*/
package org.opendaylight.mdsal.binding.java.api.generator;
-import com.google.common.base.Preconditions;
+import static com.google.common.base.Verify.verifyNotNull;
+import static java.util.Objects.requireNonNull;
+
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableMap.Builder;
-import java.util.Map;
import java.util.function.Function;
-import javax.annotation.Nonnull;
+import org.eclipse.jdt.annotation.NonNull;
import org.opendaylight.mdsal.binding.model.api.ConcreteType;
import org.opendaylight.mdsal.binding.model.api.Type;
import org.opendaylight.yangtools.yang.model.api.type.RangeConstraint;
abstract class AbstractRangeGenerator<T extends Number & Comparable<T>> {
private static final Logger LOG = LoggerFactory.getLogger(AbstractRangeGenerator.class);
- private static final Map<String, AbstractRangeGenerator<?>> GENERATORS;
+ private static final ImmutableMap<String, AbstractRangeGenerator<?>> GENERATORS;
- private static void addGenerator(final Builder<String, AbstractRangeGenerator<?>> b, final AbstractRangeGenerator<?> generator) {
- b.put(generator.getTypeClass().getCanonicalName(), generator);
+ private static void addGenerator(final Builder<String, AbstractRangeGenerator<?>> builder,
+ final AbstractRangeGenerator<?> generator) {
+ builder.put(generator.getTypeClass().getCanonicalName(), generator);
}
static {
- final Builder<String, AbstractRangeGenerator<?>> b = ImmutableMap.<String, AbstractRangeGenerator<?>> builder();
+ final Builder<String, AbstractRangeGenerator<?>> b = ImmutableMap.builder();
addGenerator(b, new ByteRangeGenerator());
addGenerator(b, new ShortRangeGenerator());
addGenerator(b, new IntegerRangeGenerator());
addGenerator(b, new LongRangeGenerator());
- addGenerator(b, new BigDecimalRangeGenerator());
- addGenerator(b, new BigIntegerRangeGenerator());
+ addGenerator(b, new Decimal64RangeGenerator());
+ addGenerator(b, new Uint8RangeGenerator());
+ addGenerator(b, new Uint16RangeGenerator());
+ addGenerator(b, new Uint32RangeGenerator());
+ addGenerator(b, new Uint64RangeGenerator());
GENERATORS = b.build();
}
- private final Class<T> type;
+ private final @NonNull Class<T> type;
protected AbstractRangeGenerator(final Class<T> typeClass) {
- this.type = Preconditions.checkNotNull(typeClass);
+ this.type = requireNonNull(typeClass);
}
- static AbstractRangeGenerator<?> forType(@Nonnull final Type type) {
+ static @NonNull AbstractRangeGenerator<?> forType(final @NonNull Type type) {
final ConcreteType javaType = TypeUtils.getBaseYangType(type);
- return GENERATORS.get(javaType.getFullyQualifiedName());
+ return forName(javaType.getFullyQualifiedName());
+ }
+
+ private static @NonNull AbstractRangeGenerator<?> forName(final String fqcn) {
+ return verifyNotNull(GENERATORS.get(fqcn), "Unhandled type %s", fqcn);
}
/**
*
* @return A class object
*/
- @Nonnull protected final Class<T> getTypeClass() {
+ protected final @NonNull Class<T> getTypeClass() {
return type;
}
*
* @return Fully-qualified name
*/
- @Nonnull protected final String getTypeName() {
+ protected final @NonNull String getTypeName() {
return type.getName();
}
* @param value Value as a Number
* @return Value in native format.
*/
- @Nonnull protected final T getValue(final Number value) {
+ protected final @NonNull T getValue(final Number value) {
if (type.isInstance(value)) {
return type.cast(value);
}
final T ret = convert(value);
// Check if the conversion lost any precision by performing conversion the other way around
- final AbstractRangeGenerator<?> gen = GENERATORS.get(value.getClass().getName());
+ final AbstractRangeGenerator<?> gen = forName(value.getClass().getName());
final Number check = gen.convert(ret);
if (!value.equals(check)) {
LOG.warn("Number class conversion from {} to {} truncated value {} to {}", value.getClass(), type, value,
* @param value Number value
* @return Java language string representation
*/
- @Nonnull protected abstract String format(T value);
+ protected abstract @NonNull String format(T value);
/**
* Generate the checker method source code.
* @param constraints Restrictions which need to be applied.
* @return Method source code.
*/
- @Nonnull protected abstract String generateRangeCheckerImplementation(@Nonnull String checkerName,
- @Nonnull RangeConstraint<?> constraints, Function<Class<?>, String> classImporter);
+ protected abstract @NonNull String generateRangeCheckerImplementation(@NonNull String checkerName,
+ @NonNull RangeConstraint<?> constraints, Function<Class<?>, String> classImporter);
- private static String rangeCheckerName(final String member) {
+ private static @NonNull String rangeCheckerName(final String member) {
return "check" + member + "Range";
}
- String generateRangeChecker(@Nonnull final String member, @Nonnull final RangeConstraint<?> constraints,
+ String generateRangeChecker(final @NonNull String member, final @NonNull RangeConstraint<?> constraints,
final JavaFileTemplate template) {
return generateRangeCheckerImplementation(rangeCheckerName(member), constraints, template::importedName);
}
- String generateRangeCheckerCall(@Nonnull final String member, @Nonnull final String valueReference) {
- return rangeCheckerName(member) + '(' + valueReference + ");\n";
+ String generateRangeCheckerCall(final @NonNull String member, final @NonNull String valueReference) {
+ return rangeCheckerName(member) + '(' + valueReference + primitiveRef() + ");\n";
+ }
+
+ String primitiveRef() {
+ return "";
}
}