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/*
 * Copyright 2002-2020 the original author or authors.
 *
 * 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
 *
 *      https://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.
 */

package org.springframework.web.util;

import java.net.URI;
import java.util.ArrayList;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

import org.springframework.http.HttpHeaders;
import org.springframework.http.HttpRequest;
import org.springframework.util.Assert;
import org.springframework.util.LinkedMultiValueMap;
import org.springframework.util.MultiValueMap;
import org.springframework.util.ObjectUtils;
import org.springframework.util.StringUtils;
import org.springframework.web.util.HierarchicalUriComponents.PathComponent;

/**
 * Builder for {@link UriComponents}.
 *
 * 

Typical usage involves: *

    *
  1. Create a {@code UriComponentsBuilder} with one of the static factory methods * (such as {@link #fromPath(String)} or {@link #fromUri(URI)})
  2. *
  3. Set the various URI components through the respective methods ({@link #scheme(String)}, * {@link #userInfo(String)}, {@link #host(String)}, {@link #port(int)}, {@link #path(String)}, * {@link #pathSegment(String...)}, {@link #queryParam(String, Object...)}, and * {@link #fragment(String)}.
  4. *
  5. Build the {@link UriComponents} instance with the {@link #build()} method.
  6. *
* * @author Arjen Poutsma * @author Rossen Stoyanchev * @author Phillip Webb * @author Oliver Gierke * @author Brian Clozel * @author Sebastien Deleuze * @since 3.1 * @see #newInstance() * @see #fromPath(String) * @see #fromUri(URI) */ public class UriComponentsBuilder implements Cloneable { private static final Pattern QUERY_PARAM_PATTERN = Pattern.compile("([^&=]+)(=?)([^&]+)?"); private static final String SCHEME_PATTERN = "([^:/?#]+):"; private static final String HTTP_PATTERN = "(?i)(http|https):"; private static final String USERINFO_PATTERN = "([^@\\[/?#]*)"; private static final String HOST_IPV4_PATTERN = "[^\\[/?#:]*"; private static final String HOST_IPV6_PATTERN = "\\[[\\p{XDigit}\\:\\.]*[%\\p{Alnum}]*\\]"; private static final String HOST_PATTERN = "(" + HOST_IPV6_PATTERN + "|" + HOST_IPV4_PATTERN + ")"; private static final String PORT_PATTERN = "(\\d*(?:\\{[^/]+?\\})?)"; private static final String PATH_PATTERN = "([^?#]*)"; private static final String QUERY_PATTERN = "([^#]*)"; private static final String LAST_PATTERN = "(.*)"; // Regex patterns that matches URIs. See RFC 3986, appendix B private static final Pattern URI_PATTERN = Pattern.compile( "^(" + SCHEME_PATTERN + ")?" + "(//(" + USERINFO_PATTERN + "@)?" + HOST_PATTERN + "(:" + PORT_PATTERN + ")?" + ")?" + PATH_PATTERN + "(\\?" + QUERY_PATTERN + ")?" + "(#" + LAST_PATTERN + ")?"); private static final Pattern HTTP_URL_PATTERN = Pattern.compile( "^" + HTTP_PATTERN + "(//(" + USERINFO_PATTERN + "@)?" + HOST_PATTERN + "(:" + PORT_PATTERN + ")?" + ")?" + PATH_PATTERN + "(\\?" + LAST_PATTERN + ")?"); private static final Pattern FORWARDED_HOST_PATTERN = Pattern.compile("host=\"?([^;,\"]+)\"?"); private static final Pattern FORWARDED_PROTO_PATTERN = Pattern.compile("proto=\"?([^;,\"]+)\"?"); private String scheme; private String ssp; private String userInfo; private String host; private String port; private CompositePathComponentBuilder pathBuilder; private LinkedMultiValueMap queryParams = new LinkedMultiValueMap(); private String fragment; /** * Default constructor. Protected to prevent direct instantiation. * @see #newInstance() * @see #fromPath(String) * @see #fromUri(URI) */ protected UriComponentsBuilder() { this.pathBuilder = new CompositePathComponentBuilder(); } /** * Create a deep copy of the given UriComponentsBuilder. * @param other the other builder to copy from * @since 4.1.3 */ protected UriComponentsBuilder(UriComponentsBuilder other) { this.scheme = other.scheme; this.ssp = other.ssp; this.userInfo = other.userInfo; this.host = other.host; this.port = other.port; this.pathBuilder = other.pathBuilder.cloneBuilder(); this.queryParams = other.queryParams.deepCopy(); this.fragment = other.fragment; } // Factory methods /** * Create a new, empty builder. * @return the new {@code UriComponentsBuilder} */ public static UriComponentsBuilder newInstance() { return new UriComponentsBuilder(); } /** * Create a builder that is initialized with the given path. * @param path the path to initialize with * @return the new {@code UriComponentsBuilder} */ public static UriComponentsBuilder fromPath(String path) { UriComponentsBuilder builder = new UriComponentsBuilder(); builder.path(path); return builder; } /** * Create a builder that is initialized from the given {@code URI}. *

Note: the components in the resulting builder will be * in fully encoded (raw) form and further changes must also supply values * that are fully encoded, for example via methods in {@link UriUtils}. * In addition please use {@link #build(boolean)} with a value of "true" to * build the {@link UriComponents} instance in order to indicate that the * components are encoded. * @param uri the URI to initialize with * @return the new {@code UriComponentsBuilder} */ public static UriComponentsBuilder fromUri(URI uri) { UriComponentsBuilder builder = new UriComponentsBuilder(); builder.uri(uri); return builder; } /** * Create a builder that is initialized with the given URI string. *

Note: The presence of reserved characters can prevent * correct parsing of the URI string. For example if a query parameter * contains {@code '='} or {@code '&'} characters, the query string cannot * be parsed unambiguously. Such values should be substituted for URI * variables to enable correct parsing: *

	 * String uriString = "/hotels/42?filter={value}";
	 * UriComponentsBuilder.fromUriString(uriString).buildAndExpand("hot&cold");
	 * 
* @param uri the URI string to initialize with * @return the new {@code UriComponentsBuilder} */ public static UriComponentsBuilder fromUriString(String uri) { Assert.notNull(uri, "URI must not be null"); Matcher matcher = URI_PATTERN.matcher(uri); if (matcher.matches()) { UriComponentsBuilder builder = new UriComponentsBuilder(); String scheme = matcher.group(2); String userInfo = matcher.group(5); String host = matcher.group(6); String port = matcher.group(8); String path = matcher.group(9); String query = matcher.group(11); String fragment = matcher.group(13); boolean opaque = false; if (StringUtils.hasLength(scheme)) { String rest = uri.substring(scheme.length()); if (!rest.startsWith(":/")) { opaque = true; } } builder.scheme(scheme); if (opaque) { String ssp = uri.substring(scheme.length() + 1); if (StringUtils.hasLength(fragment)) { ssp = ssp.substring(0, ssp.length() - (fragment.length() + 1)); } builder.schemeSpecificPart(ssp); } else { builder.userInfo(userInfo); builder.host(host); if (StringUtils.hasLength(port)) { builder.port(port); } builder.path(path); builder.query(query); } if (StringUtils.hasText(fragment)) { builder.fragment(fragment); } return builder; } else { throw new IllegalArgumentException("[" + uri + "] is not a valid URI"); } } /** * Create a URI components builder from the given HTTP URL String. *

Note: The presence of reserved characters can prevent * correct parsing of the URI string. For example if a query parameter * contains {@code '='} or {@code '&'} characters, the query string cannot * be parsed unambiguously. Such values should be substituted for URI * variables to enable correct parsing: *

	 * String urlString = "https://example.com/hotels/42?filter={value}";
	 * UriComponentsBuilder.fromHttpUrl(urlString).buildAndExpand("hot&cold");
	 * 
* @param httpUrl the source URI * @return the URI components of the URI */ public static UriComponentsBuilder fromHttpUrl(String httpUrl) { Assert.notNull(httpUrl, "HTTP URL must not be null"); Matcher matcher = HTTP_URL_PATTERN.matcher(httpUrl); if (matcher.matches()) { UriComponentsBuilder builder = new UriComponentsBuilder(); String scheme = matcher.group(1); builder.scheme(scheme != null ? scheme.toLowerCase() : null); builder.userInfo(matcher.group(4)); String host = matcher.group(5); if (StringUtils.hasLength(scheme) && !StringUtils.hasLength(host)) { throw new IllegalArgumentException("[" + httpUrl + "] is not a valid HTTP URL"); } builder.host(host); String port = matcher.group(7); if (StringUtils.hasLength(port)) { builder.port(port); } builder.path(matcher.group(8)); builder.query(matcher.group(10)); return builder; } else { throw new IllegalArgumentException("[" + httpUrl + "] is not a valid HTTP URL"); } } /** * Create a new {@code UriComponents} object from the URI associated with * the given HttpRequest while also overlaying with values from the headers * "Forwarded" (RFC 7239), * or "X-Forwarded-Host", "X-Forwarded-Port", and "X-Forwarded-Proto" if * "Forwarded" is not found. *

Note: this method uses values from forwarded headers, * if present, in order to reflect the client-originated protocol and address. * Consider using the {@code ForwardedHeaderFilter} in order to choose from a * central place whether to extract and use, or to discard such headers. * See the Spring Framework reference for more on this filter. * @param request the source request * @return the URI components of the URI * @since 4.1.5 */ public static UriComponentsBuilder fromHttpRequest(HttpRequest request) { return fromUri(request.getURI()).adaptFromForwardedHeaders(request.getHeaders()); } /** * Create an instance by parsing the "Origin" header of an HTTP request. * @see RFC 6454 */ public static UriComponentsBuilder fromOriginHeader(String origin) { Matcher matcher = URI_PATTERN.matcher(origin); if (matcher.matches()) { UriComponentsBuilder builder = new UriComponentsBuilder(); String scheme = matcher.group(2); String host = matcher.group(6); String port = matcher.group(8); if (StringUtils.hasLength(scheme)) { builder.scheme(scheme); } builder.host(host); if (StringUtils.hasLength(port)) { builder.port(port); } return builder; } else { throw new IllegalArgumentException("[" + origin + "] is not a valid \"Origin\" header value"); } } // build methods /** * Build a {@code UriComponents} instance from the various components contained in this builder. * @return the URI components */ public UriComponents build() { return build(false); } /** * Variant of {@link #build()} to create a {@link UriComponents} instance * when components are already fully encoded. This is useful for example if * the builder was created via {@link UriComponentsBuilder#fromUri(URI)}. * @param encoded whether the components in this builder are already encoded * @return the URI components * @throws IllegalArgumentException if any of the components contain illegal * characters that should have been encoded. */ public UriComponents build(boolean encoded) { if (this.ssp != null) { return new OpaqueUriComponents(this.scheme, this.ssp, this.fragment); } else { return new HierarchicalUriComponents(this.scheme, this.userInfo, this.host, this.port, this.pathBuilder.build(), this.queryParams, this.fragment, encoded, true); } } /** * Build a {@code UriComponents} instance and replaces URI template variables * with the values from a map. This is a shortcut method which combines * calls to {@link #build()} and then {@link UriComponents#expand(Map)}. * @param uriVariables the map of URI variables * @return the URI components with expanded values */ public UriComponents buildAndExpand(Map uriVariables) { return build(false).expand(uriVariables); } /** * Build a {@code UriComponents} instance and replaces URI template variables * with the values from an array. This is a shortcut method which combines * calls to {@link #build()} and then {@link UriComponents#expand(Object...)}. * @param uriVariableValues URI variable values * @return the URI components with expanded values */ public UriComponents buildAndExpand(Object... uriVariableValues) { return build(false).expand(uriVariableValues); } /** * Build a URI String. This is a shortcut method which combines calls * to {@link #build()}, then {@link UriComponents#encode()} and finally * {@link UriComponents#toUriString()}. * @since 4.1 * @see UriComponents#toUriString() */ public String toUriString() { return build(false).encode().toUriString(); } // Instance methods /** * Initialize components of this builder from components of the given URI. * @param uri the URI * @return this UriComponentsBuilder */ public UriComponentsBuilder uri(URI uri) { Assert.notNull(uri, "URI must not be null"); this.scheme = uri.getScheme(); if (uri.isOpaque()) { this.ssp = uri.getRawSchemeSpecificPart(); resetHierarchicalComponents(); } else { if (uri.getRawUserInfo() != null) { this.userInfo = uri.getRawUserInfo(); } if (uri.getHost() != null) { this.host = uri.getHost(); } if (uri.getPort() != -1) { this.port = String.valueOf(uri.getPort()); } if (StringUtils.hasLength(uri.getRawPath())) { this.pathBuilder = new CompositePathComponentBuilder(uri.getRawPath()); } if (StringUtils.hasLength(uri.getRawQuery())) { this.queryParams.clear(); query(uri.getRawQuery()); } resetSchemeSpecificPart(); } if (uri.getRawFragment() != null) { this.fragment = uri.getRawFragment(); } return this; } /** * Set or append individual URI components of this builder from the values * of the given {@link UriComponents} instance. *

For the semantics of each component (i.e. set vs append) check the * builder methods on this class. For example {@link #host(String)} sets * while {@link #path(String)} appends. * @param uriComponents the UriComponents to copy from * @return this UriComponentsBuilder */ public UriComponentsBuilder uriComponents(UriComponents uriComponents) { Assert.notNull(uriComponents, "UriComponents must not be null"); uriComponents.copyToUriComponentsBuilder(this); return this; } /** * Set the URI scheme. The given scheme may contain URI template variables, * and may also be {@code null} to clear the scheme of this builder. * @param scheme the URI scheme * @return this UriComponentsBuilder */ public UriComponentsBuilder scheme(String scheme) { this.scheme = scheme; return this; } /** * Set the URI scheme-specific-part. When invoked, this method overwrites * {@linkplain #userInfo(String) user-info}, {@linkplain #host(String) host}, * {@linkplain #port(int) port}, {@linkplain #path(String) path}, and * {@link #query(String) query}. * @param ssp the URI scheme-specific-part, may contain URI template parameters * @return this UriComponentsBuilder */ public UriComponentsBuilder schemeSpecificPart(String ssp) { this.ssp = ssp; resetHierarchicalComponents(); return this; } /** * Set the URI user info. The given user info may contain URI template variables, * and may also be {@code null} to clear the user info of this builder. * @param userInfo the URI user info * @return this UriComponentsBuilder */ public UriComponentsBuilder userInfo(String userInfo) { this.userInfo = userInfo; resetSchemeSpecificPart(); return this; } /** * Set the URI host. The given host may contain URI template variables, * and may also be {@code null} to clear the host of this builder. * @param host the URI host * @return this UriComponentsBuilder */ public UriComponentsBuilder host(String host) { this.host = host; resetSchemeSpecificPart(); return this; } /** * Set the URI port. Passing {@code -1} will clear the port of this builder. * @param port the URI port * @return this UriComponentsBuilder */ public UriComponentsBuilder port(int port) { Assert.isTrue(port >= -1, "Port must be >= -1"); this.port = String.valueOf(port); resetSchemeSpecificPart(); return this; } /** * Set the URI port. Use this method only when the port needs to be * parameterized with a URI variable. Otherwise use {@link #port(int)}. * Passing {@code null} will clear the port of this builder. * @param port the URI port * @return this UriComponentsBuilder */ public UriComponentsBuilder port(String port) { this.port = port; resetSchemeSpecificPart(); return this; } /** * Append the given path to the existing path of this builder. * The given path may contain URI template variables. * @param path the URI path * @return this UriComponentsBuilder */ public UriComponentsBuilder path(String path) { this.pathBuilder.addPath(path); resetSchemeSpecificPart(); return this; } /** * Append path segments to the existing path. Each path segment may contain * URI template variables and should not contain any slashes. * Use {@code path("/")} subsequently to ensure a trailing slash. * @param pathSegments the URI path segments * @return this UriComponentsBuilder */ public UriComponentsBuilder pathSegment(String... pathSegments) throws IllegalArgumentException { this.pathBuilder.addPathSegments(pathSegments); resetSchemeSpecificPart(); return this; } /** * Set the path of this builder overriding all existing path and path segment values. * @param path the URI path (a {@code null} value results in an empty path) * @return this UriComponentsBuilder */ public UriComponentsBuilder replacePath(String path) { this.pathBuilder = new CompositePathComponentBuilder(path); resetSchemeSpecificPart(); return this; } /** * Append the given query to the existing query of this builder. * The given query may contain URI template variables. *

Note: The presence of reserved characters can prevent * correct parsing of the URI string. For example if a query parameter * contains {@code '='} or {@code '&'} characters, the query string cannot * be parsed unambiguously. Such values should be substituted for URI * variables to enable correct parsing: *

	 * UriComponentsBuilder.fromUriString("/hotels/42")
	 * 	.query("filter={value}")
	 * 	.buildAndExpand("hot&cold");
	 * 
* @param query the query string * @return this UriComponentsBuilder */ public UriComponentsBuilder query(String query) { if (query != null) { Matcher matcher = QUERY_PARAM_PATTERN.matcher(query); while (matcher.find()) { String name = matcher.group(1); String eq = matcher.group(2); String value = matcher.group(3); queryParam(name, (value != null ? value : (StringUtils.hasLength(eq) ? "" : null))); } } else { this.queryParams.clear(); } resetSchemeSpecificPart(); return this; } /** * Set the query of this builder overriding all existing query parameters. * @param query the query string; a {@code null} value removes all query parameters. * @return this UriComponentsBuilder */ public UriComponentsBuilder replaceQuery(String query) { this.queryParams.clear(); query(query); resetSchemeSpecificPart(); return this; } /** * Append the given query parameter to the existing query parameters. The * given name or any of the values may contain URI template variables. If no * values are given, the resulting URI will contain the query parameter name * only (i.e. {@code ?foo} instead of {@code ?foo=bar}). * @param name the query parameter name * @param values the query parameter values * @return this UriComponentsBuilder */ public UriComponentsBuilder queryParam(String name, Object... values) { Assert.notNull(name, "Name must not be null"); if (!ObjectUtils.isEmpty(values)) { for (Object value : values) { String valueAsString = (value != null ? value.toString() : null); this.queryParams.add(name, valueAsString); } } else { this.queryParams.add(name, null); } resetSchemeSpecificPart(); return this; } /** * Add the given query parameters. * @param params the params * @return this UriComponentsBuilder * @since 4.0 */ public UriComponentsBuilder queryParams(MultiValueMap params) { if (params != null) { this.queryParams.putAll(params); } return this; } /** * Set the query parameter values overriding all existing query values for * the same parameter. If no values are given, the query parameter is removed. * @param name the query parameter name * @param values the query parameter values * @return this UriComponentsBuilder */ public UriComponentsBuilder replaceQueryParam(String name, Object... values) { Assert.notNull(name, "Name must not be null"); this.queryParams.remove(name); if (!ObjectUtils.isEmpty(values)) { queryParam(name, values); } resetSchemeSpecificPart(); return this; } /** * Set the query parameter values overriding all existing query values. * @param params the query parameter name * @return this UriComponentsBuilder * @since 4.2 */ public UriComponentsBuilder replaceQueryParams(MultiValueMap params) { this.queryParams.clear(); if (params != null) { this.queryParams.putAll(params); } return this; } /** * Set the URI fragment. The given fragment may contain URI template variables, * and may also be {@code null} to clear the fragment of this builder. * @param fragment the URI fragment * @return this UriComponentsBuilder */ public UriComponentsBuilder fragment(String fragment) { if (fragment != null) { Assert.hasLength(fragment, "Fragment must not be empty"); this.fragment = fragment; } else { this.fragment = null; } return this; } /** * Adapt this builder's scheme+host+port from the given headers, specifically * "Forwarded" (RFC 7239, * or "X-Forwarded-Host", "X-Forwarded-Port", and "X-Forwarded-Proto" if * "Forwarded" is not found. * @param headers the HTTP headers to consider * @return this UriComponentsBuilder * @since 4.2.7 */ UriComponentsBuilder adaptFromForwardedHeaders(HttpHeaders headers) { try { String forwardedHeader = headers.getFirst("Forwarded"); if (StringUtils.hasText(forwardedHeader)) { String forwardedToUse = StringUtils.tokenizeToStringArray(forwardedHeader, ",")[0]; Matcher matcher = FORWARDED_PROTO_PATTERN.matcher(forwardedToUse); if (matcher.find()) { scheme(matcher.group(1).trim()); port(null); } matcher = FORWARDED_HOST_PATTERN.matcher(forwardedToUse); if (matcher.find()) { adaptForwardedHost(matcher.group(1).trim()); } } else { String protocolHeader = headers.getFirst("X-Forwarded-Proto"); if (StringUtils.hasText(protocolHeader)) { scheme(StringUtils.tokenizeToStringArray(protocolHeader, ",")[0]); port(null); } String hostHeader = headers.getFirst("X-Forwarded-Host"); if (StringUtils.hasText(hostHeader)) { adaptForwardedHost(StringUtils.tokenizeToStringArray(hostHeader, ",")[0]); } String portHeader = headers.getFirst("X-Forwarded-Port"); if (StringUtils.hasText(portHeader)) { port(Integer.parseInt(StringUtils.tokenizeToStringArray(portHeader, ",")[0])); } } } catch (NumberFormatException ex) { throw new IllegalArgumentException("Failed to parse a port from \"forwarded\"-type headers. " + "If not behind a trusted proxy, consider using ForwardedHeaderFilter " + "with the removeOnly=true. Request headers: " + headers); } if (this.scheme != null && ((this.scheme.equals("http") && "80".equals(this.port)) || (this.scheme.equals("https") && "443".equals(this.port)))) { port(null); } return this; } private void adaptForwardedHost(String hostToUse) { int portSeparatorIdx = hostToUse.lastIndexOf(':'); if (portSeparatorIdx > hostToUse.lastIndexOf(']')) { host(hostToUse.substring(0, portSeparatorIdx)); port(Integer.parseInt(hostToUse.substring(portSeparatorIdx + 1))); } else { host(hostToUse); port(null); } } private void resetHierarchicalComponents() { this.userInfo = null; this.host = null; this.port = null; this.pathBuilder = new CompositePathComponentBuilder(); this.queryParams.clear(); } private void resetSchemeSpecificPart() { this.ssp = null; } /** * Public declaration of Object's {@code clone()} method. * Delegates to {@link #cloneBuilder()}. */ @Override public Object clone() { return cloneBuilder(); } /** * Clone this {@code UriComponentsBuilder}. * @return the cloned {@code UriComponentsBuilder} object * @since 4.2.7 */ public UriComponentsBuilder cloneBuilder() { return new UriComponentsBuilder(this); } private interface PathComponentBuilder { PathComponent build(); PathComponentBuilder cloneBuilder(); } private static class CompositePathComponentBuilder implements PathComponentBuilder { private final LinkedList builders = new LinkedList(); public CompositePathComponentBuilder() { } public CompositePathComponentBuilder(String path) { addPath(path); } public void addPathSegments(String... pathSegments) { if (!ObjectUtils.isEmpty(pathSegments)) { PathSegmentComponentBuilder psBuilder = getLastBuilder(PathSegmentComponentBuilder.class); FullPathComponentBuilder fpBuilder = getLastBuilder(FullPathComponentBuilder.class); if (psBuilder == null) { psBuilder = new PathSegmentComponentBuilder(); this.builders.add(psBuilder); if (fpBuilder != null) { fpBuilder.removeTrailingSlash(); } } psBuilder.append(pathSegments); } } public void addPath(String path) { if (StringUtils.hasText(path)) { PathSegmentComponentBuilder psBuilder = getLastBuilder(PathSegmentComponentBuilder.class); FullPathComponentBuilder fpBuilder = getLastBuilder(FullPathComponentBuilder.class); if (psBuilder != null) { path = path.startsWith("/") ? path : "/" + path; } if (fpBuilder == null) { fpBuilder = new FullPathComponentBuilder(); this.builders.add(fpBuilder); } fpBuilder.append(path); } } @SuppressWarnings("unchecked") private T getLastBuilder(Class builderClass) { if (!this.builders.isEmpty()) { PathComponentBuilder last = this.builders.getLast(); if (builderClass.isInstance(last)) { return (T) last; } } return null; } @Override public PathComponent build() { int size = this.builders.size(); List components = new ArrayList(size); for (PathComponentBuilder componentBuilder : this.builders) { PathComponent pathComponent = componentBuilder.build(); if (pathComponent != null) { components.add(pathComponent); } } if (components.isEmpty()) { return HierarchicalUriComponents.NULL_PATH_COMPONENT; } if (components.size() == 1) { return components.get(0); } return new HierarchicalUriComponents.PathComponentComposite(components); } @Override public CompositePathComponentBuilder cloneBuilder() { CompositePathComponentBuilder compositeBuilder = new CompositePathComponentBuilder(); for (PathComponentBuilder builder : this.builders) { compositeBuilder.builders.add(builder.cloneBuilder()); } return compositeBuilder; } } private static class FullPathComponentBuilder implements PathComponentBuilder { private final StringBuilder path = new StringBuilder(); public void append(String path) { this.path.append(path); } @Override public PathComponent build() { if (this.path.length() == 0) { return null; } String path = this.path.toString(); while (true) { int index = path.indexOf("//"); if (index == -1) { break; } path = path.substring(0, index) + path.substring(index + 1); } return new HierarchicalUriComponents.FullPathComponent(path); } public void removeTrailingSlash() { int index = this.path.length() - 1; if (this.path.charAt(index) == '/') { this.path.deleteCharAt(index); } } @Override public FullPathComponentBuilder cloneBuilder() { FullPathComponentBuilder builder = new FullPathComponentBuilder(); builder.append(this.path.toString()); return builder; } } private static class PathSegmentComponentBuilder implements PathComponentBuilder { private final List pathSegments = new LinkedList(); public void append(String... pathSegments) { for (String pathSegment : pathSegments) { if (StringUtils.hasText(pathSegment)) { this.pathSegments.add(pathSegment); } } } @Override public PathComponent build() { return (this.pathSegments.isEmpty() ? null : new HierarchicalUriComponents.PathSegmentComponent(this.pathSegments)); } @Override public PathSegmentComponentBuilder cloneBuilder() { PathSegmentComponentBuilder builder = new PathSegmentComponentBuilder(); builder.pathSegments.addAll(this.pathSegments); return builder; } } }




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