*/
package org.opendaylight.mdsal.binding.java.api.generator;
-import com.google.common.base.Preconditions;
+import static java.util.Objects.requireNonNull;
+
import com.google.common.collect.Range;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
-import javax.annotation.Nonnull;
+import java.util.Set;
+import java.util.function.Function;
+import org.eclipse.jdt.annotation.NonNull;
+import org.opendaylight.yangtools.yang.binding.CodeHelpers;
import org.opendaylight.yangtools.yang.model.api.type.RangeConstraint;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
abstract class AbstractPrimitiveRangeGenerator<T extends Number & Comparable<T>> extends AbstractRangeGenerator<T> {
private static final Logger LOG = LoggerFactory.getLogger(AbstractPrimitiveRangeGenerator.class);
- private final String primitiveName;
- private final T minValue;
- private final T maxValue;
+ private final @NonNull String primitiveName;
+ private final @NonNull T minValue;
+ private final @NonNull T maxValue;
- protected AbstractPrimitiveRangeGenerator(final Class<T> typeClass, final String primitiveName, final T minValue, final T maxValue) {
+ AbstractPrimitiveRangeGenerator(final Class<T> typeClass, final String primitiveName, final T minValue,
+ final T maxValue) {
super(typeClass);
- this.primitiveName = Preconditions.checkNotNull(primitiveName);
- this.minValue = Preconditions.checkNotNull(minValue);
- this.maxValue = Preconditions.checkNotNull(maxValue);
+ this.primitiveName = requireNonNull(primitiveName);
+ this.minValue = requireNonNull(minValue);
+ this.maxValue = requireNonNull(maxValue);
}
/**
*
* @return Primitive type name
*/
- @Nonnull protected final String getPrimitiveName() {
+ protected final @NonNull String getPrimitiveName() {
return primitiveName;
}
return minValue.compareTo(minToEnforce) < 0;
}
- private Collection<String> createExpressions(final Collection<RangeConstraint> constraints) {
+ private Collection<String> createExpressions(final RangeConstraint<?> constraint,
+ final Function<Class<?>, String> classImporter) {
+ final Set<? extends Range<? extends Number>> constraints = constraint.getAllowedRanges().asRanges();
final Collection<String> ret = new ArrayList<>(constraints.size());
- for (RangeConstraint r : constraints) {
- final T min = getValue(r.getMin());
+ for (Range<? extends Number> r : constraints) {
+ final T min = getValue(r.lowerEndpoint());
final boolean needMin = needsMinimumEnforcement(min);
- final T max = getValue(r.getMax());
+ final T max = getValue(r.upperEndpoint());
final boolean needMax = needsMaximumEnforcement(max);
if (!needMin && !needMax) {
final StringBuilder sb = new StringBuilder();
if (needMin) {
- sb.append("value >= ").append(format(min));
+ appendMinCheck(sb, min, classImporter);
}
if (needMax) {
if (needMin) {
sb.append(" && ");
}
- sb.append("value <= ").append(format(max));
+ appendMaxCheck(sb, max, classImporter);
}
ret.add(sb.toString());
return ret;
}
- private String createRangeString(final Collection<RangeConstraint> constraints) {
+ void appendMaxCheck(final StringBuilder sb, final T max, final Function<Class<?>, String> classImporter) {
+ sb.append("value <= ").append(format(max));
+ }
+
+ void appendMinCheck(final StringBuilder sb, final T min, final Function<Class<?>, String> classImporter) {
+ sb.append("value >= ").append(format(min));
+ }
+
+ /**
+ * Format a value into a Java-compilable expression which results in the appropriate
+ * type.
+ *
+ * @param value Number value
+ * @return Java language string representation
+ */
+ protected abstract @NonNull String format(T value);
+
+ String codeHelpersThrow() {
+ return "throwInvalidRange";
+ }
+
+ private String createRangeString(final RangeConstraint<?> constraint) {
+ final Set<? extends Range<? extends Number>> constraints = constraint.getAllowedRanges().asRanges();
final List<Range<T>> ranges = new ArrayList<>(constraints.size());
- for (RangeConstraint c : constraints) {
- ranges.add(Range.closed(getValue(c.getMin()), getValue(c.getMax())));
+ for (Range<? extends Number> c : constraints) {
+ ranges.add(Range.closed(getValue(c.lowerEndpoint()), getValue(c.upperEndpoint())));
}
return ranges.toString();
}
@Override
- protected final String generateRangeCheckerImplementation(final String checkerName, final Collection<RangeConstraint> constraints) {
+ protected final String generateRangeCheckerImplementation(final String checkerName,
+ final RangeConstraint<?> constraints, final Function<Class<?>, String> classImporter) {
final StringBuilder sb = new StringBuilder();
- final Collection<String> expressions = createExpressions(constraints);
+ final Collection<String> expressions = createExpressions(constraints, classImporter);
- sb.append("private static void ").append(checkerName).append("(final ").append(primitiveName).append(" value) {\n");
+ sb.append("private static void ").append(checkerName).append("(final ").append(primitiveName)
+ .append(" value) {\n");
if (!expressions.isEmpty()) {
for (String exp : expressions) {
sb.append(" }\n");
}
- sb.append(" throw new IllegalArgumentException(String.format(\"Invalid range: %s, expected: ")
- .append(createRangeString(constraints)).append(".\", value));\n");
+ sb.append(" ").append(classImporter.apply(CodeHelpers.class)).append('.').append(codeHelpersThrow())
+ .append("(\"").append(createRangeString(constraints)).append("\", value);\n");
}
- sb.append("}\n");
-
- return sb.toString();
+ return sb.append("}\n").toString();
}
}