import java.util.Stack;
import org.antlr.v4.runtime.tree.ParseTree;
-import org.opendaylight.controller.antlrv4.code.gen.YangParser;
+import org.opendaylight.controller.antlrv4.code.gen.*;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Argument_stmtContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Base_stmtContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Bit_stmtContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Mandatory_argContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Mandatory_stmtContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Max_elements_stmtContext;
+import org.opendaylight.controller.antlrv4.code.gen.YangParser.Max_value_argContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Min_elements_stmtContext;
+import org.opendaylight.controller.antlrv4.code.gen.YangParser.Min_value_argContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Must_stmtContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Numerical_restrictionsContext;
import org.opendaylight.controller.antlrv4.code.gen.YangParser.Ordered_by_argContext;
import org.opendaylight.controller.yang.model.api.Status;
import org.opendaylight.controller.yang.model.api.TypeDefinition;
import org.opendaylight.controller.yang.model.api.UnknownSchemaNode;
+import org.opendaylight.controller.yang.model.api.type.BinaryTypeDefinition;
import org.opendaylight.controller.yang.model.api.type.BitsTypeDefinition;
import org.opendaylight.controller.yang.model.api.type.BitsTypeDefinition.Bit;
import org.opendaylight.controller.yang.model.api.type.EnumTypeDefinition;
import org.opendaylight.controller.yang.model.api.type.EnumTypeDefinition.EnumPair;
+import org.opendaylight.controller.yang.model.api.type.IntegerTypeDefinition;
import org.opendaylight.controller.yang.model.api.type.LengthConstraint;
import org.opendaylight.controller.yang.model.api.type.PatternConstraint;
import org.opendaylight.controller.yang.model.api.type.RangeConstraint;
+import org.opendaylight.controller.yang.model.api.type.StringTypeDefinition;
+import org.opendaylight.controller.yang.model.api.type.UnsignedIntegerTypeDefinition;
import org.opendaylight.controller.yang.model.util.BaseConstraints;
+import org.opendaylight.controller.yang.model.util.BaseTypes;
import org.opendaylight.controller.yang.model.util.BinaryType;
import org.opendaylight.controller.yang.model.util.BitsType;
import org.opendaylight.controller.yang.model.util.Decimal64;
import org.opendaylight.controller.yang.model.util.EnumerationType;
+import org.opendaylight.controller.yang.model.util.ExtendedType;
import org.opendaylight.controller.yang.model.util.InstanceIdentifier;
import org.opendaylight.controller.yang.model.util.Int16;
import org.opendaylight.controller.yang.model.util.Int32;
import org.opendaylight.controller.yang.model.util.Uint64;
import org.opendaylight.controller.yang.model.util.Uint8;
import org.opendaylight.controller.yang.model.util.UnknownType;
+import org.opendaylight.controller.yang.parser.builder.api.Builder;
+import org.opendaylight.controller.yang.parser.builder.api.ConfigNode;
import org.opendaylight.controller.yang.parser.builder.api.SchemaNodeBuilder;
+import org.opendaylight.controller.yang.parser.builder.api.TypeDefinitionBuilder;
+import org.opendaylight.controller.yang.parser.builder.impl.ChoiceBuilder;
+import org.opendaylight.controller.yang.parser.builder.impl.ChoiceCaseBuilder;
import org.opendaylight.controller.yang.parser.builder.impl.ConstraintsBuilder;
+import org.opendaylight.controller.yang.parser.builder.impl.UnionTypeBuilder;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public final class YangModelBuilderUtil {
-
- private static final Logger logger = LoggerFactory
- .getLogger(YangModelBuilderUtil.class);
+ private static final Logger logger = LoggerFactory.getLogger(YangModelBuilderUtil.class);
private YangModelBuilderUtil() {
}
final String result = "";
for (int i = 0; i < treeNode.getChildCount(); ++i) {
if (treeNode.getChild(i) instanceof StringContext) {
- final StringContext context = (StringContext) treeNode
- .getChild(i);
+ final StringContext context = (StringContext) treeNode.getChild(i);
if (context != null) {
return context.getChild(0).getText().replace("\"", "");
}
* @param builder
* builder to fill in with parsed statements
*/
- public static void parseSchemaNodeArgs(final ParseTree ctx,
- final SchemaNodeBuilder builder) {
+ public static void parseSchemaNodeArgs(final ParseTree ctx, final SchemaNodeBuilder builder) {
for (int i = 0; i < ctx.getChildCount(); i++) {
final ParseTree child = ctx.getChild(i);
if (child instanceof Description_stmtContext) {
}
/**
- * Create SchemaPath object from given path list with namespace, revision
- * and prefix based on given values.
+ * Create SchemaPath from actualPath and names.
*
* @param actualPath
* current position in model
* @param namespace
* @param revision
* @param prefix
+ * @param names
* @return SchemaPath object.
*/
- public static SchemaPath createActualSchemaPath(
- final List<String> actualPath, final URI namespace,
- final Date revision, final String prefix) {
+ public static SchemaPath createActualSchemaPath(final List<String> actualPath, final URI namespace,
+ final Date revision, final String prefix, final String... names) {
final List<QName> path = new ArrayList<QName>();
QName qname;
// start from index 1 - module name omited
qname = new QName(namespace, revision, prefix, actualPath.get(i));
path.add(qname);
}
+ for (String name : names) {
+ qname = new QName(namespace, revision, prefix, name);
+ path.add(qname);
+ }
return new SchemaPath(path, true);
}
if (splittedElement.length == 1) {
name = new QName(null, null, null, splittedElement[0]);
} else {
- name = new QName(null, null, splittedElement[0],
- splittedElement[1]);
+ name = new QName(null, null, splittedElement[0], splittedElement[1]);
}
path.add(name);
}
* current prefix
* @return YANG list key as java.util.List of QName objects
*/
- public static List<QName> createListKey(final String keyDefinition,
- final URI namespace, final Date revision, final String prefix) {
+ public static List<QName> createListKey(final String keyDefinition, final URI namespace, final Date revision,
+ final String prefix) {
List<QName> key = new ArrayList<QName>();
String[] splittedKey = keyDefinition.split(" ");
* @param prefix
* @return List of EnumPair object parsed from given context
*/
- private static List<EnumTypeDefinition.EnumPair> getEnumConstants(
- final Type_body_stmtsContext ctx, final List<String> path,
- final URI namespace, final Date revision, final String prefix) {
+ private static List<EnumTypeDefinition.EnumPair> getEnumConstants(final Type_body_stmtsContext ctx,
+ final List<String> path, final URI namespace, final Date revision, final String prefix) {
List<EnumTypeDefinition.EnumPair> enumConstants = new ArrayList<EnumTypeDefinition.EnumPair>();
for (int j = 0; j < ctx.getChildCount(); j++) {
for (int k = 0; k < enumSpecChild.getChildCount(); k++) {
ParseTree enumChild = enumSpecChild.getChild(k);
if (enumChild instanceof Enum_stmtContext) {
- EnumPair enumPair = createEnumPair(
- (Enum_stmtContext) enumChild, highestValue,
- path, namespace, revision, prefix);
+ EnumPair enumPair = createEnumPair((Enum_stmtContext) enumChild, highestValue, path, namespace,
+ revision, prefix);
if (enumPair.getValue() > highestValue) {
highestValue = enumPair.getValue();
}
* @param prefix
* @return EnumPair object parsed from given context
*/
- private static EnumTypeDefinition.EnumPair createEnumPair(
- final Enum_stmtContext ctx, final int highestValue,
- final List<String> path, final URI namespace, final Date revision,
- final String prefix) {
+ private static EnumTypeDefinition.EnumPair createEnumPair(final Enum_stmtContext ctx, final int highestValue,
+ final List<String> path, final URI namespace, final Date revision, final String prefix) {
final String name = stringFromNode(ctx);
final QName qname = new QName(namespace, revision, prefix, name);
Integer value = null;
value = highestValue + 1;
}
if (value < -2147483648 || value > 2147483647) {
- throw new YangParseException(
- "Error on enum '"
- + name
- + "': the enum value MUST be in the range from -2147483648 to 2147483647, but was: "
- + value);
+ throw new YangParseException(ctx.getStart().getLine(), "Error on enum '" + name
+ + "': the enum value MUST be in the range from -2147483648 to 2147483647, but was: " + value);
}
EnumPairImpl result = new EnumPairImpl();
result.qname = qname;
- result.path = createActualSchemaPath(enumPairPath, namespace, revision,
- prefix);
+ result.path = createActualSchemaPath(enumPairPath, namespace, revision, prefix);
result.description = description;
result.reference = reference;
result.status = status;
private String description;
private String reference;
private Status status;
- private List<UnknownSchemaNode> extensionSchemaNodes = Collections
- .emptyList();
+ private List<UnknownSchemaNode> extensionSchemaNodes = Collections.emptyList();
private String name;
private Integer value;
int result = 1;
result = prime * result + ((qname == null) ? 0 : qname.hashCode());
result = prime * result + ((path == null) ? 0 : path.hashCode());
- result = prime
- * result
- + ((extensionSchemaNodes == null) ? 0
- : extensionSchemaNodes.hashCode());
+ result = prime * result + ((extensionSchemaNodes == null) ? 0 : extensionSchemaNodes.hashCode());
result = prime * result + ((name == null) ? 0 : name.hashCode());
result = prime * result + ((value == null) ? 0 : value.hashCode());
return result;
@Override
public String toString() {
- return EnumTypeDefinition.EnumPair.class.getSimpleName() + "[name="
- + name + ", value=" + value + "]";
+ return EnumTypeDefinition.EnumPair.class.getSimpleName() + "[name=" + name + ", value=" + value + "]";
}
}
* type body context to parse
* @return List of RangeConstraint created from this context
*/
- private static List<RangeConstraint> getRangeConstraints(
- final Type_body_stmtsContext ctx) {
+ private static List<RangeConstraint> getRangeConstraints(final Type_body_stmtsContext ctx) {
List<RangeConstraint> rangeConstraints = Collections.emptyList();
outer: for (int j = 0; j < ctx.getChildCount(); j++) {
ParseTree numRestrChild = ctx.getChild(j);
* range context to parse
* @return List of RangeConstraints parsed from this context
*/
- private static List<RangeConstraint> parseRangeConstraints(
- final Range_stmtContext ctx) {
+ private static List<RangeConstraint> parseRangeConstraints(final Range_stmtContext ctx) {
final int line = ctx.getStart().getLine();
List<RangeConstraint> rangeConstraints = new ArrayList<RangeConstraint>();
String description = null;
Number min;
Number max;
if (splittedRangeDef.length == 1) {
- min = max = parseNumberConstraintValue(splittedRangeDef[0],
- line);
+ min = max = parseNumberConstraintValue(splittedRangeDef[0], line);
} else {
min = parseNumberConstraintValue(splittedRangeDef[0], line);
max = parseNumberConstraintValue(splittedRangeDef[1], line);
}
- RangeConstraint range = BaseConstraints.rangeConstraint(min, max,
- description, reference);
+ RangeConstraint range = BaseConstraints.rangeConstraint(min, max, description, reference);
rangeConstraints.add(range);
}
* type body context to parse
* @return List of LengthConstraint created from this context
*/
- private static List<LengthConstraint> getLengthConstraints(
- final Type_body_stmtsContext ctx) {
+ private static List<LengthConstraint> getLengthConstraints(final Type_body_stmtsContext ctx) {
List<LengthConstraint> lengthConstraints = Collections.emptyList();
outer: for (int j = 0; j < ctx.getChildCount(); j++) {
ParseTree stringRestrChild = ctx.getChild(j);
* length context to parse
* @return List of LengthConstraints parsed from this context
*/
- private static List<LengthConstraint> parseLengthConstraints(
- final Length_stmtContext ctx) {
+ private static List<LengthConstraint> parseLengthConstraints(final Length_stmtContext ctx) {
final int line = ctx.getStart().getLine();
List<LengthConstraint> lengthConstraints = new ArrayList<LengthConstraint>();
String description = null;
Number min;
Number max;
if (splittedRangeDef.length == 1) {
- min = max = parseNumberConstraintValue(splittedRangeDef[0],
- line);
+ min = max = parseNumberConstraintValue(splittedRangeDef[0], line);
} else {
min = parseNumberConstraintValue(splittedRangeDef[0], line);
max = parseNumberConstraintValue(splittedRangeDef[1], line);
}
- LengthConstraint range = BaseConstraints.lengthConstraint(min, max,
- description, reference);
+ LengthConstraint range = BaseConstraints.lengthConstraint(min, max, description, reference);
lengthConstraints.add(range);
}
* @return wrapper object of primitive java type or UnknownBoundaryNumber if
* type is one of special YANG values 'min' or 'max'
*/
- private static Number parseNumberConstraintValue(final String value,
- final int line) {
+ private static Number parseNumberConstraintValue(final String value, final int line) {
Number result = null;
if ("min".equals(value) || "max".equals(value)) {
result = new UnknownBoundaryNumber(value);
try {
result = Long.valueOf(value);
} catch (NumberFormatException e) {
- throw new YangParseException("Error on line " + line
- + ": Unable to parse range value '" + value + "'.", e);
+ throw new YangParseException(line, "Unable to parse range value '" + value + "'.", e);
}
}
return result;
* type body
* @return list of pattern constraints
*/
- private static List<PatternConstraint> getPatternConstraint(
- final Type_body_stmtsContext ctx) {
+ private static List<PatternConstraint> getPatternConstraint(final Type_body_stmtsContext ctx) {
List<PatternConstraint> patterns = new ArrayList<PatternConstraint>();
- outer: for (int j = 0; j < ctx.getChildCount(); j++) {
+ for (int j = 0; j < ctx.getChildCount(); j++) {
ParseTree stringRestrChild = ctx.getChild(j);
if (stringRestrChild instanceof String_restrictionsContext) {
for (int k = 0; k < stringRestrChild.getChildCount(); k++) {
ParseTree lengthChild = stringRestrChild.getChild(k);
if (lengthChild instanceof Pattern_stmtContext) {
patterns.add(parsePatternConstraint((Pattern_stmtContext) lengthChild));
- if (k == lengthChild.getChildCount() - 1) {
- break outer;
- }
}
}
}
* pattern context
* @return PatternConstraint object
*/
- private static PatternConstraint parsePatternConstraint(
- final Pattern_stmtContext ctx) {
+ private static PatternConstraint parsePatternConstraint(final Pattern_stmtContext ctx) {
String description = null;
String reference = null;
for (int i = 0; i < ctx.getChildCount(); i++) {
}
}
String pattern = patternStringFromNode(ctx);
- return BaseConstraints.patternConstraint(pattern, description,
- reference);
+ return BaseConstraints.patternConstraint(pattern, description, reference);
}
/**
for (int j = 0; j < child.getChildCount(); j++) {
if (j % 2 == 0) {
String patternToken = child.getChild(j).getText();
- result.append(patternToken.substring(1,
- patternToken.length() - 1));
+ result.append(patternToken.substring(1, patternToken.length() - 1));
}
}
}
* decimal64 context
* @return fraction-digits value as Integer
*/
- private static Integer parseFractionDigits(
- Decimal64_specificationContext ctx) {
+ private static Integer parseFractionDigits(Decimal64_specificationContext ctx) {
Integer result = null;
for (int k = 0; k < ctx.getChildCount(); k++) {
ParseTree fdChild = ctx.getChild(k);
try {
result = Integer.valueOf(value);
} catch (NumberFormatException e) {
- throw new YangParseException(
- "Unable to parse fraction digits value '" + value
- + "'.", e);
+ throw new YangParseException(ctx.getStart().getLine(), "Unable to parse fraction digits value '"
+ + value + "'.", e);
}
}
}
* @param prefix
* @return List of Bit objects created from this context
*/
- private static List<BitsTypeDefinition.Bit> getBits(
- Type_body_stmtsContext ctx, List<String> actualPath, URI namespace,
- Date revision, String prefix) {
+ private static List<BitsTypeDefinition.Bit> getBits(Type_body_stmtsContext ctx, List<String> actualPath,
+ URI namespace, Date revision, String prefix) {
final List<BitsTypeDefinition.Bit> bits = new ArrayList<BitsTypeDefinition.Bit>();
for (int j = 0; j < ctx.getChildCount(); j++) {
ParseTree bitsSpecChild = ctx.getChild(j);
for (int k = 0; k < bitsSpecChild.getChildCount(); k++) {
ParseTree bitChild = bitsSpecChild.getChild(k);
if (bitChild instanceof Bit_stmtContext) {
- Bit bit = parseBit((Bit_stmtContext) bitChild,
- highestPosition, actualPath, namespace,
+ Bit bit = parseBit((Bit_stmtContext) bitChild, highestPosition, actualPath, namespace,
revision, prefix);
if (bit.getPosition() > highestPosition) {
highestPosition = bit.getPosition();
* @param prefix
* @return Bit object parsed from this context
*/
- private static BitsTypeDefinition.Bit parseBit(final Bit_stmtContext ctx,
- long highestPosition, List<String> actualPath, final URI namespace,
- final Date revision, final String prefix) {
+ private static BitsTypeDefinition.Bit parseBit(final Bit_stmtContext ctx, long highestPosition,
+ List<String> actualPath, final URI namespace, final Date revision, final String prefix) {
String name = stringFromNode(ctx);
final QName qname = new QName(namespace, revision, prefix, name);
Long position = null;
bitPath.addAll(actualPath);
bitPath.add(name);
- SchemaPath schemaPath = createActualSchemaPath(bitPath, namespace,
- revision, prefix);
+ SchemaPath schemaPath = createActualSchemaPath(bitPath, namespace, revision, prefix);
for (int i = 0; i < ctx.getChildCount(); i++) {
ParseTree child = ctx.getChild(i);
position = highestPosition + 1;
}
if (position < 0 || position > 4294967295L) {
- throw new YangParseException(
- "Error on bit '"
- + name
- + "': the position value MUST be in the range 0 to 4294967295");
+ throw new YangParseException(ctx.getStart().getLine(), "Error on bit '" + name
+ + "': the position value MUST be in the range 0 to 4294967295");
}
final List<UnknownSchemaNode> unknownNodes = Collections.emptyList();
- return new BitImpl(position, qname, schemaPath, description, reference,
- status, unknownNodes);
+ return new BitImpl(position, qname, schemaPath, description, reference, status, unknownNodes);
}
/**
- * Parse orderedby statement.
+ * Parse 'ordered-by' statement.
+ *
+ * The 'ordered-by' statement defines whether the order of entries within a
+ * list are determined by the user or the system. The argument is one of the
+ * strings "system" or "user". If not present, order defaults to "system".
*
* @param childNode
* Ordered_by_stmtContext
- * @return true, if orderedby contains value 'user' or false otherwise
+ * @return true, if ordered-by contains value 'user', false otherwise
*/
public static boolean parseUserOrdered(Ordered_by_stmtContext childNode) {
boolean result = false;
return result;
}
+ public static Boolean getConfig(final ParseTree ctx, final Builder parent, final String moduleName, final int line) {
+ Boolean result = null;
+ // parse configuration statement
+ Boolean configuration = null;
+ for (int i = 0; i < ctx.getChildCount(); i++) {
+ ParseTree child = ctx.getChild(i);
+ if (child instanceof Config_stmtContext) {
+ configuration = parseConfig((Config_stmtContext) child);
+ break;
+ }
+ }
+
+ // If 'config' is not specified, the default is the same as the parent
+ // schema node's 'config' value
+ if (configuration == null) {
+ if (parent instanceof ConfigNode) {
+ Boolean parentConfig = ((ConfigNode) parent).isConfiguration();
+ // If the parent node is a rpc input or output, it can has
+ // config set to null
+ result = parentConfig == null ? true : parentConfig;
+ } else if (parent instanceof ChoiceCaseBuilder) {
+ // If the parent node is a 'case' node, the value is the same as
+ // the 'case' node's parent 'choice' node
+ ChoiceCaseBuilder choiceCase = (ChoiceCaseBuilder) parent;
+ Builder choice = choiceCase.getParent();
+ Boolean parentConfig = null;
+ if(choice instanceof ChoiceBuilder) {
+ parentConfig = ((ChoiceBuilder)choice).isConfiguration();
+ } else {
+ parentConfig = true;
+ }
+ result = parentConfig;
+ } else {
+ result = true;
+ }
+ } else {
+ // Check first: if a node has 'config' set to 'false', no node
+ // underneath it can have 'config' set to 'true'
+ if (parent instanceof ConfigNode) {
+ Boolean parentConfig = ((ConfigNode) parent).isConfiguration();
+ if (parentConfig == false && configuration == true) {
+ throw new YangParseException(moduleName, line,
+ "Can not set 'config' to 'true' if parent node has 'config' set to 'false'");
+ }
+ }
+ result = configuration;
+ }
+
+ return result;
+ }
+
/**
- * Parse given config context and return true if it contains string 'true',
- * false otherwise.
+ * Parse config statement.
*
* @param ctx
* config context to parse.
* @return true if given context contains string 'true', false otherwise
*/
- public static boolean parseConfig(final Config_stmtContext ctx) {
- boolean result = false;
+ private static Boolean parseConfig(final Config_stmtContext ctx) {
+ Boolean result = null;
if (ctx != null) {
for (int i = 0; i < ctx.getChildCount(); ++i) {
final ParseTree configContext = ctx.getChild(i);
if ("true".equals(value)) {
result = true;
break;
+ } else if ("false".equals(value)) {
+ result = false;
+ break;
+ } else {
+ throw new YangParseException(ctx.getStart().getLine(),
+ "Failed to parse 'config' statement value: '" + value + "'.");
}
}
}
}
/**
- * Parse given type body and creates UnknownType definition.
+ * Parse type body and create UnknownType definition.
*
* @param typedefQName
* qname of current type
* @param ctx
* type body
+ * @param actualPath
+ * @param namespace
+ * @param revision
+ * @param prefix
+ * @param parent
* @return UnknownType object with constraints from parsed type body
*/
- public static TypeDefinition<?> parseUnknownTypeBody(QName typedefQName,
- Type_body_stmtsContext ctx) {
+ public static TypeDefinition<?> parseUnknownTypeWithBody(final QName typedefQName,
+ final Type_body_stmtsContext ctx, final List<String> actualPath, final URI namespace, final Date revision,
+ final String prefix, final Builder parent) {
+ String typeName = typedefQName.getLocalName();
+
UnknownType.Builder unknownType = new UnknownType.Builder(typedefQName);
+
if (ctx != null) {
List<RangeConstraint> rangeStatements = getRangeConstraints(ctx);
List<LengthConstraint> lengthStatements = getLengthConstraints(ctx);
List<PatternConstraint> patternStatements = getPatternConstraint(ctx);
Integer fractionDigits = getFractionDigits(ctx);
- unknownType.rangeStatements(rangeStatements);
- unknownType.lengthStatements(lengthStatements);
- unknownType.patterns(patternStatements);
- unknownType.fractionDigits(fractionDigits);
+ if (parent instanceof TypeDefinitionBuilder) {
+ TypeDefinitionBuilder typedef = (TypeDefinitionBuilder) parent;
+ typedef.setRanges(rangeStatements);
+ typedef.setLengths(lengthStatements);
+ typedef.setPatterns(patternStatements);
+ typedef.setFractionDigits(fractionDigits);
+ return unknownType.build();
+ } else {
+ TypeDefinition<?> baseType = unknownType.build();
+ TypeDefinition<?> result = null;
+ QName qname = new QName(namespace, revision, prefix, typeName);
+ ExtendedType.Builder typeBuilder = null;
+
+ SchemaPath schemaPath = createTypeSchemaPath(actualPath, namespace, revision, prefix, typeName, false,
+ false);
+ typeBuilder = new ExtendedType.Builder(qname, baseType, "", "", schemaPath);
+
+ typeBuilder.ranges(rangeStatements);
+ typeBuilder.lengths(lengthStatements);
+ typeBuilder.patterns(patternStatements);
+ typeBuilder.fractionDigits(fractionDigits);
+
+ result = typeBuilder.build();
+
+ return result;
+ }
}
+
return unknownType.build();
}
/**
* Create TypeDefinition object based on given type name and type body.
*
+ * @param moduleName
+ * current module name
* @param typeName
* name of type
* @param typeBody
- * type body
+ * type body context
* @param actualPath
* current path in schema
* @param namespace
* current revision
* @param prefix
* current prefix
+ * @param parent
+ * parent builder
* @return TypeDefinition object based on parsed values.
*/
- public static TypeDefinition<?> parseTypeBody(final String typeName,
- final Type_body_stmtsContext typeBody,
- final List<String> actualPath, final URI namespace,
- final Date revision, final String prefix) {
- TypeDefinition<?> type = null;
+ public static TypeDefinition<?> parseTypeWithBody(final String moduleName, final String typeName,
+ final Type_body_stmtsContext typeBody, final List<String> actualPath, final URI namespace,
+ final Date revision, final String prefix, final Builder parent) {
+ TypeDefinition<?> baseType = null;
- List<RangeConstraint> rangeStatements = getRangeConstraints(typeBody);
Integer fractionDigits = getFractionDigits(typeBody);
List<LengthConstraint> lengthStatements = getLengthConstraints(typeBody);
List<PatternConstraint> patternStatements = getPatternConstraint(typeBody);
- List<EnumTypeDefinition.EnumPair> enumConstants = getEnumConstants(
- typeBody, actualPath, namespace, revision, prefix);
+ List<RangeConstraint> rangeStatements = getRangeConstraints(typeBody);
+
+ TypeConstraints constraints = new TypeConstraints(moduleName, typeBody.getStart().getLine());
+ constraints.addFractionDigits(fractionDigits);
+ constraints.addLengths(lengthStatements);
+ constraints.addPatterns(patternStatements);
+ constraints.addRanges(rangeStatements);
+
+ SchemaPath baseTypePathFinal = createTypeSchemaPath(actualPath, namespace, revision, prefix, typeName, true,
+ true);
+ SchemaPath baseTypePath = createTypeSchemaPath(actualPath, namespace, revision, prefix, typeName, true, false);
if ("decimal64".equals(typeName)) {
- type = new Decimal64(actualPath, namespace, revision,
- fractionDigits);
+ if (rangeStatements.isEmpty()) {
+ return new Decimal64(baseTypePathFinal, fractionDigits);
+ }
+ Decimal64 decimalType = new Decimal64(baseTypePath, fractionDigits);
+ constraints.addRanges(decimalType.getRangeStatements());
+ baseType = decimalType;
} else if (typeName.startsWith("int")) {
+ IntegerTypeDefinition intType = null;
if ("int8".equals(typeName)) {
- type = new Int8(actualPath, namespace, revision,
- rangeStatements, null, null);
+ intType = new Int8(baseTypePath);
} else if ("int16".equals(typeName)) {
- type = new Int16(actualPath, namespace, revision,
- rangeStatements, null, null);
+ intType = new Int16(baseTypePath);
} else if ("int32".equals(typeName)) {
- type = new Int32(actualPath, namespace, revision,
- rangeStatements, null, null);
+ intType = new Int32(baseTypePath);
} else if ("int64".equals(typeName)) {
- type = new Int64(actualPath, namespace, revision,
- rangeStatements, null, null);
+ intType = new Int64(baseTypePath);
}
+ constraints.addRanges(intType.getRangeStatements());
+ baseType = intType;
} else if (typeName.startsWith("uint")) {
+ UnsignedIntegerTypeDefinition uintType = null;
if ("uint8".equals(typeName)) {
- type = new Uint8(actualPath, namespace, revision,
- rangeStatements, null, null);
+ uintType = new Uint8(baseTypePath);
} else if ("uint16".equals(typeName)) {
- type = new Uint16(actualPath, namespace, revision,
- rangeStatements, null, null);
+ uintType = new Uint16(baseTypePath);
} else if ("uint32".equals(typeName)) {
- type = new Uint32(actualPath, namespace, revision,
- rangeStatements, null, null);
+ uintType = new Uint32(baseTypePath);
} else if ("uint64".equals(typeName)) {
- type = new Uint64(actualPath, namespace, revision,
- rangeStatements, null, null);
+ uintType = new Uint64(baseTypePath);
}
+ constraints.addRanges(uintType.getRangeStatements());
+ baseType = uintType;
} else if ("enumeration".equals(typeName)) {
- type = new EnumerationType(actualPath, namespace, revision,
- enumConstants);
+ List<EnumTypeDefinition.EnumPair> enumConstants = getEnumConstants(typeBody, actualPath, namespace,
+ revision, prefix);
+ return new EnumerationType(baseTypePathFinal, enumConstants);
} else if ("string".equals(typeName)) {
- type = new StringType(actualPath, namespace, revision,
- lengthStatements, patternStatements);
+ StringTypeDefinition stringType = new StringType(baseTypePath);
+ constraints.addLengths(stringType.getLengthStatements());
+ baseType = stringType;
} else if ("bits".equals(typeName)) {
- type = new BitsType(actualPath, namespace, revision, getBits(
- typeBody, actualPath, namespace, revision, prefix));
+ return new BitsType(baseTypePathFinal, getBits(typeBody, actualPath, namespace, revision, prefix));
} else if ("leafref".equals(typeName)) {
final String path = parseLeafrefPath(typeBody);
final boolean absolute = path.startsWith("/");
- RevisionAwareXPath xpath = new RevisionAwareXPathImpl(path,
- absolute);
- type = new Leafref(actualPath, namespace, revision, xpath);
+ RevisionAwareXPath xpath = new RevisionAwareXPathImpl(path, absolute);
+ return new Leafref(baseTypePathFinal, xpath);
} else if ("binary".equals(typeName)) {
- List<Byte> bytes = Collections.emptyList();
- type = new BinaryType(actualPath, namespace, revision, bytes,
- lengthStatements, null);
+ BinaryTypeDefinition binaryType = new BinaryType(baseTypePath);
+ constraints.addLengths(binaryType.getLengthConstraints());
+ baseType = binaryType;
} else if ("instance-identifier".equals(typeName)) {
boolean requireInstance = isRequireInstance(typeBody);
- type = new InstanceIdentifier(actualPath, namespace, revision,
- null, requireInstance);
+ baseType = new InstanceIdentifier(baseTypePath, null, requireInstance);
+ }
+
+ if (parent instanceof TypeDefinitionBuilder && !(parent instanceof UnionTypeBuilder)) {
+ TypeDefinitionBuilder typedef = (TypeDefinitionBuilder) parent;
+ typedef.setRanges(constraints.getRange());
+ typedef.setLengths(constraints.getLength());
+ typedef.setPatterns(constraints.getPatterns());
+ typedef.setFractionDigits(constraints.getFractionDigits());
+ return baseType;
+ }
+
+ TypeDefinition<?> result = null;
+ QName qname = new QName(namespace, revision, prefix, typeName);
+ ExtendedType.Builder typeBuilder = null;
+
+ SchemaPath schemaPath = createTypeSchemaPath(actualPath, namespace, revision, prefix, typeName, false, false);
+ typeBuilder = new ExtendedType.Builder(qname, baseType, "", "", schemaPath);
+
+ typeBuilder.ranges(constraints.getRange());
+ typeBuilder.lengths(constraints.getLength());
+ typeBuilder.patterns(constraints.getPatterns());
+ typeBuilder.fractionDigits(constraints.getFractionDigits());
+
+ result = typeBuilder.build();
+ return result;
+ }
+
+ /**
+ * Create SchemaPath object from given path list with namespace, revision
+ * and prefix based on given values.
+ *
+ * @param actualPath
+ * current position in model
+ * @param namespace
+ * @param revision
+ * @param prefix
+ * @param typeName
+ * @param isBaseYangType
+ * if this is base yang type
+ * @param isBaseYangTypeFinal
+ * if this is base yang type without restrictions
+ * @return SchemaPath object.
+ */
+ private static SchemaPath createTypeSchemaPath(final List<String> actualPath, final URI namespace,
+ final Date revision, final String prefix, final String typeName, final boolean isBaseYangType,
+ final boolean isBaseYangTypeFinal) {
+ List<String> typePath = new ArrayList<String>(actualPath);
+ if (isBaseYangType && !isBaseYangTypeFinal) {
+ typePath.add(typeName);
+ }
+
+ final List<QName> path = new ArrayList<QName>();
+ QName qname;
+ // start from index 1 -> module name omited
+ for (int i = 1; i < typePath.size(); i++) {
+ qname = new QName(namespace, revision, prefix, typePath.get(i));
+ path.add(qname);
}
- return type;
+ QName typeQName;
+ if (isBaseYangType) {
+ typeQName = new QName(BaseTypes.BaseTypesNamespace, typeName);
+ } else {
+ typeQName = new QName(namespace, revision, prefix, typeName);
+ }
+ path.add(typeQName);
+ return new SchemaPath(path, true);
}
/**
}
/**
- * Parse given context and find require-instance value.
+ * Parse type body statement and find require-instance value.
*
* @param ctx
- * type body
+ * type body context
* @return require-instance value
*/
private static boolean isRequireInstance(Type_body_stmtsContext ctx) {
}
/**
- * Parse given context and find leafref path.
+ * Parse type body statement and find leafref path.
*
* @param ctx
- * type body
+ * type body context
* @return leafref path as String
*/
private static String parseLeafrefPath(Type_body_stmtsContext ctx) {
}
/**
- * Internal helper method for parsing Must_stmtContext.
+ * Internal helper method for parsing must statement.
*
* @param ctx
* Must_stmtContext
for (int j = 0; j < context.getChildCount(); j++) {
String mustPart = context.getChild(j).getText();
if (j == 0) {
- mustText.append(mustPart.substring(0,
- mustPart.length() - 1));
+ mustText.append(mustPart.substring(0, mustPart.length() - 1));
continue;
}
if (j % 2 == 0) {
}
}
- MustDefinition must = new MustDefinitionImpl(mustText.toString(),
- description, reference, errorAppTag, errorMessage);
+ MustDefinition must = new MustDefinitionImpl(mustText.toString(), description, reference, errorAppTag,
+ errorMessage);
return must;
}
/**
- * Parse given tree and set constraints to given builder.
+ * Parse given context and set constraints to constraints builder.
*
* @param ctx
- * context to search
+ * context to parse
* @param constraints
* ConstraintsBuilder to fill
*/
- public static void parseConstraints(final ParseTree ctx,
- final ConstraintsBuilder constraints) {
+ public static void parseConstraints(final ParseTree ctx, final ConstraintsBuilder constraints) {
for (int i = 0; i < ctx.getChildCount(); ++i) {
final ParseTree childNode = ctx.getChild(i);
if (childNode instanceof Max_elements_stmtContext) {
- Integer max = Integer.valueOf(stringFromNode(childNode));
- constraints.setMinElements(max);
+ Integer max = parseMaxElements((Max_elements_stmtContext) childNode);
+ constraints.setMaxElements(max);
} else if (childNode instanceof Min_elements_stmtContext) {
- Integer min = Integer.valueOf(stringFromNode(childNode));
+ Integer min = parseMinElements((Min_elements_stmtContext) childNode);
constraints.setMinElements(min);
} else if (childNode instanceof Must_stmtContext) {
MustDefinition must = parseMust((Must_stmtContext) childNode);
for (int j = 0; j < childNode.getChildCount(); j++) {
ParseTree mandatoryTree = ctx.getChild(j);
if (mandatoryTree instanceof Mandatory_argContext) {
- Boolean mandatory = Boolean
- .valueOf(stringFromNode(mandatoryTree));
+ Boolean mandatory = Boolean.valueOf(stringFromNode(mandatoryTree));
constraints.setMandatory(mandatory);
}
}
}
}
+ private static Integer parseMinElements(Min_elements_stmtContext ctx) {
+ Integer result = null;
+ try {
+ for (int j = 0; j < ctx.getChildCount(); j++) {
+ ParseTree minArg = ctx.getChild(j);
+ if (minArg instanceof Min_value_argContext) {
+ result = Integer.valueOf(stringFromNode(minArg));
+ }
+ }
+ if (result == null) {
+ throw new IllegalArgumentException();
+ }
+ return result;
+ } catch (Exception e) {
+ throw new YangParseException(ctx.getStart().getLine(), "Failed to parse min-elements.", e);
+ }
+ }
+
+ private static Integer parseMaxElements(Max_elements_stmtContext ctx) {
+ Integer result = null;
+ try {
+ for (int j = 0; j < ctx.getChildCount(); j++) {
+ ParseTree maxArg = ctx.getChild(j);
+ if (maxArg instanceof Max_value_argContext) {
+ result = Integer.valueOf(stringFromNode(maxArg));
+ }
+ }
+ if (result == null) {
+ throw new IllegalArgumentException();
+ }
+ return result;
+ } catch (Exception e) {
+ throw new YangParseException(ctx.getStart().getLine(), "Failed to parse max-elements.", e);
+ }
+ }
+
/**
* Parse given context and return yin value.
*
* if this is one of YANG type which MUST contain additional
* informations in its body
*/
- public static void checkMissingBody(final String typeName,
- final String moduleName, final int line) throws YangParseException {
+ public static void checkMissingBody(final String typeName, final String moduleName, final int line)
+ throws YangParseException {
if ("decimal64".equals(typeName)) {
throw new YangParseException(moduleName, line,
"The 'fraction-digits' statement MUST be present if the type is 'decimal64'.");
throw new YangParseException(moduleName, line,
"The 'path' statement MUST be present if the type is 'leafref'.");
} else if ("bits".equals(typeName)) {
- throw new YangParseException(moduleName, line,
- "The 'bit' statement MUST be present if the type is 'bits'.");
+ throw new YangParseException(moduleName, line, "The 'bit' statement MUST be present if the type is 'bits'.");
} else if ("enumeration".equals(typeName)) {
throw new YangParseException(moduleName, line,
"The 'enum' statement MUST be present if the type is 'enumeration'.");
/**
* Parse refine statement.
- * @param refineCtx refine statement
- * @return
+ *
+ * @param refineCtx
+ * refine statement
+ * @param line
+ * current line in yang model
+ * @return RefineHolder object representing this refine statement
*/
public static RefineHolder parseRefine(Refine_stmtContext refineCtx) {
final String refineTarget = stringFromNode(refineCtx);
- final RefineHolder refine = new RefineHolder(refineTarget, refineCtx
- .getStart().getLine());
+ final RefineHolder refine = new RefineHolder(refineCtx.getStart().getLine(), refineTarget);
for (int j = 0; j < refineCtx.getChildCount(); j++) {
ParseTree refinePom = refineCtx.getChild(j);
if (refinePom instanceof Refine_pomContext) {
for (int k = 0; k < refinePom.getChildCount(); k++) {
ParseTree refineStmt = refinePom.getChild(k);
+ parseRefineDefault(refine, refineStmt);
+
if (refineStmt instanceof Refine_leaf_stmtsContext) {
- parseRefine(refine,
- (Refine_leaf_stmtsContext) refineStmt);
+ parseRefine(refine, (Refine_leaf_stmtsContext) refineStmt);
} else if (refineStmt instanceof Refine_container_stmtsContext) {
- parseRefine(refine,
- (Refine_container_stmtsContext) refineStmt);
+ parseRefine(refine, (Refine_container_stmtsContext) refineStmt);
} else if (refineStmt instanceof Refine_list_stmtsContext) {
- parseRefine(refine,
- (Refine_list_stmtsContext) refineStmt);
+ parseRefine(refine, (Refine_list_stmtsContext) refineStmt);
} else if (refineStmt instanceof Refine_leaf_list_stmtsContext) {
- parseRefine(refine,
- (Refine_leaf_list_stmtsContext) refineStmt);
+ parseRefine(refine, (Refine_leaf_list_stmtsContext) refineStmt);
} else if (refineStmt instanceof Refine_choice_stmtsContext) {
- parseRefine(refine,
- (Refine_choice_stmtsContext) refineStmt);
+ parseRefine(refine, (Refine_choice_stmtsContext) refineStmt);
} else if (refineStmt instanceof Refine_anyxml_stmtsContext) {
- parseRefine(refine,
- (Refine_anyxml_stmtsContext) refineStmt);
+ parseRefine(refine, (Refine_anyxml_stmtsContext) refineStmt);
}
}
}
return refine;
}
- private static RefineHolder parseRefine(RefineHolder refine,
- Refine_leaf_stmtsContext refineStmt) {
+ private static void parseRefineDefault(RefineHolder refine, ParseTree refineStmt) {
+ for (int i = 0; i < refineStmt.getChildCount(); i++) {
+ ParseTree refineArg = refineStmt.getChild(i);
+ if (refineArg instanceof Description_stmtContext) {
+ String description = stringFromNode(refineArg);
+ refine.setDescription(description);
+ } else if (refineArg instanceof Reference_stmtContext) {
+ String reference = stringFromNode(refineArg);
+ refine.setReference(reference);
+ } else if (refineArg instanceof Config_stmtContext) {
+ Boolean config = parseConfig((Config_stmtContext) refineArg);
+ refine.setConfiguration(config);
+ }
+ }
+ }
+
+ private static RefineHolder parseRefine(RefineHolder refine, Refine_leaf_stmtsContext refineStmt) {
for (int i = 0; i < refineStmt.getChildCount(); i++) {
ParseTree refineArg = refineStmt.getChild(i);
if (refineArg instanceof Default_stmtContext) {
for (int j = 0; j < refineArg.getChildCount(); j++) {
ParseTree mandatoryTree = refineArg.getChild(j);
if (mandatoryTree instanceof Mandatory_argContext) {
- Boolean mandatory = Boolean
- .valueOf(stringFromNode(mandatoryTree));
+ Boolean mandatory = Boolean.valueOf(stringFromNode(mandatoryTree));
refine.setMandatory(mandatory);
}
}
return refine;
}
- private static RefineHolder parseRefine(RefineHolder refine,
- Refine_container_stmtsContext refineStmt) {
+ private static RefineHolder parseRefine(RefineHolder refine, Refine_container_stmtsContext refineStmt) {
for (int m = 0; m < refineStmt.getChildCount(); m++) {
ParseTree refineArg = refineStmt.getChild(m);
if (refineArg instanceof Must_stmtContext) {
return refine;
}
- private static RefineHolder parseRefine(RefineHolder refine,
- Refine_list_stmtsContext refineStmt) {
+ private static RefineHolder parseRefine(RefineHolder refine, Refine_list_stmtsContext refineStmt) {
for (int m = 0; m < refineStmt.getChildCount(); m++) {
ParseTree refineArg = refineStmt.getChild(m);
if (refineArg instanceof Must_stmtContext) {
MustDefinition must = parseMust((Must_stmtContext) refineArg);
refine.setMust(must);
} else if (refineArg instanceof Max_elements_stmtContext) {
- Integer max = Integer.valueOf(stringFromNode(refineArg));
- refine.setMinElements(max);
+ Integer max = parseMaxElements((Max_elements_stmtContext) refineArg);
+ refine.setMaxElements(max);
} else if (refineArg instanceof Min_elements_stmtContext) {
- Integer min = Integer.valueOf(stringFromNode(refineArg));
+ Integer min = parseMinElements((Min_elements_stmtContext) refineArg);
refine.setMinElements(min);
}
}
return refine;
}
- private static RefineHolder parseRefine(RefineHolder refine,
- Refine_leaf_list_stmtsContext refineStmt) {
+ private static RefineHolder parseRefine(RefineHolder refine, Refine_leaf_list_stmtsContext refineStmt) {
for (int m = 0; m < refineStmt.getChildCount(); m++) {
ParseTree refineArg = refineStmt.getChild(m);
if (refineArg instanceof Must_stmtContext) {
MustDefinition must = parseMust((Must_stmtContext) refineArg);
refine.setMust(must);
} else if (refineArg instanceof Max_elements_stmtContext) {
- Integer max = Integer.valueOf(stringFromNode(refineArg));
- refine.setMinElements(max);
+ Integer max = parseMaxElements((Max_elements_stmtContext) refineArg);
+ refine.setMaxElements(max);
} else if (refineArg instanceof Min_elements_stmtContext) {
- Integer min = Integer.valueOf(stringFromNode(refineArg));
+ Integer min = parseMinElements((Min_elements_stmtContext) refineArg);
refine.setMinElements(min);
}
}
return refine;
}
- private static RefineHolder parseRefine(RefineHolder refine,
- Refine_choice_stmtsContext refineStmt) {
+ private static RefineHolder parseRefine(RefineHolder refine, Refine_choice_stmtsContext refineStmt) {
for (int i = 0; i < refineStmt.getChildCount(); i++) {
ParseTree refineArg = refineStmt.getChild(i);
if (refineArg instanceof Default_stmtContext) {
for (int j = 0; j < refineArg.getChildCount(); j++) {
ParseTree mandatoryTree = refineArg.getChild(j);
if (mandatoryTree instanceof Mandatory_argContext) {
- Boolean mandatory = Boolean
- .valueOf(stringFromNode(mandatoryTree));
+ Boolean mandatory = Boolean.valueOf(stringFromNode(mandatoryTree));
refine.setMandatory(mandatory);
}
}
return refine;
}
- private static RefineHolder parseRefine(RefineHolder refine,
- Refine_anyxml_stmtsContext refineStmt) {
+ private static RefineHolder parseRefine(RefineHolder refine, Refine_anyxml_stmtsContext refineStmt) {
for (int i = 0; i < refineStmt.getChildCount(); i++) {
ParseTree refineArg = refineStmt.getChild(i);
if (refineArg instanceof Must_stmtContext) {
for (int j = 0; j < refineArg.getChildCount(); j++) {
ParseTree mandatoryTree = refineArg.getChild(j);
if (mandatoryTree instanceof Mandatory_argContext) {
- Boolean mandatory = Boolean
- .valueOf(stringFromNode(mandatoryTree));
+ Boolean mandatory = Boolean.valueOf(stringFromNode(mandatoryTree));
refine.setMandatory(mandatory);
}
}