// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. // Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation // files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, // modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE // WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR // COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, // ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // odata-utils.js (function (window, undefined) { var datajs = window.datajs || {}; var odata = window.OData || {}; // Imports var assigned = datajs.assigned; var contains = datajs.contains; var find = datajs.find; var isArray = datajs.isArray; var isDate = datajs.isDate; var isObject = datajs.isObject; var parseInt10 = datajs.parseInt10; // CONTENT START var dataItemTypeName = function (value, metadata) { /// <summary>Gets the type name of a data item value that belongs to a feed, an entry, a complex type property, or a collection property.</summary> /// <param name="value">Value of the data item from which the type name is going to be retrieved.</param> /// <param name="metadata" type="object" optional="true">Object containing metadata about the data tiem.</param> /// <remarks> /// This function will first try to get the type name from the data item's value itself if it is an object with a __metadata property; otherwise /// it will try to recover it from the metadata. If both attempts fail, it will return null. /// </remarks> /// <returns type="String">Data item type name; null if the type name cannot be found within the value or the metadata</returns> var valueTypeName = ((value && value.__metadata) || {}).type; return valueTypeName || (metadata ? metadata.type : null); }; var EDM = "Edm."; var EDM_BINARY = EDM + "Binary"; var EDM_BOOLEAN = EDM + "Boolean"; var EDM_BYTE = EDM + "Byte"; var EDM_DATETIME = EDM + "DateTime"; var EDM_DATETIMEOFFSET = EDM + "DateTimeOffset"; var EDM_DECIMAL = EDM + "Decimal"; var EDM_DOUBLE = EDM + "Double"; var EDM_GUID = EDM + "Guid"; var EDM_INT16 = EDM + "Int16"; var EDM_INT32 = EDM + "Int32"; var EDM_INT64 = EDM + "Int64"; var EDM_SBYTE = EDM + "SByte"; var EDM_SINGLE = EDM + "Single"; var EDM_STRING = EDM + "String"; var EDM_TIME = EDM + "Time"; var EDM_GEOGRAPHY = EDM + "Geography"; var EDM_GEOGRAPHY_POINT = EDM_GEOGRAPHY + "Point"; var EDM_GEOGRAPHY_LINESTRING = EDM_GEOGRAPHY + "LineString"; var EDM_GEOGRAPHY_POLYGON = EDM_GEOGRAPHY + "Polygon"; var EDM_GEOGRAPHY_COLLECTION = EDM_GEOGRAPHY + "Collection"; var EDM_GEOGRAPHY_MULTIPOLYGON = EDM_GEOGRAPHY + "MultiPolygon"; var EDM_GEOGRAPHY_MULTILINESTRING = EDM_GEOGRAPHY + "MultiLineString"; var EDM_GEOGRAPHY_MULTIPOINT = EDM_GEOGRAPHY + "MultiPoint"; var EDM_GEOMETRY = EDM + "Geometry"; var EDM_GEOMETRY_POINT = EDM_GEOMETRY + "Point"; var EDM_GEOMETRY_LINESTRING = EDM_GEOMETRY + "LineString"; var EDM_GEOMETRY_POLYGON = EDM_GEOMETRY + "Polygon"; var EDM_GEOMETRY_COLLECTION = EDM_GEOMETRY + "Collection"; var EDM_GEOMETRY_MULTIPOLYGON = EDM_GEOMETRY + "MultiPolygon"; var EDM_GEOMETRY_MULTILINESTRING = EDM_GEOMETRY + "MultiLineString"; var EDM_GEOMETRY_MULTIPOINT = EDM_GEOMETRY + "MultiPoint"; var GEOJSON_POINT = "Point"; var GEOJSON_LINESTRING = "LineString"; var GEOJSON_POLYGON = "Polygon"; var GEOJSON_MULTIPOINT = "MultiPoint"; var GEOJSON_MULTILINESTRING = "MultiLineString"; var GEOJSON_MULTIPOLYGON = "MultiPolygon"; var GEOJSON_GEOMETRYCOLLECTION = "GeometryCollection"; var primitiveEdmTypes = [ EDM_STRING, EDM_INT32, EDM_INT64, EDM_BOOLEAN, EDM_DOUBLE, EDM_SINGLE, EDM_DATETIME, EDM_DATETIMEOFFSET, EDM_TIME, EDM_DECIMAL, EDM_GUID, EDM_BYTE, EDM_INT16, EDM_SBYTE, EDM_BINARY ]; var geometryEdmTypes = [ EDM_GEOMETRY, EDM_GEOMETRY_POINT, EDM_GEOMETRY_LINESTRING, EDM_GEOMETRY_POLYGON, EDM_GEOMETRY_COLLECTION, EDM_GEOMETRY_MULTIPOLYGON, EDM_GEOMETRY_MULTILINESTRING, EDM_GEOMETRY_MULTIPOINT ]; var geographyEdmTypes = [ EDM_GEOGRAPHY, EDM_GEOGRAPHY_POINT, EDM_GEOGRAPHY_LINESTRING, EDM_GEOGRAPHY_POLYGON, EDM_GEOGRAPHY_COLLECTION, EDM_GEOGRAPHY_MULTIPOLYGON, EDM_GEOGRAPHY_MULTILINESTRING, EDM_GEOGRAPHY_MULTIPOINT ]; var forEachSchema = function (metadata, callback) { /// <summary>Invokes a function once per schema in metadata.</summary> /// <param name="metadata">Metadata store; one of edmx, schema, or an array of any of them.</param> /// <param name="callback" type="Function">Callback function to invoke once per schema.</param> /// <returns> /// The first truthy value to be returned from the callback; null or the last falsy value otherwise. /// </returns> if (!metadata) { return null; } if (isArray(metadata)) { var i, len, result; for (i = 0, len = metadata.length; i < len; i++) { result = forEachSchema(metadata[i], callback); if (result) { return result; } } return null; } else { if (metadata.dataServices) { return forEachSchema(metadata.dataServices.schema, callback); } return callback(metadata); } }; var formatMilliseconds = function (ms, ns) { /// <summary>Formats a millisecond and a nanosecond value into a single string.</summary> /// <param name="ms" type="Number" mayBeNull="false">Number of milliseconds to format.</param> /// <param name="ns" type="Number" mayBeNull="false">Number of nanoseconds to format.</param> /// <returns type="String">Formatted text.</returns> /// <remarks>If the value is already as string it's returned as-is.</remarks> // Avoid generating milliseconds if not necessary. if (ms === 0) { ms = ""; } else { ms = "." + formatNumberWidth(ms.toString(), 3); } if (ns > 0) { if (ms === "") { ms = ".000"; } ms += formatNumberWidth(ns.toString(), 4); } return ms; }; var formatDateTimeOffset = function (value) { /// <summary>Formats a DateTime or DateTimeOffset value a string.</summary> /// <param name="value" type="Date" mayBeNull="false">Value to format.</param> /// <returns type="String">Formatted text.</returns> /// <remarks>If the value is already as string it's returned as-is.</remarks> if (typeof value === "string") { return value; } var hasOffset = isDateTimeOffset(value); var offset = getCanonicalTimezone(value.__offset); if (hasOffset && offset !== "Z") { // We're about to change the value, so make a copy. value = new Date(value.valueOf()); var timezone = parseTimezone(offset); var hours = value.getUTCHours() + (timezone.d * timezone.h); var minutes = value.getUTCMinutes() + (timezone.d * timezone.m); value.setUTCHours(hours, minutes); } else if (!hasOffset) { // Don't suffix a 'Z' for Edm.DateTime values. offset = ""; } var year = value.getUTCFullYear(); var month = value.getUTCMonth() + 1; var sign = ""; if (year <= 0) { year = -(year - 1); sign = "-"; } var ms = formatMilliseconds(value.getUTCMilliseconds(), value.__ns); return sign + formatNumberWidth(year, 4) + "-" + formatNumberWidth(month, 2) + "-" + formatNumberWidth(value.getUTCDate(), 2) + "T" + formatNumberWidth(value.getUTCHours(), 2) + ":" + formatNumberWidth(value.getUTCMinutes(), 2) + ":" + formatNumberWidth(value.getUTCSeconds(), 2) + ms + offset; }; var formatDuration = function (value) { /// <summary>Converts a duration to a string in xsd:duration format.</summary> /// <param name="value" type="Object">Object with ms and __edmType properties.</param> /// <returns type="String">String representation of the time object in xsd:duration format.</returns> var ms = value.ms; var sign = ""; if (ms < 0) { sign = "-"; ms = -ms; } var days = Math.floor(ms / 86400000); ms -= 86400000 * days; var hours = Math.floor(ms / 3600000); ms -= 3600000 * hours; var minutes = Math.floor(ms / 60000); ms -= 60000 * minutes; var seconds = Math.floor(ms / 1000); ms -= seconds * 1000; return sign + "P" + formatNumberWidth(days, 2) + "DT" + formatNumberWidth(hours, 2) + "H" + formatNumberWidth(minutes, 2) + "M" + formatNumberWidth(seconds, 2) + formatMilliseconds(ms, value.ns) + "S"; }; var formatNumberWidth = function (value, width, append) { /// <summary>Formats the specified value to the given width.</summary> /// <param name="value" type="Number">Number to format (non-negative).</param> /// <param name="width" type="Number">Minimum width for number.</param> /// <param name="append" type="Boolean">Flag indicating if the value is padded at the beginning (false) or at the end (true).</param> /// <returns type="String">Text representation.</returns> var result = value.toString(10); while (result.length < width) { if (append) { result += "0"; } else { result = "0" + result; } } return result; }; var getCanonicalTimezone = function (timezone) { /// <summary>Gets the canonical timezone representation.</summary> /// <param name="timezone" type="String">Timezone representation.</param> /// <returns type="String">An 'Z' string if the timezone is absent or 0; the timezone otherwise.</returns> return (!timezone || timezone === "Z" || timezone === "+00:00" || timezone === "-00:00") ? "Z" : timezone; }; var getCollectionType = function (typeName) { /// <summary>Gets the type of a collection type name.</summary> /// <param name="typeName" type="String">Type name of the collection.</param> /// <returns type="String">Type of the collection; null if the type name is not a collection type.</returns> if (typeof typeName === "string") { var end = typeName.indexOf(")", 10); if (typeName.indexOf("Collection(") === 0 && end > 0) { return typeName.substring(11, end); } } return null; }; var invokeRequest = function (request, success, error, handler, httpClient, context) { /// <summary>Sends a request containing OData payload to a server.</summary> /// <param name="request">Object that represents the request to be sent..</param> /// <param name="success">Callback for a successful read operation.</param> /// <param name="error">Callback for handling errors.</param> /// <param name="handler">Handler for data serialization.</param> /// <param name="httpClient">HTTP client layer.</param> /// <param name="context">Context used for processing the request</param> return httpClient.request(request, function (response) { try { if (response.headers) { normalizeHeaders(response.headers); } if (response.data === undefined && response.statusCode !== 204) { handler.read(response, context); } } catch (err) { if (err.request === undefined) { err.request = request; } if (err.response === undefined) { err.response = response; } error(err); return; } success(response.data, response); }, error); }; var isBatch = function (value) { /// <summary>Tests whether a value is a batch object in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <returns type="Boolean">True is the value is a batch object; false otherwise.</returns> return isComplex(value) && isArray(value.__batchRequests); }; // Regular expression used for testing and parsing for a collection type. var collectionTypeRE = /Collection\((.*)\)/; var isCollection = function (value, typeName) { /// <summary>Tests whether a value is a collection value in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <param name="typeName" type="Sting">Type name of the value. This is used to disambiguate from a collection property value.</param> /// <returns type="Boolean">True is the value is a feed value; false otherwise.</returns> var colData = value && value.results || value; return !!colData && (isCollectionType(typeName)) || (!typeName && isArray(colData) && !isComplex(colData[0])); }; var isCollectionType = function (typeName) { /// <summary>Checks whether the specified type name is a collection type.</summary> /// <param name="typeName" type="String">Name of type to check.</param> /// <returns type="Boolean">True if the type is the name of a collection type; false otherwise.</returns> return collectionTypeRE.test(typeName); }; var isComplex = function (value) { /// <summary>Tests whether a value is a complex type value in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <returns type="Boolean">True is the value is a complex type value; false otherwise.</returns> return !!value && isObject(value) && !isArray(value) && !isDate(value); }; var isDateTimeOffset = function (value) { /// <summary>Checks whether a Date object is DateTimeOffset value</summary> /// <param name="value" type="Date" mayBeNull="false">Value to check.</param> /// <returns type="Boolean">true if the value is a DateTimeOffset, false otherwise.</returns> return (value.__edmType === "Edm.DateTimeOffset" || (!value.__edmType && value.__offset)); }; var isDeferred = function (value) { /// <summary>Tests whether a value is a deferred navigation property in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <returns type="Boolean">True is the value is a deferred navigation property; false otherwise.</returns> if (!value && !isComplex(value)) { return false; } var metadata = value.__metadata || {}; var deferred = value.__deferred || {}; return !metadata.type && !!deferred.uri; }; var isEntry = function (value) { /// <summary>Tests whether a value is an entry object in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <returns type="Boolean">True is the value is an entry object; false otherwise.</returns> return isComplex(value) && value.__metadata && "uri" in value.__metadata; }; var isFeed = function (value, typeName) { /// <summary>Tests whether a value is a feed value in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <param name="typeName" type="Sting">Type name of the value. This is used to disambiguate from a collection property value.</param> /// <returns type="Boolean">True is the value is a feed value; false otherwise.</returns> var feedData = value && value.results || value; return isArray(feedData) && ( (!isCollectionType(typeName)) && (isComplex(feedData[0])) ); }; var isGeographyEdmType = function (typeName) { /// <summary>Checks whether the specified type name is a geography EDM type.</summary> /// <param name="typeName" type="String">Name of type to check.</param> /// <returns type="Boolean">True if the type is a geography EDM type; false otherwise.</returns> return contains(geographyEdmTypes, typeName); }; var isGeometryEdmType = function (typeName) { /// <summary>Checks whether the specified type name is a geometry EDM type.</summary> /// <param name="typeName" type="String">Name of type to check.</param> /// <returns type="Boolean">True if the type is a geometry EDM type; false otherwise.</returns> return contains(geometryEdmTypes, typeName); }; var isNamedStream = function (value) { /// <summary>Tests whether a value is a named stream value in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <returns type="Boolean">True is the value is a named stream; false otherwise.</returns> if (!value && !isComplex(value)) { return false; } var metadata = value.__metadata; var mediaResource = value.__mediaresource; return !metadata && !!mediaResource && !!mediaResource.media_src; }; var isPrimitive = function (value) { /// <summary>Tests whether a value is a primitive type value in the library's internal representation.</summary> /// <param name="value">Value to test.</param> /// <remarks> /// Date objects are considered primitive types by the library. /// </remarks> /// <returns type="Boolean">True is the value is a primitive type value.</returns> return isDate(value) || typeof value === "string" || typeof value === "number" || typeof value === "boolean"; }; var isPrimitiveEdmType = function (typeName) { /// <summary>Checks whether the specified type name is a primitive EDM type.</summary> /// <param name="typeName" type="String">Name of type to check.</param> /// <returns type="Boolean">True if the type is a primitive EDM type; false otherwise.</returns> return contains(primitiveEdmTypes, typeName); }; var navigationPropertyKind = function (value, propertyModel) { /// <summary>Gets the kind of a navigation property value.</summary> /// <param name="value">Value of the navigation property.</param> /// <param name="propertyModel" type="Object" optional="true"> /// Object that describes the navigation property in an OData conceptual schema. /// </param> /// <remarks> /// The returned string is as follows /// </remarks> /// <returns type="String">String value describing the kind of the navigation property; null if the kind cannot be determined.</returns> if (isDeferred(value)) { return "deferred"; } if (isEntry(value)) { return "entry"; } if (isFeed(value)) { return "feed"; } if (propertyModel && propertyModel.relationship) { if (value === null || value === undefined || !isFeed(value)) { return "entry"; } return "feed"; } return null; }; var lookupProperty = function (properties, name) { /// <summary>Looks up a property by name.</summary> /// <param name="properties" type="Array" mayBeNull="true">Array of property objects as per EDM metadata.</param> /// <param name="name" type="String">Name to look for.</param> /// <returns type="Object">The property object; null if not found.</returns> return find(properties, function (property) { return property.name === name; }); }; var lookupInMetadata = function (name, metadata, kind) { /// <summary>Looks up a type object by name.</summary> /// <param name="name" type="String">Name, possibly null or empty.</param> /// <param name="metadata">Metadata store; one of edmx, schema, or an array of any of them.</param> /// <param name="kind" type="String">Kind of object to look for as per EDM metadata.</param> /// <returns>An type description if the name is found; null otherwise.</returns> return (name) ? forEachSchema(metadata, function (schema) { return lookupInSchema(name, schema, kind); }) : null; }; var lookupEntitySet = function (entitySets, name) { /// <summary>Looks up a entity set by name.</summary> /// <param name="properties" type="Array" mayBeNull="true">Array of entity set objects as per EDM metadata.</param> /// <param name="name" type="String">Name to look for.</param> /// <returns type="Object">The entity set object; null if not found.</returns> return find(entitySets, function (entitySet) { return entitySet.name === name; }); }; var lookupComplexType = function (name, metadata) { /// <summary>Looks up a complex type object by name.</summary> /// <param name="name" type="String">Name, possibly null or empty.</param> /// <param name="metadata">Metadata store; one of edmx, schema, or an array of any of them.</param> /// <returns>A complex type description if the name is found; null otherwise.</returns> return lookupInMetadata(name, metadata, "complexType"); }; var lookupEntityType = function (name, metadata) { /// <summary>Looks up an entity type object by name.</summary> /// <param name="name" type="String">Name, possibly null or empty.</param> /// <param name="metadata">Metadata store; one of edmx, schema, or an array of any of them.</param> /// <returns>An entity type description if the name is found; null otherwise.</returns> return lookupInMetadata(name, metadata, "entityType"); }; var lookupDefaultEntityContainer = function (metadata) { /// <summary>Looks up an</summary> /// <param name="name" type="String">Name, possibly null or empty.</param> /// <param name="metadata">Metadata store; one of edmx, schema, or an array of any of them.</param> /// <returns>An entity container description if the name is found; null otherwise.</returns> return forEachSchema(metadata, function (schema) { return find(schema.entityContainer, function (container) { return parseBool(container.isDefaultEntityContainer); }); }); }; var lookupEntityContainer = function (name, metadata) { /// <summary>Looks up an entity container object by name.</summary> /// <param name="name" type="String">Name, possibly null or empty.</param> /// <param name="metadata">Metadata store; one of edmx, schema, or an array of any of them.</param> /// <returns>An entity container description if the name is found; null otherwise.</returns> return lookupInMetadata(name, metadata, "entityContainer"); }; var lookupFunctionImport = function (functionImports, name) { /// <summary>Looks up a function import by name.</summary> /// <param name="properties" type="Array" mayBeNull="true">Array of function import objects as per EDM metadata.</param> /// <param name="name" type="String">Name to look for.</param> /// <returns type="Object">The entity set object; null if not found.</returns> return find(functionImports, function (functionImport) { return functionImport.name === name; }); }; var lookupNavigationPropertyType = function (navigationProperty, metadata) { /// <summary>Looks up the target entity type for a navigation property.</summary> /// <param name="navigationProperty" type="Object"></param> /// <param name="metadata" type="Object"></param> /// <returns type="String">The entity type name for the specified property, null if not found.</returns> var result = null; if (navigationProperty) { var rel = navigationProperty.relationship; var association = forEachSchema(metadata, function (schema) { // The name should be the namespace qualified name in 'ns'.'type' format. var nameOnly = removeNamespace(schema["namespace"], rel); var associations = schema.association; if (nameOnly && associations) { var i, len; for (i = 0, len = associations.length; i < len; i++) { if (associations[i].name === nameOnly) { return associations[i]; } } } return null; }); if (association) { var end = association.end[0]; if (end.role !== navigationProperty.toRole) { end = association.end[1]; // For metadata to be valid, end.role === navigationProperty.toRole now. } result = end.type; } } return result; }; var lookupNavigationPropertyEntitySet = function (navigationProperty, sourceEntitySetName, metadata) { /// <summary>Looks up the target entityset name for a navigation property.</summary> /// <param name="navigationProperty" type="Object"></param> /// <param name="metadata" type="Object"></param> /// <returns type="String">The entityset name for the specified property, null if not found.</returns> if (navigationProperty) { var rel = navigationProperty.relationship; var associationSet = forEachSchema(metadata, function (schema) { var containers = schema.entityContainer; for (var i = 0; i < containers.length; i++) { var associationSets = containers[i].associationSet; if (associationSets) { for (var j = 0; j < associationSets.length; j++) { if (associationSets[j].association == rel) { return associationSets[j]; } } } } return null; }); if (associationSet && associationSet.end[0] && associationSet.end[1]) { return (associationSet.end[0].entitySet == sourceEntitySetName) ? associationSet.end[1].entitySet : associationSet.end[0].entitySet; } } return null; }; var getEntitySetInfo = function (entitySetName, metadata) { /// <summary>Gets the entitySet info, container name and functionImports for an entitySet</summary> /// <param name="navigationProperty" type="Object"></param> /// <param name="metadata" type="Object"></param> /// <returns type="Object">The info about the entitySet.</returns> var info = forEachSchema(metadata, function (schema) { var containers = schema.entityContainer; for (var i = 0; i < containers.length; i++) { var entitySets = containers[i].entitySet; if (entitySets) { for (var j = 0; j < entitySets.length; j++) { if (entitySets[j].name == entitySetName) { return { entitySet: entitySets[j], containerName: containers[i].name, functionImport: containers[i].functionImport }; } } } } return null; }); return info; }; var removeNamespace = function (ns, fullName) { /// <summary>Given an expected namespace prefix, removes it from a full name.</summary> /// <param name="ns" type="String">Expected namespace.</param> /// <param name="fullName" type="String">Full name in 'ns'.'name' form.</param> /// <returns type="String">The local name, null if it isn't found in the expected namespace.</returns> if (fullName.indexOf(ns) === 0 && fullName.charAt(ns.length) === ".") { return fullName.substr(ns.length + 1); } return null; }; var lookupInSchema = function (name, schema, kind) { /// <summary>Looks up a schema object by name.</summary> /// <param name="name" type="String">Name (assigned).</param> /// <param name="schema">Schema object as per EDM metadata.</param> /// <param name="kind" type="String">Kind of object to look for as per EDM metadata.</param> /// <returns>An entity type description if the name is found; null otherwise.</returns> if (name && schema) { // The name should be the namespace qualified name in 'ns'.'type' format. var nameOnly = removeNamespace(schema["namespace"], name); if (nameOnly) { return find(schema[kind], function (item) { return item.name === nameOnly; }); } } return null; }; var maxVersion = function (left, right) { /// <summary>Compares to version strings and returns the higher one.</summary> /// <param name="left" type="String">Version string in the form "major.minor.rev"</param> /// <param name="right" type="String">Version string in the form "major.minor.rev"</param> /// <returns type="String">The higher version string.</returns> if (left === right) { return left; } var leftParts = left.split("."); var rightParts = right.split("."); var len = (leftParts.length >= rightParts.length) ? leftParts.length : rightParts.length; for (var i = 0; i < len; i++) { var leftVersion = leftParts[i] && parseInt10(leftParts[i]); var rightVersion = rightParts[i] && parseInt10(rightParts[i]); if (leftVersion > rightVersion) { return left; } if (leftVersion < rightVersion) { return right; } } }; var normalHeaders = { "accept": "Accept", "content-type": "Content-Type", "dataserviceversion": "DataServiceVersion", "maxdataserviceversion": "MaxDataServiceVersion" }; var normalizeHeaders = function (headers) { /// <summary>Normalizes headers so they can be found with consistent casing.</summary> /// <param name="headers" type="Object">Dictionary of name/value pairs.</param> for (var name in headers) { var lowerName = name.toLowerCase(); var normalName = normalHeaders[lowerName]; if (normalName && name !== normalName) { var val = headers[name]; delete headers[name]; headers[normalName] = val; } } }; var parseBool = function (propertyValue) { /// <summary>Parses a string into a boolean value.</summary> /// <param name="propertyValue">Value to parse.</param> /// <returns type="Boolean">true if the property value is 'true'; false otherwise.</returns> if (typeof propertyValue === "boolean") { return propertyValue; } return typeof propertyValue === "string" && propertyValue.toLowerCase() === "true"; }; // The captured indices for this expression are: // 0 - complete input // 1,2,3 - year with optional minus sign, month, day // 4,5,6 - hours, minutes, seconds // 7 - optional milliseconds // 8 - everything else (presumably offset information) var parseDateTimeRE = /^(-?\d{4,})-(\d{2})-(\d{2})T(\d{2}):(\d{2})(?::(\d{2}))?(?:\.(\d+))?(.*)$/; var parseDateTimeMaybeOffset = function (value, withOffset, nullOnError) { /// <summary>Parses a string into a DateTime value.</summary> /// <param name="value" type="String">Value to parse.</param> /// <param name="withOffset" type="Boolean">Whether offset is expected.</param> /// <returns type="Date">The parsed value.</returns> // We cannot parse this in cases of failure to match or if offset information is specified. var parts = parseDateTimeRE.exec(value); var offset = (parts) ? getCanonicalTimezone(parts[8]) : null; if (!parts || (!withOffset && offset !== "Z")) { if (nullOnError) { return null; } throw { message: "Invalid date/time value" }; } // Pre-parse years, account for year '0' being invalid in dateTime. var year = parseInt10(parts[1]); if (year <= 0) { year++; } // Pre-parse optional milliseconds, fill in default. Fail if value is too precise. var ms = parts[7]; var ns = 0; if (!ms) { ms = 0; } else { if (ms.length > 7) { if (nullOnError) { return null; } throw { message: "Cannot parse date/time value to given precision." }; } ns = formatNumberWidth(ms.substring(3), 4, true); ms = formatNumberWidth(ms.substring(0, 3), 3, true); ms = parseInt10(ms); ns = parseInt10(ns); } // Pre-parse other time components and offset them if necessary. var hours = parseInt10(parts[4]); var minutes = parseInt10(parts[5]); var seconds = parseInt10(parts[6]) || 0; if (offset !== "Z") { // The offset is reversed to get back the UTC date, which is // what the API will eventually have. var timezone = parseTimezone(offset); var direction = -(timezone.d); hours += timezone.h * direction; minutes += timezone.m * direction; } // Set the date and time separately with setFullYear, so years 0-99 aren't biased like in Date.UTC. var result = new Date(); result.setUTCFullYear( year, // Year. parseInt10(parts[2]) - 1, // Month (zero-based for Date.UTC and setFullYear). parseInt10(parts[3]) // Date. ); result.setUTCHours(hours, minutes, seconds, ms); if (isNaN(result.valueOf())) { if (nullOnError) { return null; } throw { message: "Invalid date/time value" }; } if (withOffset) { result.__edmType = "Edm.DateTimeOffset"; result.__offset = offset; } if (ns) { result.__ns = ns; } return result; }; var parseDateTime = function (propertyValue, nullOnError) { /// <summary>Parses a string into a DateTime value.</summary> /// <param name="propertyValue" type="String">Value to parse.</param> /// <returns type="Date">The parsed value.</returns> return parseDateTimeMaybeOffset(propertyValue, false, nullOnError); }; var parseDateTimeOffset = function (propertyValue, nullOnError) { /// <summary>Parses a string into a DateTimeOffset value.</summary> /// <param name="propertyValue" type="String">Value to parse.</param> /// <returns type="Date">The parsed value.</returns> /// <remarks> /// The resulting object is annotated with an __edmType property and /// an __offset property reflecting the original intended offset of /// the value. The time is adjusted for UTC time, as the current /// timezone-aware Date APIs will only work with the local timezone. /// </remarks> return parseDateTimeMaybeOffset(propertyValue, true, nullOnError); }; // The captured indices for this expression are: // 0 - complete input // 1 - direction // 2,3,4 - years, months, days // 5,6,7,8 - hours, minutes, seconds, miliseconds var parseTimeRE = /^([+-])?P(?:(\d+)Y)?(?:(\d+)M)?(?:(\d+)D)?(?:T(?:(\d+)H)?(?:(\d+)M)?(?:(\d+)(?:\.(\d+))?S)?)?/; var isEdmDurationValue = function(value) { parseTimeRE.test(value); }; var parseDuration = function (duration) { /// <summary>Parses a string in xsd:duration format.</summary> /// <param name="duration" type="String">Duration value.</param> /// <remarks> /// This method will throw an exception if the input string has a year or a month component. /// </remarks> /// <returns type="Object">Object representing the time</returns> var parts = parseTimeRE.exec(duration); if (parts === null) { throw { message: "Invalid duration value." }; } var years = parts[2] || "0"; var months = parts[3] || "0"; var days = parseInt10(parts[4] || 0); var hours = parseInt10(parts[5] || 0); var minutes = parseInt10(parts[6] || 0); var seconds = parseFloat(parts[7] || 0); if (years !== "0" || months !== "0") { throw { message: "Unsupported duration value." }; } var ms = parts[8]; var ns = 0; if (!ms) { ms = 0; } else { if (ms.length > 7) { throw { message: "Cannot parse duration value to given precision." }; } ns = formatNumberWidth(ms.substring(3), 4, true); ms = formatNumberWidth(ms.substring(0, 3), 3, true); ms = parseInt10(ms); ns = parseInt10(ns); } ms += seconds * 1000 + minutes * 60000 + hours * 3600000 + days * 86400000; if (parts[1] === "-") { ms = -ms; } var result = { ms: ms, __edmType: "Edm.Time" }; if (ns) { result.ns = ns; } return result; }; var parseTimezone = function (timezone) { /// <summary>Parses a timezone description in (+|-)nn:nn format.</summary> /// <param name="timezone" type="String">Timezone offset.</param> /// <returns type="Object"> /// An object with a (d)irection property of 1 for + and -1 for -, /// offset (h)ours and offset (m)inutes. /// </returns> var direction = timezone.substring(0, 1); direction = (direction === "+") ? 1 : -1; var offsetHours = parseInt10(timezone.substring(1)); var offsetMinutes = parseInt10(timezone.substring(timezone.indexOf(":") + 1)); return { d: direction, h: offsetHours, m: offsetMinutes }; }; var prepareRequest = function (request, handler, context) { /// <summary>Prepares a request object so that it can be sent through the network.</summary> /// <param name="request">Object that represents the request to be sent.</param> /// <param name="handler">Handler for data serialization</param> /// <param name="context">Context used for preparing the request</param> // Default to GET if no method has been specified. if (!request.method) { request.method = "GET"; } if (!request.headers) { request.headers = {}; } else { normalizeHeaders(request.headers); } if (request.headers.Accept === undefined) { request.headers.Accept = handler.accept; } if (assigned(request.data) && request.body === undefined) { handler.write(request, context); } if (!assigned(request.headers.MaxDataServiceVersion)) { request.headers.MaxDataServiceVersion = handler.maxDataServiceVersion || "1.0"; } }; var traverseInternal = function (item, owner, callback) { /// <summary>Traverses a tree of objects invoking callback for every value.</summary> /// <param name="item" type="Object">Object or array to traverse.</param> /// <param name="callback" type="Function"> /// Callback function with key and value, similar to JSON.parse reviver. /// </param> /// <returns type="Object">The object with traversed properties.</returns> /// <remarks>Unlike the JSON reviver, this won't delete null members.</remarks> if (item && typeof item === "object") { for (var name in item) { var value = item[name]; var result = traverseInternal(value, name, callback); result = callback(name, result, owner); if (result !== value) { if (value === undefined) { delete item[name]; } else { item[name] = result; } } } } return item; }; var traverse = function (item, callback) { /// <summary>Traverses a tree of objects invoking callback for every value.</summary> /// <param name="item" type="Object">Object or array to traverse.</param> /// <param name="callback" type="Function"> /// Callback function with key and value, similar to JSON.parse reviver. /// </param> /// <returns type="Object">The traversed object.</returns> /// <remarks>Unlike the JSON reviver, this won't delete null members.</remarks> return callback("", traverseInternal(item, "", callback)); }; // DATAJS INTERNAL START odata.dataItemTypeName = dataItemTypeName; odata.EDM_BINARY = EDM_BINARY; odata.EDM_BOOLEAN = EDM_BOOLEAN; odata.EDM_BYTE = EDM_BYTE; odata.EDM_DATETIME = EDM_DATETIME; odata.EDM_DATETIMEOFFSET = EDM_DATETIMEOFFSET; odata.EDM_DECIMAL = EDM_DECIMAL; odata.EDM_DOUBLE = EDM_DOUBLE; odata.EDM_GEOGRAPHY = EDM_GEOGRAPHY; odata.EDM_GEOGRAPHY_POINT = EDM_GEOGRAPHY_POINT; odata.EDM_GEOGRAPHY_LINESTRING = EDM_GEOGRAPHY_LINESTRING; odata.EDM_GEOGRAPHY_POLYGON = EDM_GEOGRAPHY_POLYGON; odata.EDM_GEOGRAPHY_COLLECTION = EDM_GEOGRAPHY_COLLECTION; odata.EDM_GEOGRAPHY_MULTIPOLYGON = EDM_GEOGRAPHY_MULTIPOLYGON; odata.EDM_GEOGRAPHY_MULTILINESTRING = EDM_GEOGRAPHY_MULTILINESTRING; odata.EDM_GEOGRAPHY_MULTIPOINT = EDM_GEOGRAPHY_MULTIPOINT; odata.EDM_GEOMETRY = EDM_GEOMETRY; odata.EDM_GEOMETRY_POINT = EDM_GEOMETRY_POINT; odata.EDM_GEOMETRY_LINESTRING = EDM_GEOMETRY_LINESTRING; odata.EDM_GEOMETRY_POLYGON = EDM_GEOMETRY_POLYGON; odata.EDM_GEOMETRY_COLLECTION = EDM_GEOMETRY_COLLECTION; odata.EDM_GEOMETRY_MULTIPOLYGON = EDM_GEOMETRY_MULTIPOLYGON; odata.EDM_GEOMETRY_MULTILINESTRING = EDM_GEOMETRY_MULTILINESTRING; odata.EDM_GEOMETRY_MULTIPOINT = EDM_GEOMETRY_MULTIPOINT; odata.EDM_GUID = EDM_GUID; odata.EDM_INT16 = EDM_INT16; odata.EDM_INT32 = EDM_INT32; odata.EDM_INT64 = EDM_INT64; odata.EDM_SBYTE = EDM_SBYTE; odata.EDM_SINGLE = EDM_SINGLE; odata.EDM_STRING = EDM_STRING; odata.EDM_TIME = EDM_TIME; odata.GEOJSON_POINT = GEOJSON_POINT; odata.GEOJSON_LINESTRING = GEOJSON_LINESTRING; odata.GEOJSON_POLYGON = GEOJSON_POLYGON; odata.GEOJSON_MULTIPOINT = GEOJSON_MULTIPOINT; odata.GEOJSON_MULTILINESTRING = GEOJSON_MULTILINESTRING; odata.GEOJSON_MULTIPOLYGON = GEOJSON_MULTIPOLYGON; odata.GEOJSON_GEOMETRYCOLLECTION = GEOJSON_GEOMETRYCOLLECTION; odata.forEachSchema = forEachSchema; odata.formatDateTimeOffset = formatDateTimeOffset; odata.formatDuration = formatDuration; odata.formatNumberWidth = formatNumberWidth; odata.getCanonicalTimezone = getCanonicalTimezone; odata.getCollectionType = getCollectionType; odata.invokeRequest = invokeRequest; odata.isBatch = isBatch; odata.isCollection = isCollection; odata.isCollectionType = isCollectionType; odata.isComplex = isComplex; odata.isDateTimeOffset = isDateTimeOffset; odata.isDeferred = isDeferred; odata.isEntry = isEntry; odata.isFeed = isFeed; odata.isGeographyEdmType = isGeographyEdmType; odata.isGeometryEdmType = isGeometryEdmType; odata.isNamedStream = isNamedStream; odata.isPrimitive = isPrimitive; odata.isPrimitiveEdmType = isPrimitiveEdmType; odata.lookupComplexType = lookupComplexType; odata.lookupDefaultEntityContainer = lookupDefaultEntityContainer; odata.lookupEntityContainer = lookupEntityContainer; odata.lookupEntitySet = lookupEntitySet; odata.lookupEntityType = lookupEntityType; odata.lookupFunctionImport = lookupFunctionImport; odata.lookupNavigationPropertyType = lookupNavigationPropertyType; odata.lookupNavigationPropertyEntitySet = lookupNavigationPropertyEntitySet; odata.lookupInSchema = lookupInSchema; odata.lookupProperty = lookupProperty; odata.lookupInMetadata = lookupInMetadata; odata.getEntitySetInfo = getEntitySetInfo; odata.maxVersion = maxVersion; odata.navigationPropertyKind = navigationPropertyKind; odata.normalizeHeaders = normalizeHeaders; odata.parseBool = parseBool; odata.parseDateTime = parseDateTime; odata.parseDateTimeOffset = parseDateTimeOffset; odata.parseDuration = parseDuration; odata.parseTimezone = parseTimezone; odata.parseInt10 = parseInt10; odata.prepareRequest = prepareRequest; odata.removeNamespace = removeNamespace; odata.traverse = traverse; // DATAJS INTERNAL END // CONTENT END })(this);