Check for matching method in each ancestor
for (Tuple ancestorJavaClassTuple : ancestorJavaClassTuples) {
JavaClass ancestorJavaClass = (JavaClass) ancestorJavaClassTuple.getObject(0);
JavaMethod ancestorJavaMethod = null;
if (ancestorJavaClassTuple.getSize() > 1) {
// LPS-35613
Type[] ancestorActualTypeArguments = (Type[]) ancestorJavaClassTuple.getObject(1);
Type[] genericTypes = new Type[types.length];
for (int i = 0; i < types.length; i++) {
Type type = types[i];
String typeValue = type.getValue();
boolean useGenericType = false;
for (int j = 0; j < ancestorActualTypeArguments.length; j++) {
if (typeValue.equals(ancestorActualTypeArguments[j].getValue())) {
useGenericType = true;
break;
}
}
if (useGenericType) {
genericTypes[i] = new Type("java.lang.Object");
} else {
genericTypes[i] = type;
}
}
ancestorJavaMethod = ancestorJavaClass.getMethodBySignature(methodName, genericTypes);
} else {
ancestorJavaMethod = ancestorJavaClass.getMethodBySignature(methodName, types);
}
if (ancestorJavaMethod == null) {
continue;
}
boolean samePackage = false;
JavaPackage ancestorJavaPackage = ancestorJavaClass.getPackage();
if (ancestorJavaPackage != null) {
samePackage = ancestorJavaPackage.equals(javaClass.getPackage());
}
// Check if the method is in scope
if (samePackage) {
return !ancestorJavaMethod.isPrivate();
} else {
if (ancestorJavaMethod.isProtected() || ancestorJavaMethod.isPublic()) {
return true;
} else {
return false;
}
}
}
return false;
}
// Processes parameters of javaMethod and enters the proper key-values into the methodNode
private void processParameters(
JavaMethod javaMethod, ObjectNode methodNode, String method, DocletTag tag) {
ArrayNode parameters = mapper.createArrayNode();
methodNode.set("parameters", parameters);
boolean required = true;
for (JavaParameter javaParameter : javaMethod.getParameters()) {
ObjectNode individualParameterNode = mapper.createObjectNode();
Optional<JavaAnnotation> optional =
javaParameter
.getAnnotations()
.stream()
.filter(
annotation ->
annotation.getType().getName().equals(PATH_PARAM)
|| annotation.getType().getName().equals(QUERY_PARAM))
.findAny();
JavaAnnotation pathType = optional.isPresent() ? optional.get() : null;
String annotationName = javaParameter.getName();
if (pathType != null) { // the parameter is a path or query parameter
individualParameterNode.put(
"name", pathType.getNamedParameter("value").toString().replace("\"", ""));
if (pathType.getType().getName().equals(PATH_PARAM)) {
individualParameterNode.put("in", "path");
} else if (pathType.getType().getName().equals(QUERY_PARAM)) {
individualParameterNode.put("in", "query");
}
individualParameterNode.put("type", getType(javaParameter.getType()));
} else { // the parameter is a body parameter
individualParameterNode.put("name", annotationName);
individualParameterNode.put("in", "body");
// Adds the reference to the Json model for the input
// that goes in the post or put operation
if (tag != null
&& (method.toLowerCase().equals("post") || method.toLowerCase().equals("put"))) {
ObjectNode schema = mapper.createObjectNode();
tag.getParameters()
.stream()
.forEach(
param -> {
schema.put("$ref", "#/definitions/" + param);
});
individualParameterNode.set("schema", schema);
}
}
for (DocletTag p : javaMethod.getTagsByName("param")) {
if (p.getValue().contains(annotationName)) {
try {
String description = p.getValue().split(" ", 2)[1].trim();
if (description.contains("optional")) {
required = false;
}
individualParameterNode.put("description", description);
} catch (Exception e) {
e.printStackTrace();
}
}
}
individualParameterNode.put("required", required);
parameters.add(individualParameterNode);
}
}