// Copyright 2006 The Closure Library Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS-IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. /** * @fileoverview Class for parsing and formatting URIs. * * Use goog.Uri(string) to parse a URI string. Use goog.Uri.create(...) to * create a new instance of the goog.Uri object from Uri parts. * * e.g: var myUri = new goog.Uri(window.location); * * Implements RFC 3986 for parsing/formatting URIs. * http://www.ietf.org/rfc/rfc3986.txt * * Some changes have been made to the interface (more like .NETs), though the * internal representation is now of un-encoded parts, this will change the * behavior slightly. * * @author msamuel@google.com (Mike Samuel) */ goog.provide('goog.Uri'); goog.provide('goog.Uri.QueryData'); goog.require('goog.array'); goog.require('goog.asserts'); goog.require('goog.string'); goog.require('goog.structs'); goog.require('goog.structs.Map'); goog.require('goog.uri.utils'); goog.require('goog.uri.utils.ComponentIndex'); goog.require('goog.uri.utils.StandardQueryParam'); /** * This class contains setters and getters for the parts of the URI. * The getXyz/setXyz methods return the decoded part * -- sogoog.Uri.parse('/foo%20bar').getPath() will return the * decoded path, /foo bar. * * Reserved characters (see RFC 3986 section 2.2) can be present in * their percent-encoded form in scheme, domain, and path URI components and * will not be auto-decoded. For example: * goog.Uri.parse('rel%61tive/path%2fto/resource').getPath() will * return relative/path%2fto/resource. * * The constructor accepts an optional unparsed, raw URI string. The parser * is relaxed, so special characters that aren't escaped but don't cause * ambiguities will not cause parse failures. * * All setters return this and so may be chained, a la * goog.Uri.parse('/foo').setFragment('part').toString(). * * @param {*=} opt_uri Optional string URI to parse * (use goog.Uri.create() to create a URI from parts), or if * a goog.Uri is passed, a clone is created. * @param {boolean=} opt_ignoreCase If true, #getParameterValue will ignore * the case of the parameter name. * * @throws URIError If opt_uri is provided and URI is malformed (that is, * if decodeURIComponent fails on any of the URI components). * @constructor * @struct */ goog.Uri = function(opt_uri, opt_ignoreCase) { /** * Scheme such as "http". * @private {string} */ this.scheme_ = ''; /** * User credentials in the form "username:password". * @private {string} */ this.userInfo_ = ''; /** * Domain part, e.g. "www.google.com". * @private {string} */ this.domain_ = ''; /** * Port, e.g. 8080. * @private {?number} */ this.port_ = null; /** * Path, e.g. "/tests/img.png". * @private {string} */ this.path_ = ''; /** * The fragment without the #. * @private {string} */ this.fragment_ = ''; /** * Whether or not this Uri should be treated as Read Only. * @private {boolean} */ this.isReadOnly_ = false; /** * Whether or not to ignore case when comparing query params. * @private {boolean} */ this.ignoreCase_ = false; /** * Object representing query data. * @private {!goog.Uri.QueryData} */ this.queryData_; // Parse in the uri string var m; if (opt_uri instanceof goog.Uri) { this.ignoreCase_ = goog.isDef(opt_ignoreCase) ? opt_ignoreCase : opt_uri.getIgnoreCase(); this.setScheme(opt_uri.getScheme()); this.setUserInfo(opt_uri.getUserInfo()); this.setDomain(opt_uri.getDomain()); this.setPort(opt_uri.getPort()); this.setPath(opt_uri.getPath()); this.setQueryData(opt_uri.getQueryData().clone()); this.setFragment(opt_uri.getFragment()); } else if (opt_uri && (m = goog.uri.utils.split(String(opt_uri)))) { this.ignoreCase_ = !!opt_ignoreCase; // Set the parts -- decoding as we do so. // COMPATIBILITY NOTE - In IE, unmatched fields may be empty strings, // whereas in other browsers they will be undefined. this.setScheme(m[goog.uri.utils.ComponentIndex.SCHEME] || '', true); this.setUserInfo(m[goog.uri.utils.ComponentIndex.USER_INFO] || '', true); this.setDomain(m[goog.uri.utils.ComponentIndex.DOMAIN] || '', true); this.setPort(m[goog.uri.utils.ComponentIndex.PORT]); this.setPath(m[goog.uri.utils.ComponentIndex.PATH] || '', true); this.setQueryData(m[goog.uri.utils.ComponentIndex.QUERY_DATA] || '', true); this.setFragment(m[goog.uri.utils.ComponentIndex.FRAGMENT] || '', true); } else { this.ignoreCase_ = !!opt_ignoreCase; this.queryData_ = new goog.Uri.QueryData(null, null, this.ignoreCase_); } }; /** * If true, we preserve the type of query parameters set programmatically. * * This means that if you set a parameter to a boolean, and then call * getParameterValue, you will get a boolean back. * * If false, we will coerce parameters to strings, just as they would * appear in real URIs. * * TODO(nicksantos): Remove this once people have time to fix all tests. * * @type {boolean} */ goog.Uri.preserveParameterTypesCompatibilityFlag = false; /** * Parameter name added to stop caching. * @type {string} */ goog.Uri.RANDOM_PARAM = goog.uri.utils.StandardQueryParam.RANDOM; /** * @return {string} The string form of the url. * @override */ goog.Uri.prototype.toString = function() { var out = []; var scheme = this.getScheme(); if (scheme) { out.push( goog.Uri.encodeSpecialChars_( scheme, goog.Uri.reDisallowedInSchemeOrUserInfo_, true), ':'); } var domain = this.getDomain(); if (domain || scheme == 'file') { out.push('//'); var userInfo = this.getUserInfo(); if (userInfo) { out.push( goog.Uri.encodeSpecialChars_( userInfo, goog.Uri.reDisallowedInSchemeOrUserInfo_, true), '@'); } out.push(goog.Uri.removeDoubleEncoding_(goog.string.urlEncode(domain))); var port = this.getPort(); if (port != null) { out.push(':', String(port)); } } var path = this.getPath(); if (path) { if (this.hasDomain() && path.charAt(0) != '/') { out.push('/'); } out.push( goog.Uri.encodeSpecialChars_( path, path.charAt(0) == '/' ? goog.Uri.reDisallowedInAbsolutePath_ : goog.Uri.reDisallowedInRelativePath_, true)); } var query = this.getEncodedQuery(); if (query) { out.push('?', query); } var fragment = this.getFragment(); if (fragment) { out.push( '#', goog.Uri.encodeSpecialChars_( fragment, goog.Uri.reDisallowedInFragment_)); } return out.join(''); }; /** * Resolves the given relative URI (a goog.Uri object), using the URI * represented by this instance as the base URI. * * There are several kinds of relative URIs:
* 1. foo - replaces the last part of the path, the whole query and fragment
* 2. /foo - replaces the the path, the query and fragment
* 3. //foo - replaces everything from the domain on. foo is a domain name
* 4. ?foo - replace the query and fragment
* 5. #foo - replace the fragment only * * Additionally, if relative URI has a non-empty path, all ".." and "." * segments will be resolved, as described in RFC 3986. * * @param {!goog.Uri} relativeUri The relative URI to resolve. * @return {!goog.Uri} The resolved URI. */ goog.Uri.prototype.resolve = function(relativeUri) { var absoluteUri = this.clone(); // we satisfy these conditions by looking for the first part of relativeUri // that is not blank and applying defaults to the rest var overridden = relativeUri.hasScheme(); if (overridden) { absoluteUri.setScheme(relativeUri.getScheme()); } else { overridden = relativeUri.hasUserInfo(); } if (overridden) { absoluteUri.setUserInfo(relativeUri.getUserInfo()); } else { overridden = relativeUri.hasDomain(); } if (overridden) { absoluteUri.setDomain(relativeUri.getDomain()); } else { overridden = relativeUri.hasPort(); } var path = relativeUri.getPath(); if (overridden) { absoluteUri.setPort(relativeUri.getPort()); } else { overridden = relativeUri.hasPath(); if (overridden) { // resolve path properly if (path.charAt(0) != '/') { // path is relative if (this.hasDomain() && !this.hasPath()) { // RFC 3986, section 5.2.3, case 1 path = '/' + path; } else { // RFC 3986, section 5.2.3, case 2 var lastSlashIndex = absoluteUri.getPath().lastIndexOf('/'); if (lastSlashIndex != -1) { path = absoluteUri.getPath().substr(0, lastSlashIndex + 1) + path; } } } path = goog.Uri.removeDotSegments(path); } } if (overridden) { absoluteUri.setPath(path); } else { overridden = relativeUri.hasQuery(); } if (overridden) { absoluteUri.setQueryData(relativeUri.getQueryData().clone()); } else { overridden = relativeUri.hasFragment(); } if (overridden) { absoluteUri.setFragment(relativeUri.getFragment()); } return absoluteUri; }; /** * Clones the URI instance. * @return {!goog.Uri} New instance of the URI object. */ goog.Uri.prototype.clone = function() { return new goog.Uri(this); }; /** * @return {string} The encoded scheme/protocol for the URI. */ goog.Uri.prototype.getScheme = function() { return this.scheme_; }; /** * Sets the scheme/protocol. * @throws URIError If opt_decode is true and newScheme is malformed (that is, * if decodeURIComponent fails). * @param {string} newScheme New scheme value. * @param {boolean=} opt_decode Optional param for whether to decode new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setScheme = function(newScheme, opt_decode) { this.enforceReadOnly(); this.scheme_ = opt_decode ? goog.Uri.decodeOrEmpty_(newScheme, true) : newScheme; // remove an : at the end of the scheme so somebody can pass in // window.location.protocol if (this.scheme_) { this.scheme_ = this.scheme_.replace(/:$/, ''); } return this; }; /** * @return {boolean} Whether the scheme has been set. */ goog.Uri.prototype.hasScheme = function() { return !!this.scheme_; }; /** * @return {string} The decoded user info. */ goog.Uri.prototype.getUserInfo = function() { return this.userInfo_; }; /** * Sets the userInfo. * @throws URIError If opt_decode is true and newUserInfo is malformed (that is, * if decodeURIComponent fails). * @param {string} newUserInfo New userInfo value. * @param {boolean=} opt_decode Optional param for whether to decode new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setUserInfo = function(newUserInfo, opt_decode) { this.enforceReadOnly(); this.userInfo_ = opt_decode ? goog.Uri.decodeOrEmpty_(newUserInfo) : newUserInfo; return this; }; /** * @return {boolean} Whether the user info has been set. */ goog.Uri.prototype.hasUserInfo = function() { return !!this.userInfo_; }; /** * @return {string} The decoded domain. */ goog.Uri.prototype.getDomain = function() { return this.domain_; }; /** * Sets the domain. * @throws URIError If opt_decode is true and newDomain is malformed (that is, * if decodeURIComponent fails). * @param {string} newDomain New domain value. * @param {boolean=} opt_decode Optional param for whether to decode new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setDomain = function(newDomain, opt_decode) { this.enforceReadOnly(); this.domain_ = opt_decode ? goog.Uri.decodeOrEmpty_(newDomain, true) : newDomain; return this; }; /** * @return {boolean} Whether the domain has been set. */ goog.Uri.prototype.hasDomain = function() { return !!this.domain_; }; /** * @return {?number} The port number. */ goog.Uri.prototype.getPort = function() { return this.port_; }; /** * Sets the port number. * @param {*} newPort Port number. Will be explicitly casted to a number. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setPort = function(newPort) { this.enforceReadOnly(); if (newPort) { newPort = Number(newPort); if (isNaN(newPort) || newPort < 0) { throw Error('Bad port number ' + newPort); } this.port_ = newPort; } else { this.port_ = null; } return this; }; /** * @return {boolean} Whether the port has been set. */ goog.Uri.prototype.hasPort = function() { return this.port_ != null; }; /** * @return {string} The decoded path. */ goog.Uri.prototype.getPath = function() { return this.path_; }; /** * Sets the path. * @throws URIError If opt_decode is true and newPath is malformed (that is, * if decodeURIComponent fails). * @param {string} newPath New path value. * @param {boolean=} opt_decode Optional param for whether to decode new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setPath = function(newPath, opt_decode) { this.enforceReadOnly(); this.path_ = opt_decode ? goog.Uri.decodeOrEmpty_(newPath, true) : newPath; return this; }; /** * @return {boolean} Whether the path has been set. */ goog.Uri.prototype.hasPath = function() { return !!this.path_; }; /** * @return {boolean} Whether the query string has been set. */ goog.Uri.prototype.hasQuery = function() { return this.queryData_.toString() !== ''; }; /** * Sets the query data. * @param {goog.Uri.QueryData|string|undefined} queryData QueryData object. * @param {boolean=} opt_decode Optional param for whether to decode new value. * Applies only if queryData is a string. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setQueryData = function(queryData, opt_decode) { this.enforceReadOnly(); if (queryData instanceof goog.Uri.QueryData) { this.queryData_ = queryData; this.queryData_.setIgnoreCase(this.ignoreCase_); } else { if (!opt_decode) { // QueryData accepts encoded query string, so encode it if // opt_decode flag is not true. queryData = goog.Uri.encodeSpecialChars_( queryData, goog.Uri.reDisallowedInQuery_); } this.queryData_ = new goog.Uri.QueryData(queryData, null, this.ignoreCase_); } return this; }; /** * Sets the URI query. * @param {string} newQuery New query value. * @param {boolean=} opt_decode Optional param for whether to decode new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setQuery = function(newQuery, opt_decode) { return this.setQueryData(newQuery, opt_decode); }; /** * @return {string} The encoded URI query, not including the ?. */ goog.Uri.prototype.getEncodedQuery = function() { return this.queryData_.toString(); }; /** * @return {string} The decoded URI query, not including the ?. */ goog.Uri.prototype.getDecodedQuery = function() { return this.queryData_.toDecodedString(); }; /** * Returns the query data. * @return {!goog.Uri.QueryData} QueryData object. */ goog.Uri.prototype.getQueryData = function() { return this.queryData_; }; /** * @return {string} The encoded URI query, not including the ?. * * Warning: This method, unlike other getter methods, returns encoded * value, instead of decoded one. */ goog.Uri.prototype.getQuery = function() { return this.getEncodedQuery(); }; /** * Sets the value of the named query parameters, clearing previous values for * that key. * * @param {string} key The parameter to set. * @param {*} value The new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setParameterValue = function(key, value) { this.enforceReadOnly(); this.queryData_.set(key, value); return this; }; /** * Sets the values of the named query parameters, clearing previous values for * that key. Not new values will currently be moved to the end of the query * string. * * So,

goog.Uri.parse('foo?a=b&c=d&e=f').setParameterValues('c', ['new'])
 *

yields foo?a=b&e=f&c=new.

* * @param {string} key The parameter to set. * @param {*} values The new values. If values is a single * string then it will be treated as the sole value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setParameterValues = function(key, values) { this.enforceReadOnly(); if (!goog.isArray(values)) { values = [String(values)]; } this.queryData_.setValues(key, values); return this; }; /** * Returns the values for a given cgi parameter as a list of decoded * query parameter values. * @param {string} name The parameter to get values for. * @return {!Array} The values for a given cgi parameter as a list of * decoded query parameter values. */ goog.Uri.prototype.getParameterValues = function(name) { return this.queryData_.getValues(name); }; /** * Returns the first value for a given cgi parameter or undefined if the given * parameter name does not appear in the query string. * @param {string} paramName Unescaped parameter name. * @return {string|undefined} The first value for a given cgi parameter or * undefined if the given parameter name does not appear in the query * string. */ goog.Uri.prototype.getParameterValue = function(paramName) { // NOTE(nicksantos): This type-cast is a lie when // preserveParameterTypesCompatibilityFlag is set to true. // But this should only be set to true in tests. return /** @type {string|undefined} */ (this.queryData_.get(paramName)); }; /** * @return {string} The URI fragment, not including the #. */ goog.Uri.prototype.getFragment = function() { return this.fragment_; }; /** * Sets the URI fragment. * @throws URIError If opt_decode is true and newFragment is malformed (that is, * if decodeURIComponent fails). * @param {string} newFragment New fragment value. * @param {boolean=} opt_decode Optional param for whether to decode new value. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.setFragment = function(newFragment, opt_decode) { this.enforceReadOnly(); this.fragment_ = opt_decode ? goog.Uri.decodeOrEmpty_(newFragment) : newFragment; return this; }; /** * @return {boolean} Whether the URI has a fragment set. */ goog.Uri.prototype.hasFragment = function() { return !!this.fragment_; }; /** * Returns true if this has the same domain as that of uri2. * @param {!goog.Uri} uri2 The URI object to compare to. * @return {boolean} true if same domain; false otherwise. */ goog.Uri.prototype.hasSameDomainAs = function(uri2) { return ((!this.hasDomain() && !uri2.hasDomain()) || this.getDomain() == uri2.getDomain()) && ((!this.hasPort() && !uri2.hasPort()) || this.getPort() == uri2.getPort()); }; /** * Adds a random parameter to the Uri. * @return {!goog.Uri} Reference to this Uri object. */ goog.Uri.prototype.makeUnique = function() { this.enforceReadOnly(); this.setParameterValue(goog.Uri.RANDOM_PARAM, goog.string.getRandomString()); return this; }; /** * Removes the named query parameter. * * @param {string} key The parameter to remove. * @return {!goog.Uri} Reference to this URI object. */ goog.Uri.prototype.removeParameter = function(key) { this.enforceReadOnly(); this.queryData_.remove(key); return this; }; /** * Sets whether Uri is read only. If this goog.Uri is read-only, * enforceReadOnly_ will be called at the start of any function that may modify * this Uri. * @param {boolean} isReadOnly whether this goog.Uri should be read only. * @return {!goog.Uri} Reference to this Uri object. */ goog.Uri.prototype.setReadOnly = function(isReadOnly) { this.isReadOnly_ = isReadOnly; return this; }; /** * @return {boolean} Whether the URI is read only. */ goog.Uri.prototype.isReadOnly = function() { return this.isReadOnly_; }; /** * Checks if this Uri has been marked as read only, and if so, throws an error. * This should be called whenever any modifying function is called. */ goog.Uri.prototype.enforceReadOnly = function() { if (this.isReadOnly_) { throw Error('Tried to modify a read-only Uri'); } }; /** * Sets whether to ignore case. * NOTE: If there are already key/value pairs in the QueryData, and * ignoreCase_ is set to false, the keys will all be lower-cased. * @param {boolean} ignoreCase whether this goog.Uri should ignore case. * @return {!goog.Uri} Reference to this Uri object. */ goog.Uri.prototype.setIgnoreCase = function(ignoreCase) { this.ignoreCase_ = ignoreCase; if (this.queryData_) { this.queryData_.setIgnoreCase(ignoreCase); } return this; }; /** * @return {boolean} Whether to ignore case. */ goog.Uri.prototype.getIgnoreCase = function() { return this.ignoreCase_; }; //============================================================================== // Static members //============================================================================== /** * Creates a uri from the string form. Basically an alias of new goog.Uri(). * If a Uri object is passed to parse then it will return a clone of the object. * * @throws URIError If parsing the URI is malformed. The passed URI components * should all be parseable by decodeURIComponent. * @param {*} uri Raw URI string or instance of Uri * object. * @param {boolean=} opt_ignoreCase Whether to ignore the case of parameter * names in #getParameterValue. * @return {!goog.Uri} The new URI object. */ goog.Uri.parse = function(uri, opt_ignoreCase) { return uri instanceof goog.Uri ? uri.clone() : new goog.Uri(uri, opt_ignoreCase); }; /** * Creates a new goog.Uri object from unencoded parts. * * @param {?string=} opt_scheme Scheme/protocol or full URI to parse. * @param {?string=} opt_userInfo username:password. * @param {?string=} opt_domain www.google.com. * @param {?number=} opt_port 9830. * @param {?string=} opt_path /some/path/to/a/file.html. * @param {string|goog.Uri.QueryData=} opt_query a=1&b=2. * @param {?string=} opt_fragment The fragment without the #. * @param {boolean=} opt_ignoreCase Whether to ignore parameter name case in * #getParameterValue. * * @return {!goog.Uri} The new URI object. */ goog.Uri.create = function( opt_scheme, opt_userInfo, opt_domain, opt_port, opt_path, opt_query, opt_fragment, opt_ignoreCase) { var uri = new goog.Uri(null, opt_ignoreCase); // Only set the parts if they are defined and not empty strings. opt_scheme && uri.setScheme(opt_scheme); opt_userInfo && uri.setUserInfo(opt_userInfo); opt_domain && uri.setDomain(opt_domain); opt_port && uri.setPort(opt_port); opt_path && uri.setPath(opt_path); opt_query && uri.setQueryData(opt_query); opt_fragment && uri.setFragment(opt_fragment); return uri; }; /** * Resolves a relative Uri against a base Uri, accepting both strings and * Uri objects. * * @param {*} base Base Uri. * @param {*} rel Relative Uri. * @return {!goog.Uri} Resolved uri. */ goog.Uri.resolve = function(base, rel) { if (!(base instanceof goog.Uri)) { base = goog.Uri.parse(base); } if (!(rel instanceof goog.Uri)) { rel = goog.Uri.parse(rel); } return base.resolve(rel); }; /** * Removes dot segments in given path component, as described in * RFC 3986, section 5.2.4. * * @param {string} path A non-empty path component. * @return {string} Path component with removed dot segments. */ goog.Uri.removeDotSegments = function(path) { if (path == '..' || path == '.') { return ''; } else if ( !goog.string.contains(path, './') && !goog.string.contains(path, '/.')) { // This optimization detects uris which do not contain dot-segments, // and as a consequence do not require any processing. return path; } else { var leadingSlash = goog.string.startsWith(path, '/'); var segments = path.split('/'); var out = []; for (var pos = 0; pos < segments.length;) { var segment = segments[pos++]; if (segment == '.') { if (leadingSlash && pos == segments.length) { out.push(''); } } else if (segment == '..') { if (out.length > 1 || out.length == 1 && out[0] != '') { out.pop(); } if (leadingSlash && pos == segments.length) { out.push(''); } } else { out.push(segment); leadingSlash = true; } } return out.join('/'); } }; /** * Decodes a value or returns the empty string if it isn't defined or empty. * @throws URIError If decodeURIComponent fails to decode val. * @param {string|undefined} val Value to decode. * @param {boolean=} opt_preserveReserved If true, restricted characters will * not be decoded. * @return {string} Decoded value. * @private */ goog.Uri.decodeOrEmpty_ = function(val, opt_preserveReserved) { // Don't use UrlDecode() here because val is not a query parameter. if (!val) { return ''; } // decodeURI has the same output for '%2f' and '%252f'. We double encode %25 // so that we can distinguish between the 2 inputs. This is later undone by // removeDoubleEncoding_. return opt_preserveReserved ? decodeURI(val.replace(/%25/g, '%2525')) : decodeURIComponent(val); }; /** * If unescapedPart is non null, then escapes any characters in it that aren't * valid characters in a url and also escapes any special characters that * appear in extra. * * @param {*} unescapedPart The string to encode. * @param {RegExp} extra A character set of characters in [\01-\177]. * @param {boolean=} opt_removeDoubleEncoding If true, remove double percent * encoding. * @return {?string} null iff unescapedPart == null. * @private */ goog.Uri.encodeSpecialChars_ = function( unescapedPart, extra, opt_removeDoubleEncoding) { if (goog.isString(unescapedPart)) { var encoded = encodeURI(unescapedPart).replace(extra, goog.Uri.encodeChar_); if (opt_removeDoubleEncoding) { // encodeURI double-escapes %XX sequences used to represent restricted // characters in some URI components, remove the double escaping here. encoded = goog.Uri.removeDoubleEncoding_(encoded); } return encoded; } return null; }; /** * Converts a character in [\01-\177] to its unicode character equivalent. * @param {string} ch One character string. * @return {string} Encoded string. * @private */ goog.Uri.encodeChar_ = function(ch) { var n = ch.charCodeAt(0); return '%' + ((n >> 4) & 0xf).toString(16) + (n & 0xf).toString(16); }; /** * Removes double percent-encoding from a string. * @param {string} doubleEncodedString String * @return {string} String with double encoding removed. * @private */ goog.Uri.removeDoubleEncoding_ = function(doubleEncodedString) { return doubleEncodedString.replace(/%25([0-9a-fA-F]{2})/g, '%$1'); }; /** * Regular expression for characters that are disallowed in the scheme or * userInfo part of the URI. * @type {RegExp} * @private */ goog.Uri.reDisallowedInSchemeOrUserInfo_ = /[#\/\?@]/g; /** * Regular expression for characters that are disallowed in a relative path. * Colon is included due to RFC 3986 3.3. * @type {RegExp} * @private */ goog.Uri.reDisallowedInRelativePath_ = /[\#\?:]/g; /** * Regular expression for characters that are disallowed in an absolute path. * @type {RegExp} * @private */ goog.Uri.reDisallowedInAbsolutePath_ = /[\#\?]/g; /** * Regular expression for characters that are disallowed in the query. * @type {RegExp} * @private */ goog.Uri.reDisallowedInQuery_ = /[\#\?@]/g; /** * Regular expression for characters that are disallowed in the fragment. * @type {RegExp} * @private */ goog.Uri.reDisallowedInFragment_ = /#/g; /** * Checks whether two URIs have the same domain. * @param {string} uri1String First URI string. * @param {string} uri2String Second URI string. * @return {boolean} true if the two URIs have the same domain; false otherwise. */ goog.Uri.haveSameDomain = function(uri1String, uri2String) { // Differs from goog.uri.utils.haveSameDomain, since this ignores scheme. // TODO(gboyer): Have this just call goog.uri.util.haveSameDomain. var pieces1 = goog.uri.utils.split(uri1String); var pieces2 = goog.uri.utils.split(uri2String); return pieces1[goog.uri.utils.ComponentIndex.DOMAIN] == pieces2[goog.uri.utils.ComponentIndex.DOMAIN] && pieces1[goog.uri.utils.ComponentIndex.PORT] == pieces2[goog.uri.utils.ComponentIndex.PORT]; }; /** * Class used to represent URI query parameters. It is essentially a hash of * name-value pairs, though a name can be present more than once. * * Has the same interface as the collections in goog.structs. * * @param {?string=} opt_query Optional encoded query string to parse into * the object. * @param {goog.Uri=} opt_uri Optional uri object that should have its * cache invalidated when this object updates. Deprecated -- this * is no longer required. * @param {boolean=} opt_ignoreCase If true, ignore the case of the parameter * name in #get. * @constructor * @struct * @final */ goog.Uri.QueryData = function(opt_query, opt_uri, opt_ignoreCase) { /** * The map containing name/value or name/array-of-values pairs. * May be null if it requires parsing from the query string. * * We need to use a Map because we cannot guarantee that the key names will * not be problematic for IE. * * @private {goog.structs.Map>} */ this.keyMap_ = null; /** * The number of params, or null if it requires computing. * @private {?number} */ this.count_ = null; /** * Encoded query string, or null if it requires computing from the key map. * @private {?string} */ this.encodedQuery_ = opt_query || null; /** * If true, ignore the case of the parameter name in #get. * @private {boolean} */ this.ignoreCase_ = !!opt_ignoreCase; }; /** * If the underlying key map is not yet initialized, it parses the * query string and fills the map with parsed data. * @private */ goog.Uri.QueryData.prototype.ensureKeyMapInitialized_ = function() { if (!this.keyMap_) { this.keyMap_ = new goog.structs.Map(); this.count_ = 0; if (this.encodedQuery_) { var self = this; goog.uri.utils.parseQueryData(this.encodedQuery_, function(name, value) { self.add(goog.string.urlDecode(name), value); }); } } }; /** * Creates a new query data instance from a map of names and values. * * @param {!goog.structs.Map|!Object} map Map of string parameter * names to parameter value. If parameter value is an array, it is * treated as if the key maps to each individual value in the * array. * @param {goog.Uri=} opt_uri URI object that should have its cache * invalidated when this object updates. * @param {boolean=} opt_ignoreCase If true, ignore the case of the parameter * name in #get. * @return {!goog.Uri.QueryData} The populated query data instance. */ goog.Uri.QueryData.createFromMap = function(map, opt_uri, opt_ignoreCase) { var keys = goog.structs.getKeys(map); if (typeof keys == 'undefined') { throw Error('Keys are undefined'); } var queryData = new goog.Uri.QueryData(null, null, opt_ignoreCase); var values = goog.structs.getValues(map); for (var i = 0; i < keys.length; i++) { var key = keys[i]; var value = values[i]; if (!goog.isArray(value)) { queryData.add(key, value); } else { queryData.setValues(key, value); } } return queryData; }; /** * Creates a new query data instance from parallel arrays of parameter names * and values. Allows for duplicate parameter names. Throws an error if the * lengths of the arrays differ. * * @param {!Array} keys Parameter names. * @param {!Array} values Parameter values. * @param {goog.Uri=} opt_uri URI object that should have its cache * invalidated when this object updates. * @param {boolean=} opt_ignoreCase If true, ignore the case of the parameter * name in #get. * @return {!goog.Uri.QueryData} The populated query data instance. */ goog.Uri.QueryData.createFromKeysValues = function( keys, values, opt_uri, opt_ignoreCase) { if (keys.length != values.length) { throw Error('Mismatched lengths for keys/values'); } var queryData = new goog.Uri.QueryData(null, null, opt_ignoreCase); for (var i = 0; i < keys.length; i++) { queryData.add(keys[i], values[i]); } return queryData; }; /** * @return {?number} The number of parameters. */ goog.Uri.QueryData.prototype.getCount = function() { this.ensureKeyMapInitialized_(); return this.count_; }; /** * Adds a key value pair. * @param {string} key Name. * @param {*} value Value. * @return {!goog.Uri.QueryData} Instance of this object. */ goog.Uri.QueryData.prototype.add = function(key, value) { this.ensureKeyMapInitialized_(); this.invalidateCache_(); key = this.getKeyName_(key); var values = this.keyMap_.get(key); if (!values) { this.keyMap_.set(key, (values = [])); } values.push(value); this.count_ = goog.asserts.assertNumber(this.count_) + 1; return this; }; /** * Removes all the params with the given key. * @param {string} key Name. * @return {boolean} Whether any parameter was removed. */ goog.Uri.QueryData.prototype.remove = function(key) { this.ensureKeyMapInitialized_(); key = this.getKeyName_(key); if (this.keyMap_.containsKey(key)) { this.invalidateCache_(); // Decrement parameter count. this.count_ = goog.asserts.assertNumber(this.count_) - this.keyMap_.get(key).length; return this.keyMap_.remove(key); } return false; }; /** * Clears the parameters. */ goog.Uri.QueryData.prototype.clear = function() { this.invalidateCache_(); this.keyMap_ = null; this.count_ = 0; }; /** * @return {boolean} Whether we have any parameters. */ goog.Uri.QueryData.prototype.isEmpty = function() { this.ensureKeyMapInitialized_(); return this.count_ == 0; }; /** * Whether there is a parameter with the given name * @param {string} key The parameter name to check for. * @return {boolean} Whether there is a parameter with the given name. */ goog.Uri.QueryData.prototype.containsKey = function(key) { this.ensureKeyMapInitialized_(); key = this.getKeyName_(key); return this.keyMap_.containsKey(key); }; /** * Whether there is a parameter with the given value. * @param {*} value The value to check for. * @return {boolean} Whether there is a parameter with the given value. */ goog.Uri.QueryData.prototype.containsValue = function(value) { // NOTE(arv): This solution goes through all the params even if it was the // first param. We can get around this by not reusing code or by switching to // iterators. var vals = this.getValues(); return goog.array.contains(vals, value); }; /** * Runs a callback on every key-value pair in the map, including duplicate keys. * This won't maintain original order when duplicate keys are interspersed (like * getKeys() / getValues()). * @param {function(this:SCOPE, ?, string, !goog.Uri.QueryData)} f * @param {SCOPE=} opt_scope The value of "this" inside f. * @template SCOPE */ goog.Uri.QueryData.prototype.forEach = function(f, opt_scope) { this.ensureKeyMapInitialized_(); this.keyMap_.forEach(function(values, key) { goog.array.forEach(values, function(value) { f.call(opt_scope, value, key, this); }, this); }, this); }; /** * Returns all the keys of the parameters. If a key is used multiple times * it will be included multiple times in the returned array * @return {!Array} All the keys of the parameters. */ goog.Uri.QueryData.prototype.getKeys = function() { this.ensureKeyMapInitialized_(); // We need to get the values to know how many keys to add. var vals = this.keyMap_.getValues(); var keys = this.keyMap_.getKeys(); var rv = []; for (var i = 0; i < keys.length; i++) { var val = vals[i]; for (var j = 0; j < val.length; j++) { rv.push(keys[i]); } } return rv; }; /** * Returns all the values of the parameters with the given name. If the query * data has no such key this will return an empty array. If no key is given * all values wil be returned. * @param {string=} opt_key The name of the parameter to get the values for. * @return {!Array} All the values of the parameters with the given name. */ goog.Uri.QueryData.prototype.getValues = function(opt_key) { this.ensureKeyMapInitialized_(); var rv = []; if (goog.isString(opt_key)) { if (this.containsKey(opt_key)) { rv = goog.array.concat(rv, this.keyMap_.get(this.getKeyName_(opt_key))); } } else { // Return all values. var values = this.keyMap_.getValues(); for (var i = 0; i < values.length; i++) { rv = goog.array.concat(rv, values[i]); } } return rv; }; /** * Sets a key value pair and removes all other keys with the same value. * * @param {string} key Name. * @param {*} value Value. * @return {!goog.Uri.QueryData} Instance of this object. */ goog.Uri.QueryData.prototype.set = function(key, value) { this.ensureKeyMapInitialized_(); this.invalidateCache_(); // TODO(chrishenry): This could be better written as // this.remove(key), this.add(key, value), but that would reorder // the key (since the key is first removed and then added at the // end) and we would have to fix unit tests that depend on key // ordering. key = this.getKeyName_(key); if (this.containsKey(key)) { this.count_ = goog.asserts.assertNumber(this.count_) - this.keyMap_.get(key).length; } this.keyMap_.set(key, [value]); this.count_ = goog.asserts.assertNumber(this.count_) + 1; return this; }; /** * Returns the first value associated with the key. If the query data has no * such key this will return undefined or the optional default. * @param {string} key The name of the parameter to get the value for. * @param {*=} opt_default The default value to return if the query data * has no such key. * @return {*} The first string value associated with the key, or opt_default * if there's no value. */ goog.Uri.QueryData.prototype.get = function(key, opt_default) { var values = key ? this.getValues(key) : []; if (goog.Uri.preserveParameterTypesCompatibilityFlag) { return values.length > 0 ? values[0] : opt_default; } else { return values.length > 0 ? String(values[0]) : opt_default; } }; /** * Sets the values for a key. If the key already exists, this will * override all of the existing values that correspond to the key. * @param {string} key The key to set values for. * @param {!Array} values The values to set. */ goog.Uri.QueryData.prototype.setValues = function(key, values) { this.remove(key); if (values.length > 0) { this.invalidateCache_(); this.keyMap_.set(this.getKeyName_(key), goog.array.clone(values)); this.count_ = goog.asserts.assertNumber(this.count_) + values.length; } }; /** * @return {string} Encoded query string. * @override */ goog.Uri.QueryData.prototype.toString = function() { if (this.encodedQuery_) { return this.encodedQuery_; } if (!this.keyMap_) { return ''; } var sb = []; // In the past, we use this.getKeys() and this.getVals(), but that // generates a lot of allocations as compared to simply iterating // over the keys. var keys = this.keyMap_.getKeys(); for (var i = 0; i < keys.length; i++) { var key = keys[i]; var encodedKey = goog.string.urlEncode(key); var val = this.getValues(key); for (var j = 0; j < val.length; j++) { var param = encodedKey; // Ensure that null and undefined are encoded into the url as // literal strings. if (val[j] !== '') { param += '=' + goog.string.urlEncode(val[j]); } sb.push(param); } } return this.encodedQuery_ = sb.join('&'); }; /** * @throws URIError If URI is malformed (that is, if decodeURIComponent fails on * any of the URI components). * @return {string} Decoded query string. */ goog.Uri.QueryData.prototype.toDecodedString = function() { return goog.Uri.decodeOrEmpty_(this.toString()); }; /** * Invalidate the cache. * @private */ goog.Uri.QueryData.prototype.invalidateCache_ = function() { this.encodedQuery_ = null; }; /** * Removes all keys that are not in the provided list. (Modifies this object.) * @param {Array} keys The desired keys. * @return {!goog.Uri.QueryData} a reference to this object. */ goog.Uri.QueryData.prototype.filterKeys = function(keys) { this.ensureKeyMapInitialized_(); this.keyMap_.forEach(function(value, key) { if (!goog.array.contains(keys, key)) { this.remove(key); } }, this); return this; }; /** * Clone the query data instance. * @return {!goog.Uri.QueryData} New instance of the QueryData object. */ goog.Uri.QueryData.prototype.clone = function() { var rv = new goog.Uri.QueryData(); rv.encodedQuery_ = this.encodedQuery_; if (this.keyMap_) { rv.keyMap_ = this.keyMap_.clone(); rv.count_ = this.count_; } return rv; }; /** * Helper function to get the key name from a JavaScript object. Converts * the object to a string, and to lower case if necessary. * @private * @param {*} arg The object to get a key name from. * @return {string} valid key name which can be looked up in #keyMap_. */ goog.Uri.QueryData.prototype.getKeyName_ = function(arg) { var keyName = String(arg); if (this.ignoreCase_) { keyName = keyName.toLowerCase(); } return keyName; }; /** * Ignore case in parameter names. * NOTE: If there are already key/value pairs in the QueryData, and * ignoreCase_ is set to false, the keys will all be lower-cased. * @param {boolean} ignoreCase whether this goog.Uri should ignore case. */ goog.Uri.QueryData.prototype.setIgnoreCase = function(ignoreCase) { var resetKeys = ignoreCase && !this.ignoreCase_; if (resetKeys) { this.ensureKeyMapInitialized_(); this.invalidateCache_(); this.keyMap_.forEach(function(value, key) { var lowerCase = key.toLowerCase(); if (key != lowerCase) { this.remove(key); this.setValues(lowerCase, value); } }, this); } this.ignoreCase_ = ignoreCase; }; /** * Extends a query data object with another query data or map like object. This * operates 'in-place', it does not create a new QueryData object. * * @param {...(?goog.Uri.QueryData|?goog.structs.Map|?Object)} var_args * The object from which key value pairs will be copied. * @suppress {deprecated} Use deprecated goog.structs.forEach to allow different * types of parameters. */ goog.Uri.QueryData.prototype.extend = function(var_args) { for (var i = 0; i < arguments.length; i++) { var data = arguments[i]; goog.structs.forEach( data, function(value, key) { this.add(key, value); }, this); } };