private VPackCache.FieldInfo createFieldInfo(java.lang.reflect.Field field) { string fieldName = field.getName(); if (this.fieldNamingStrategy != null) { fieldName = this.fieldNamingStrategy.translateName(field); } com.arangodb.velocypack.annotations.SerializedName annotationName = field.getAnnotation <com.arangodb.velocypack.annotations.SerializedName>(); if (annotationName != null) { fieldName = annotationName.value(); } com.arangodb.velocypack.annotations.Expose expose = field.getAnnotation <com.arangodb.velocypack.annotations.Expose >(); bool serialize = expose != null?expose.serialize() : true; bool deserialize = expose != null?expose.deserialize() : true; java.lang.Class clazz = field.getType(); global::System.Type type; if (typeof(System.Collections.ICollection).isAssignableFrom (clazz) || typeof(System.Collections.IDictionary ).isAssignableFrom(clazz)) { type = (java.lang.reflect.ParameterizedType)field.getGenericType(); } else { type = clazz; } return(new _FieldInfo_153(field, type, fieldName, serialize, deserialize)); }
public string translateName(java.lang.reflect.Field field) { com.arangodb.entity.DocumentFieldAttribute annotation = field.getAnnotation <com.arangodb.entity.DocumentFieldAttribute >(); if (annotation != null) { return(annotation.value().getSerializeName()); } return(field.getName()); }
private void AddMembers(String p, Symbol s, java.lang.Class ci, List <object> exceptFor, int maxDepth) { Package pkg = CurrentPackage(); String ns = ci.getName(); if (!useClassname(ns)) { return; } WriteLine("; importing " + p + " as " + ns); java.lang.reflect.Field[] fi = ci.getFields(); for (int i = 0; i < fi.Length; i++) { java.lang.reflect.Field f = fi[i]; f.setAccessible(true); String fname = ("" + p + "." + f.getName()).ToUpper(); Symbol old = pkg.findAccessibleSymbol(fname); if (old != null) { // fname = ("" + p + "%" + f.getName()).ToUpper() + ""; // old = pkg.findAccessibleSymbol(fname); } bool needsClear = false; if (old == null) { old = pkg.intern(new SimpleString(fname)); needsClear = true; // WriteLine(";;; skip field " + fname + " for " + f); // continue; } WriteLine(";;; field " + fname + " for " + f); Symbol sfm = Intern(fname, null, exceptFor, f.getType(), maxDepth - 1);// IkvmSite.fieldToInstanceSymbol(fname, pkg, s, f); if (needsClear) { sfm.setSymbolValue(null); } if (maxDepth > 0) { exceptFor.Add(f); AddMembers(fname, sfm, f.getType(), exceptFor, maxDepth - 1); } else { if (false && !exceptFor.Contains(f)) { exceptFor.Add(f); AddMembers(fname, sfm, ikvm.runtime.Util.getInstanceTypeFromClass(f.getType()), exceptFor, maxDepth - 1); } } } java.lang.reflect.Method[] mi = ci.getDeclaredMethods(); if (false) { for (int i = 0; i < mi.Length; i++) { java.lang.reflect.Method m = mi[i]; String fname = ("" + p + "." + m.getName()).ToUpper() + ""; Symbol old = pkg.findAccessibleSymbol(fname); if (old != null) { fname = ("" + p + "/" + m.getName()).ToUpper() + ""; old = pkg.findAccessibleSymbol(fname); } if (old != null) { fname = ("" + p + "//" + m.getName()).ToUpper() + ""; old = pkg.findAccessibleSymbol(fname); } if (old != null) { WriteLine(";;; skip method " + fname + " for " + m); continue; } WriteLine(";;; method " + p + " as " + fname + " to " + m); //LispObject sfm = IkvmSite.methodToInstanceSymbol(fname, pkg, s, m); } } }