/** * Format a {@link ParameterizedType} as a {@link String}. * @param p {@code ParameterizedType} to format * @return String * @since 3.2 */ private static String parameterizedTypeToString(final ParameterizedType p) { final StringBuilder buf = new StringBuilder(); final Type useOwner = p.getOwnerType(); final Class<?> raw = (Class<?>) p.getRawType(); if (useOwner == null) { buf.append(raw.getName()); } else { if (useOwner instanceof Class<?>) { buf.append(((Class<?>) useOwner).getName()); } else { buf.append(useOwner.toString()); } buf.append('.').append(raw.getSimpleName()); } final int[] recursiveTypeIndexes = findRecursiveTypes(p); if (recursiveTypeIndexes.length > 0) { appendRecursiveTypes(buf, recursiveTypeIndexes, p.getActualTypeArguments()); } else { appendAllTo(buf.append('<'), ", ", p.getActualTypeArguments()).append('>'); } return buf.toString(); }
/** * Format a {@link ParameterizedType} as a {@link String}. * @param p {@code ParameterizedType} to format * @return String * @since 3.2 */ private static String parameterizedTypeToString(final ParameterizedType p) { final StringBuilder buf = new StringBuilder(); final Type useOwner = p.getOwnerType(); final Class<?> raw = (Class<?>) p.getRawType(); if (useOwner == null) { buf.append(raw.getName()); } else { if (useOwner instanceof Class<?>) { buf.append(((Class<?>) useOwner).getName()); } else { buf.append(useOwner.toString()); } buf.append('.').append(raw.getSimpleName()); } final int[] recursiveTypeIndexes = findRecursiveTypes(p); if (recursiveTypeIndexes.length > 0) { appendRecursiveTypes(buf, recursiveTypeIndexes, p.getActualTypeArguments()); } else { appendAllTo(buf.append('<'), ", ", p.getActualTypeArguments()).append('>'); } return buf.toString(); }
/** * Format a {@link ParameterizedType} as a {@link String}. * @param p {@code ParameterizedType} to format * @return String * @since 3.2 */ private static String parameterizedTypeToString(final ParameterizedType p) { final StringBuilder buf = new StringBuilder(); final Type useOwner = p.getOwnerType(); final Class<?> raw = (Class<?>) p.getRawType(); if (useOwner == null) { buf.append(raw.getName()); } else { if (useOwner instanceof Class<?>) { buf.append(((Class<?>) useOwner).getName()); } else { buf.append(useOwner.toString()); } buf.append('.').append(raw.getSimpleName()); } final int[] recursiveTypeIndexes = findRecursiveTypes(p); if (recursiveTypeIndexes.length > 0) { appendRecursiveTypes(buf, recursiveTypeIndexes, p.getActualTypeArguments()); } else { appendAllTo(buf.append('<'), ", ", p.getActualTypeArguments()).append('>'); } return buf.toString(); }
/** * Format a {@link ParameterizedType} as a {@link String}. * @param p {@code ParameterizedType} to format * @return String * @since 3.2 */ private static String parameterizedTypeToString(final ParameterizedType p) { final StringBuilder buf = new StringBuilder(); final Type useOwner = p.getOwnerType(); final Class<?> raw = (Class<?>) p.getRawType(); if (useOwner == null) { buf.append(raw.getName()); } else { if (useOwner instanceof Class<?>) { buf.append(((Class<?>) useOwner).getName()); } else { buf.append(useOwner.toString()); } buf.append('.').append(raw.getSimpleName()); } final int[] recursiveTypeIndexes = findRecursiveTypes(p); if (recursiveTypeIndexes.length > 0) { appendRecursiveTypes(buf, recursiveTypeIndexes, p.getActualTypeArguments()); } else { appendAllTo(buf.append('<'), ", ", p.getActualTypeArguments()).append('>'); } return buf.toString(); }