/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }
private void startNewRoute(final PathPattern pattern) { currentRouters = new LinkedList<>(); acceptedRoutes.add(Route.of(pattern, currentRouters)); }
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }
private void startNewRoute(final PathPattern pattern) { currentRouters = new LinkedList<>(); acceptedRoutes.add(Route.of(pattern, currentRouters)); }
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }
private void startNewRoute(final PathPattern pattern) { currentRouters = new LinkedList<>(); acceptedRoutes.add(Route.of(pattern, currentRouters)); }
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }
private void startNewRoute(final PathPattern pattern) { currentRouters = new LinkedList<>(); acceptedRoutes.add(Route.of(pattern, currentRouters)); }
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }
private void startNewRoute(final PathPattern pattern) { currentRouters = new LinkedList<>(); acceptedRoutes.add(Route.of(pattern, currentRouters)); }
while (iterator.hasNext()) { final Route acceptedRoute = iterator.next(); final PathPattern routePattern = acceptedRoute.routingPattern(); final MatchResult m = routePattern.match(path); if (m != null) { result = Router.Continuation.of(context, acceptedRoute.next()); tracingLogger.log(ServerTraceEvent.MATCH_PATH_SKIPPED, iterator.next().routingPattern().getRegex());
/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }
private void startNewRoute(final PathPattern pattern) { currentRouters = new LinkedList<>(); acceptedRoutes.add(Route.of(pattern, currentRouters)); }
/** * Create a new request route. * * @param routingPattern request path routing pattern. * @param routers next-level routers to be processed in case the routing * pattern matches the unmatched right-hand part of the request path. * @return new request route. */ static Route of(PathPattern routingPattern, List<Router> routers) { return new Route(routingPattern, routers); }