/** * Parse type variables for generics * * @param variables * @return */ protected static TypeVar[] ParseTypeVariables(TypeVariable[] variables, ParamTag[] tags) { TypeVar[] vars = null; if (variables != null && variables.length > 0) { ArrayList<TypeVar> varsList = new ArrayList<TypeVar>(); for (TypeVariable variable : variables) { TypeVar var = new TypeVar(); var.name = variable.typeName(); Type[] bounds = variable.bounds(); if (bounds != null && bounds.length > 0) { ArrayList<String> list = new ArrayList<String>(); for (Type bound : bounds) { list.add(bound.qualifiedTypeName()); } var.bounds = list.toArray(new String[] {}); } for (ParamTag tag : tags) if (tag.parameterName().equals(var.name)) var.comment = tag.parameterComment(); varsList.add(var); } vars = varsList.toArray(new TypeVar[] {}); } return vars; }
/** * Parses a constructor type definition * * @param docConstructor * @return */ protected static Constructor ParseConstructor(ConstructorDoc docConstructor) { assert (docConstructor != null); Constructor xmlConstructor = new Constructor(); xmlConstructor.name = docConstructor.name(); xmlConstructor.comment = docConstructor.commentText(); xmlConstructor.scope = DetermineScope(docConstructor); xmlConstructor.isVarArgs = docConstructor.isVarArgs(); xmlConstructor.isDefault = docConstructor.position().line() == docConstructor.containingClass().position().line(); Parameter[] parameters = docConstructor.parameters(); if (parameters != null && parameters.length > 0) { ParamTag[] paramComments = docConstructor.paramTags(); ArrayList<Param> methodList = new ArrayList<Param>(); for (Parameter parameter : parameters) { ParamTag paramComment = null; // look to see if this parameter has comments // if so, paramComment will be set for (ParamTag testParam : paramComments) { String testParamName = testParam.parameterName(); if (testParamName != null) { if (testParamName.compareTo(parameter.name()) == 0) { paramComment = testParam; break; } } } methodList.add(ParseParameter(parameter, paramComment)); } xmlConstructor.parameters = methodList.toArray(new Param[] {}); } else { log.debug("No parameters for method: " + docConstructor.name()); } // parse annotations for the constructor xmlConstructor.annotationInstances = ParseAnnotationInstances(docConstructor.annotations(), docConstructor.qualifiedName()); return xmlConstructor; }
/** * Parses a method parameter type definition * * @param docParameter * @param paramComment * @return */ protected static Param ParseParameter(Parameter docParameter, ParamTag paramComment) { assert (docParameter != null); Param xmlParameter = new Param(); xmlParameter.name = docParameter.name(); xmlParameter.type = ParseType(docParameter.type()); if (paramComment != null) { xmlParameter.comment = paramComment.parameterComment(); } xmlParameter.annotationInstances = ParseAnnotationInstances(docParameter.annotations(), docParameter.typeName()); return xmlParameter; }
/** * Parses a method type definition * * @param docMethod * @return */ protected static Method ParseMethod(MethodDoc docMethod) { assert (docMethod != null); Method xmlMethod = new Method(); xmlMethod.name = docMethod.name(); xmlMethod.hash = computeHash(docMethod.qualifiedName(), docMethod.signature()); xmlMethod.qualifiedName = docMethod.qualifiedName(); xmlMethod.comment = docMethod.commentText(); xmlMethod.signature = docMethod.signature(); xmlMethod.isNative = docMethod.isNative(); xmlMethod.isVarArgs = docMethod.isVarArgs(); xmlMethod.isSynchronized = docMethod.isSynchronized(); xmlMethod.isFinal = docMethod.isFinal(); xmlMethod.isAbstract = docMethod.isAbstract(); xmlMethod.isStatic = docMethod.isStatic(); xmlMethod.scope = DetermineScope(docMethod); // Parse parameters of the method Parameter[] parameters = docMethod.parameters(); if (parameters != null && parameters.length > 0) { ParamTag[] paramComments = docMethod.paramTags(); ArrayList<Param> paramList = new ArrayList<Param>(); for (Parameter parameter : parameters) { ParamTag paramComment = null; // look to see if this parameter has comments // if so, paramComment will be set for (ParamTag testParam : paramComments) { String testParamName = testParam.parameterName(); if (testParamName != null) { if (testParamName.compareTo(parameter.name()) == 0) { paramComment = testParam; break; } } } paramList.add(ParseParameter(parameter, paramComment)); } xmlMethod.parameters = paramList.toArray(new Param[] {}); } else { log.debug("No parameters for method: " + docMethod.name()); } // Parse result data Result returnInfo = new Result(); Tag[] returnTags = docMethod.tags("@return"); if (returnTags != null && returnTags.length > 0) { // there should be only one return tag. but heck, // if they specify two, so what... StringBuilder builder = new StringBuilder(); for (Tag returnTag : returnTags) { String returnTagText = returnTag.text(); if (returnTagText != null) { builder.append(returnTagText); builder.append("\n"); } } returnInfo.comment = builder.substring(0, builder.length() - 1); } returnInfo.type = ParseType(docMethod.returnType()); xmlMethod.result = returnInfo; // Parse exceptions of the method Type[] types = docMethod.thrownExceptionTypes(); ThrowsTag[] exceptionComments = docMethod.throwsTags(); if (types != null && types.length > 0) { ArrayList<ExceptionInstance> exceptionList = new ArrayList<ExceptionInstance>(); for (Type exceptionType : types) { ExceptionInstance exception = new ExceptionInstance(); exception.type = ParseType(exceptionType); for (ThrowsTag exceptionComment : exceptionComments) { if (exceptionType == exceptionComment.exceptionType()) { exception.comment = exceptionComment.exceptionComment(); ClassDoc exceptionDetails = exceptionComment.exception(); // not yet parsing Exceptions defined within the supplied code set exception.type = ParseType(exceptionComment.exceptionType()); break; } } exceptionList.add(exception); } xmlMethod.exceptions = exceptionList.toArray(new ExceptionInstance[] {}); } // parse annotations from the method xmlMethod.annotationInstances = ParseAnnotationInstances(docMethod.annotations(), docMethod.qualifiedName()); return xmlMethod; }