Interface PropertyDefinition

    • Method Detail

      • getRequiredType

        int getRequiredType()
        Gets the required type of the property. One of:
        • PropertyType.STRING
        • PropertyType.DATE
        • PropertyType.BINARY
        • PropertyType.DOUBLE
        • PropertyType.DECIMAL
        • PropertyType.LONG
        • PropertyType.BOOLEAN
        • PropertyType.NAME
        • PropertyType.PATH
        • PropertyType.URI
        • PropertyType.REFERENCE
        • PropertyType.WEAKREFERENCE
        • PropertyType.UNDEFINED
        PropertyType.UNDEFINED is returned if this property may be of any type.

        In implementations that support node type registration, if this PropertyDefinition object is actually a newly-created empty PropertyDefinitionTemplate, then this method will return PropertyType.STRING.

        Returns:
        an int constant member of PropertyType.
      • getValueConstraints

        java.lang.String[] getValueConstraints()
        Gets the array of constraint strings. Each string in the array specifies a constraint on the value of the property. The constraints are OR-ed together, meaning that in order to be valid, the value must meet at least one of the constraints. For example, a constraint array of ["constraint1", "constraint2", "constraint3"] has the interpretation: "the value of this property must meet at least one of constraint1, constraint2 or constraint3".

        Reporting of value constraints is optional. An implementation may return null, indicating that value constraint information is unavailable (though a constraint may still exist).

        Returning an empty array, on the other hand, indicates that value constraint information is available and that no constraints are placed on this value.

        In the case of multi-value properties, the constraint string array returned applies to all the values of the property.

        The constraint strings themselves having differing formats and interpretations depending on the type of the property in question. The following describes the value constraint syntax for each property type:

        • STRING and URI: The constraint string is a regular expression pattern. For example the regular expression ".*" means "any string, including the empty string". Whereas a simple literal string (without any RE-specific meta-characters) like "banana" matches only the string "banana".
        • PATH: The constraint string is a JCR path with an optional "*" character after the last "/" character. For example, possible constraint strings for a property of type PATH include:
          1. "/myapp:products/myapp:televisions"
          2. "/myapp:products/myapp:televisions/"
          3. "/myapp:products/*"
          4. "myapp:products/myapp:televisions"
          5. "../myapp:televisions"
          6. "../myapp:televisions/*"
          The following principles apply:
          • The "*" means "matches descendants" not "matches any subsequent path". For example, /a/* does not match /a/../c. The constraint must match the normalized path.
          • Relative path constraint only match relative path values and absolute path constraints only match absolute path values.
          • A trailing "/" has no effect (hence, 1 and 2, above, are equivalent).
          • The trailing "*" character means that the value of the PATH property is restricted to the indicated subgraph (in other words any additional relative path can replace the "*"). For example, 3, above would allow /myapp:products/myapp:radios, /myapp:products/myapp:microwaves/X900, and so forth.
          • A constraint without a "*" means that the PATH property is restricted to that precise path. For example, 1, above, would allow only the value /myapp:products/myapp:televisions.
          • The constraint can indicate either a relative path or an absolute path depending on whether it includes a leading "/" character. 1 and 4, above for example, are distinct.
          • The string returned must reflect the namespace mapping in the current Session (i.e., the current state of the namespace registry overlaid with any session-specific mappings). Constraint strings for PATH properties should be stored in fully-qualified form (using the actual URI instead of the prefix) and then be converted to prefix form according to the current mapping upon the PropertyDefinition.getValueConstraints call.
        • NAME: The constraint string is a JCR name in prefix form. For example "myapp:products". No wildcards or other pattern matching are supported. As with PATH properties, the string returned must reflect the namespace mapping in the current Session. Constraint strings for NAME properties should be stored in fully-qualified form (using the actual URI instead of the prefix) and then be converted to prefix form according to the current mapping.
        • REFERENCE and WEAKREFERENCE: The constraint string is a JCR name in prefix form. This name is interpreted as a node type name and the REFERENCE or WEAKREFERENCE property is restricted to referring only to nodes that have at least the indicated node type. For example, a constraint of "mytype:document" would indicate that the property in question can only refer to nodes that have at least the node type mytype:document (assuming this was the only constraint returned in the array, recall that the array of constraints are to be ORed together). No wildcards or other pattern matching are supported. As with PATH properties, the string returned must reflect the namespace mapping in the current Session. Constraint strings for REFERENCE and WEAKREFERENCE properties should be stored by the implementation in fully-qualified form (using the actual URI instead of the prefix) and then be converted to prefix form according to the current mapping.
        • BOOLEAN: A constraint string can be either "true" or "false". In most cases getValueConstraints will return an empty array since placing a constraint on a BOOLEAN value does not usually make sense.
        The remaining types all have value constraints in the form of inclusive or exclusive ranges: i.e., "[min, max]", "(min, max)", "(min, max]" or "[min, max)". Where "[" and "]" indicate "inclusive", while "(" and ")" indicate "exclusive". A missing min or max value indicates no bound in that direction. For example [,5] means no minimum but a maximum of 5 (inclusive) while [,] means simply that any value will suffice, The meaning of the min and max values themselves differ between types as follows:
        • BINARY: min and max specify the allowed size range of the binary value in bytes.
        • DATE: min and max are dates specifying the allowed date range. The date strings must be in the ISO8601-compliant format: YYYY-MM-DDThh:mm:ss.sssTZD.
        • LONG, DOUBLE: min and max are numbers.
        In implementations that support node type registration, when specifying that a DATE, LONG or DOUBLE is constrained to be equal to some disjunctive set of constants, a string consisting of just the constant itself, "c" may be used as a shorthand for the standard constraint notation of "[c, c]", where c is the constant. For example, to indicate that particular LONG property is constrained to be one of the values 2, 4, or 8, the constraint string array {"2", "4", "8"} can be used instead of the standard notation, {"[2,2]", "[4,4]", "[8,8]"}. However, even if this shorthand is used on registration, the value returned by PropertyDefinition.getValueConstraints() will always use the standard notation.

        Because constraints are returned as an array of disjunctive constraints, in many cases the elements of the array can serve directly as a "choice list". This may, for example, be used by an application to display options to the end user indicating the set of permitted values.

        In implementations that support node type registration, if this PropertyDefinition object is actually a newly-created empty PropertyDefinitionTemplate, then this method will return null.

        Returns:
        a String array.
      • getDefaultValues

        Value[] getDefaultValues()
        Gets the default value(s) of the property. These are the values that the property defined by this PropertyDefinition will be assigned if it is automatically created (that is, if ItemDefinition.isAutoCreated() returns true).

        This method returns an array of Value objects. If the property is multi-valued, then this array represents the full set of values that the property will be assigned upon being auto-created. Note that this could be the empty array. If the property is single-valued, then the array returned will be of size 1.

        If null is returned, then the property has no fixed default value. This does not exclude the possibility that the property still assumes some value automatically, but that value may be parametrized (for example, "the current date") and hence not expressible as a single fixed value. In particular, this must be the case if isAutoCreated returns true and this method returns null.

        Note that to indicate a null value for this attribute in a node type definition that is stored in content, the jcr:defaultValues property is simply removed (since null values for properties are not allowed.

        In implementations that support node type registration, if this PropertyDefinition object is actually a newly-created empty PropertyDefinitionTemplate, then this method will return null.

        Returns:
        an array of Value objects.
      • isMultiple

        boolean isMultiple()
        Reports whether this property can have multiple values. Note that the isMultiple flag is special in that a given node type may have two property definitions that are identical in every respect except for the their isMultiple status. For example, a node type can specify two string properties both called X, one of which is multi-valued and the other not. An example of such a node type is nt:unstructured.

        In implementations that support node type registration, if this PropertyDefinition object is actually a newly-created empty PropertyDefinitionTemplate, then this method will return false.

        Returns:
        a boolean
      • isFullTextSearchable

        boolean isFullTextSearchable()
        Returns true if this property is full-text searchable, meaning that its value is accessible through the full-text search function within a query.

        This attribute only takes effect if the node type holding the property definition has a queryable setting of true.

        In implementations that support node type registration, if this NodeTypeDefinition object is actually a newly-created empty NodeTypeTemplate, then this method will return an impementation- determined default value.

        Returns:
        a boolean
        Since:
        JCR 2.0
      • isQueryOrderable

        boolean isQueryOrderable()
        Returns true if this property is query-orderable, meaning that query results may be ordered by this property using the order-by clause of a query.

        This attribute only takes effect if the node type holding the property definition has a queryable setting of true.

        In implementations that support node type registration, if this NodeTypeDefinition object is actually a newly-created empty NodeTypeTemplate, then this method will return an impementation- determined default value.

        Returns:
        a boolean
        Since:
        JCR 2.0