node_handle.cpp
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00001 /*
00002  * Copyright (C) 2009, Willow Garage, Inc.
00003  *
00004  * Redistribution and use in source and binary forms, with or without
00005  * modification, are permitted provided that the following conditions are met:
00006  *   * Redistributions of source code must retain the above copyright notice,
00007  *     this list of conditions and the following disclaimer.
00008  *   * Redistributions in binary form must reproduce the above copyright
00009  *     notice, this list of conditions and the following disclaimer in the
00010  *     documentation and/or other materials provided with the distribution.
00011  *   * Neither the names of Stanford University or Willow Garage, Inc. nor the names of its
00012  *     contributors may be used to endorse or promote products derived from
00013  *     this software without specific prior written permission.
00014  *
00015  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
00016  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
00017  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
00018  * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
00019  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
00020  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
00021  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
00022  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
00023  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
00024  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
00025  * POSSIBILITY OF SUCH DAMAGE.
00026  */
00027 
00028 #include "ros/node_handle.h"
00029 #include "ros/this_node.h"
00030 #include "ros/service.h"
00031 #include "ros/callback_queue.h"
00032 #include "ros/timer_manager.h"
00033 
00034 #include "ros/time.h"
00035 #include "ros/rate.h"
00036 
00037 #include "ros/xmlrpc_manager.h"
00038 #include "ros/topic_manager.h"
00039 #include "ros/service_manager.h"
00040 #include "ros/master.h"
00041 #include "ros/param.h"
00042 #include "ros/names.h"
00043 #include "ros/init.h"
00044 #include "ros/this_node.h"
00045 #include "XmlRpc.h"
00046 
00047 #include <boost/thread.hpp>
00048 
00049 namespace ros
00050 {
00051 
00052 boost::mutex g_nh_refcount_mutex;
00053 int32_t g_nh_refcount = 0;
00054 bool g_node_started_by_nh = false;
00055 
00056 class NodeHandleBackingCollection
00057 {
00058 public:
00059   typedef std::vector<Publisher::ImplWPtr> V_PubImpl;
00060   typedef std::vector<ServiceServer::ImplWPtr> V_SrvImpl;
00061   typedef std::vector<Subscriber::ImplWPtr> V_SubImpl;
00062   typedef std::vector<ServiceClient::ImplWPtr> V_SrvCImpl;
00063   V_PubImpl pubs_;
00064   V_SrvImpl srvs_;
00065   V_SubImpl subs_;
00066   V_SrvCImpl srv_cs_;
00067 
00068   boost::mutex mutex_;
00069 };
00070 
00071 NodeHandle::NodeHandle(const std::string& ns, const M_string& remappings)
00072   : namespace_(this_node::getNamespace())
00073   , callback_queue_(0)
00074   , collection_(0)
00075 {
00076   std::string tilde_resolved_ns;
00077   if (!ns.empty() && ns[0] == '~')// starts with tilde
00078     tilde_resolved_ns = names::resolve(ns);
00079   else
00080     tilde_resolved_ns = ns;
00081 
00082   construct(tilde_resolved_ns, true);
00083 
00084   initRemappings(remappings);
00085 }
00086 
00087 NodeHandle::NodeHandle(const NodeHandle& parent, const std::string& ns)
00088 : collection_(0)
00089 {
00090   namespace_ = parent.getNamespace();
00091   callback_queue_ = parent.callback_queue_;
00092 
00093   remappings_ = parent.remappings_;
00094   unresolved_remappings_ = parent.unresolved_remappings_;
00095 
00096   construct(ns, false);
00097 }
00098 
00099 NodeHandle::NodeHandle(const NodeHandle& parent, const std::string& ns, const M_string& remappings)
00100 : collection_(0)
00101 {
00102   namespace_ = parent.getNamespace();
00103   callback_queue_ = parent.callback_queue_;
00104 
00105   remappings_ = parent.remappings_;
00106   unresolved_remappings_ = parent.unresolved_remappings_;
00107 
00108   construct(ns, false);
00109 
00110   initRemappings(remappings);
00111 }
00112 
00113 NodeHandle::NodeHandle(const NodeHandle& rhs)
00114 : collection_(0)
00115 {
00116   callback_queue_ = rhs.callback_queue_;
00117   remappings_ = rhs.remappings_;
00118   unresolved_remappings_ = rhs.unresolved_remappings_;
00119 
00120   construct(rhs.namespace_, true); 
00121 
00122   unresolved_namespace_ = rhs.unresolved_namespace_;
00123 }
00124 
00125 NodeHandle::~NodeHandle()
00126 {
00127   destruct();
00128 }
00129 
00130 NodeHandle& NodeHandle::operator=(const NodeHandle& rhs)
00131 {
00132   ROS_ASSERT(collection_);
00133   namespace_ = rhs.namespace_;
00134   callback_queue_ = rhs.callback_queue_;
00135   remappings_ = rhs.remappings_;
00136   unresolved_remappings_ = rhs.unresolved_remappings_;
00137 
00138   return *this;
00139 }
00140 
00141 void spinThread()
00142 {
00143   ros::spin();
00144 }
00145 
00146 void NodeHandle::construct(const std::string& ns, bool validate_name)
00147 {
00148   if (!ros::isInitialized())
00149   {
00150     ROS_FATAL("You must call ros::init() before creating the first NodeHandle");
00151     ROS_BREAK();
00152   }
00153 
00154   collection_ = new NodeHandleBackingCollection;
00155   unresolved_namespace_ = ns;
00156   // if callback_queue_ is nonnull, we are in a non-nullary constructor
00157 
00158   if (validate_name)
00159     namespace_ = resolveName(ns, true);
00160   else
00161     {
00162       namespace_ = resolveName(ns, true, no_validate());
00163       // FIXME validate namespace_ now
00164     }
00165   ok_ = true;
00166 
00167   boost::mutex::scoped_lock lock(g_nh_refcount_mutex);
00168 
00169   if (g_nh_refcount == 0 && !ros::isStarted())
00170   {
00171     g_node_started_by_nh = true;
00172     ros::start();
00173   }
00174 
00175   ++g_nh_refcount;
00176 }
00177 
00178 void NodeHandle::destruct()
00179 {
00180   delete collection_;
00181 
00182   boost::mutex::scoped_lock lock(g_nh_refcount_mutex);
00183 
00184   --g_nh_refcount;
00185 
00186   if (g_nh_refcount == 0 && g_node_started_by_nh)
00187   {
00188     ros::shutdown();
00189   }
00190 }
00191 
00192 void NodeHandle::initRemappings(const M_string& remappings)
00193 {
00194   {
00195     M_string::const_iterator it = remappings.begin();
00196     M_string::const_iterator end = remappings.end();
00197     for (; it != end; ++it)
00198     {
00199       const std::string& from = it->first;
00200       const std::string& to = it->second;
00201 
00202       remappings_.insert(std::make_pair(resolveName(from, false), resolveName(to, false)));
00203       unresolved_remappings_.insert(std::make_pair(from, to));
00204     }
00205   }
00206 }
00207 
00208 void NodeHandle::setCallbackQueue(CallbackQueueInterface* queue)
00209 {
00210   callback_queue_ = queue;
00211 }
00212 
00213 std::string NodeHandle::remapName(const std::string& name) const
00214 {
00215   std::string resolved = resolveName(name, false);
00216 
00217   // First search any remappings that were passed in specifically for this NodeHandle
00218   M_string::const_iterator it = remappings_.find(resolved);
00219   if (it != remappings_.end())
00220   {
00221     // ROSCPP_LOG_DEBUG("found 'local' remapping: %s", it->second.c_str());
00222     return it->second;
00223   }
00224 
00225   // If not in our local remappings, perhaps in the global ones
00226   return names::remap(resolved);
00227 }
00228 
00229 std::string NodeHandle::resolveName(const std::string& name, bool remap) const
00230 {
00231   // ROSCPP_LOG_DEBUG("resolveName(%s, %s)", name.c_str(), remap ? "true" : "false");
00232   std::string error;
00233   if (!names::validate(name, error))
00234   {
00235     throw InvalidNameException(error);
00236   }
00237 
00238   return resolveName(name, remap, no_validate());
00239 }
00240 
00241 std::string NodeHandle::resolveName(const std::string& name, bool remap, no_validate) const
00242 {
00243   if (name.empty())
00244   {
00245     return namespace_;
00246   }
00247 
00248   std::string final = name;
00249 
00250   if (final[0] == '~')
00251   {
00252     std::stringstream ss;
00253     ss << "Using ~ names with NodeHandle methods is not allowed.  If you want to use private names with the NodeHandle ";
00254     ss << "interface, construct a NodeHandle using a private name as its namespace.  e.g. ";
00255     ss << "ros::NodeHandle nh(\"~\");  ";
00256     ss << "nh.getParam(\"my_private_name\");";
00257     ss << " (name = [" << name << "])";
00258     throw InvalidNameException(ss.str());
00259   }
00260   else if (final[0] == '/')
00261   {
00262     // do nothing
00263   }
00264   else if (!namespace_.empty())
00265   {
00266     // ROSCPP_LOG_DEBUG("Appending namespace_ (%s)", namespace_.c_str());
00267     final = names::append(namespace_, final);
00268   }
00269 
00270   // ROSCPP_LOG_DEBUG("resolveName, pre-clean: %s", final.c_str());
00271   final = names::clean(final);
00272   // ROSCPP_LOG_DEBUG("resolveName, post-clean: %s", final.c_str());
00273 
00274   if (remap)
00275   {
00276     final = remapName(final);
00277     // ROSCPP_LOG_DEBUG("resolveName, remapped: %s", final.c_str());
00278   }
00279 
00280   return names::resolve(final, false);
00281 }
00282 
00283 Publisher NodeHandle::advertise(AdvertiseOptions& ops)
00284 {
00285   ops.topic = resolveName(ops.topic);
00286   if (ops.callback_queue == 0)
00287   {
00288     if (callback_queue_)
00289     {
00290       ops.callback_queue = callback_queue_;
00291     }
00292     else
00293     {
00294       ops.callback_queue = getGlobalCallbackQueue();
00295     }
00296   }
00297 
00298   SubscriberCallbacksPtr callbacks(new SubscriberCallbacks(ops.connect_cb, ops.disconnect_cb, 
00299                                                            ops.tracked_object, ops.callback_queue));
00300 
00301   if (TopicManager::instance()->advertise(ops, callbacks))
00302   {
00303     Publisher pub(ops.topic, ops.md5sum, ops.datatype, *this, callbacks);
00304 
00305     {
00306       boost::mutex::scoped_lock lock(collection_->mutex_);
00307       collection_->pubs_.push_back(pub.impl_);
00308     }
00309 
00310     return pub;
00311   }
00312 
00313   return Publisher();
00314 }
00315 
00316 Subscriber NodeHandle::subscribe(SubscribeOptions& ops)
00317 {
00318   ops.topic = resolveName(ops.topic);
00319   if (ops.callback_queue == 0)
00320   {
00321     if (callback_queue_)
00322     {
00323       ops.callback_queue = callback_queue_;
00324     }
00325     else
00326     {
00327       ops.callback_queue = getGlobalCallbackQueue();
00328     }
00329   }
00330 
00331   if (TopicManager::instance()->subscribe(ops))
00332   {
00333     Subscriber sub(ops.topic, *this, ops.helper);
00334 
00335     {
00336       boost::mutex::scoped_lock lock(collection_->mutex_);
00337       collection_->subs_.push_back(sub.impl_);
00338     }
00339 
00340     return sub;
00341   }
00342 
00343   return Subscriber();
00344 }
00345 
00346 ServiceServer NodeHandle::advertiseService(AdvertiseServiceOptions& ops)
00347 {
00348   ops.service = resolveName(ops.service);
00349   if (ops.callback_queue == 0)
00350   {
00351     if (callback_queue_)
00352     {
00353       ops.callback_queue = callback_queue_;
00354     }
00355     else
00356     {
00357       ops.callback_queue = getGlobalCallbackQueue();
00358     }
00359   }
00360 
00361   if (ServiceManager::instance()->advertiseService(ops))
00362   {
00363     ServiceServer srv(ops.service, *this);
00364 
00365     {
00366       boost::mutex::scoped_lock lock(collection_->mutex_);
00367       collection_->srvs_.push_back(srv.impl_);
00368     }
00369 
00370     return srv;
00371   }
00372 
00373   return ServiceServer();
00374 }
00375 
00376 ServiceClient NodeHandle::serviceClient(ServiceClientOptions& ops)
00377 {
00378   ops.service = resolveName(ops.service);
00379   ServiceClient client(ops.service, ops.persistent, ops.header, ops.md5sum);
00380 
00381   if (client)
00382   {
00383     boost::mutex::scoped_lock lock(collection_->mutex_);
00384     collection_->srv_cs_.push_back(client.impl_);
00385   }
00386 
00387   return client;
00388 }
00389 
00390 Timer NodeHandle::createTimer(Duration period, const TimerCallback& callback, 
00391                               bool oneshot, bool autostart) const
00392 {
00393   TimerOptions ops;
00394   ops.period = period;
00395   ops.callback = callback;
00396   ops.oneshot = oneshot;
00397   ops.autostart = autostart;
00398   return createTimer(ops);
00399 }
00400 
00401 Timer NodeHandle::createTimer(TimerOptions& ops) const
00402 {
00403   if (ops.callback_queue == 0)
00404   {
00405     if (callback_queue_)
00406     {
00407       ops.callback_queue = callback_queue_;
00408     }
00409     else
00410     {
00411       ops.callback_queue = getGlobalCallbackQueue();
00412     }
00413   }
00414 
00415   Timer timer(ops);
00416   if (ops.autostart)
00417     timer.start();
00418   return timer;
00419 }
00420 
00421 WallTimer NodeHandle::createWallTimer(WallDuration period, const WallTimerCallback& callback, 
00422                                       bool oneshot, bool autostart) const
00423 {
00424   WallTimerOptions ops;
00425   ops.period = period;
00426   ops.callback = callback;
00427   ops.oneshot = oneshot;
00428   ops.autostart = autostart;
00429   return createWallTimer(ops);
00430 }
00431 
00432 WallTimer NodeHandle::createWallTimer(WallTimerOptions& ops) const
00433 {
00434   if (ops.callback_queue == 0)
00435   {
00436     if (callback_queue_)
00437     {
00438       ops.callback_queue = callback_queue_;
00439     }
00440     else
00441     {
00442       ops.callback_queue = getGlobalCallbackQueue();
00443     }
00444   }
00445 
00446   WallTimer timer(ops);
00447   if (ops.autostart)
00448     timer.start();
00449   return timer;
00450 }
00451 
00452 void NodeHandle::shutdown()
00453 {
00454   {
00455     NodeHandleBackingCollection::V_SubImpl::iterator it = collection_->subs_.begin();
00456     NodeHandleBackingCollection::V_SubImpl::iterator end = collection_->subs_.end();
00457     for (; it != end; ++it)
00458     {
00459       Subscriber::ImplPtr impl = it->lock();
00460 
00461       if (impl)
00462       {
00463         impl->unsubscribe();
00464       }
00465     }
00466   }
00467 
00468   {
00469     NodeHandleBackingCollection::V_PubImpl::iterator it = collection_->pubs_.begin();
00470     NodeHandleBackingCollection::V_PubImpl::iterator end = collection_->pubs_.end();
00471     for (; it != end; ++it)
00472     {
00473       Publisher::ImplPtr impl = it->lock();
00474 
00475       if (impl)
00476       {
00477         impl->unadvertise();
00478       }
00479     }
00480   }
00481 
00482   {
00483     NodeHandleBackingCollection::V_SrvImpl::iterator it = collection_->srvs_.begin();
00484     NodeHandleBackingCollection::V_SrvImpl::iterator end = collection_->srvs_.end();
00485     for (; it != end; ++it)
00486     {
00487       ServiceServer::ImplPtr impl = it->lock();
00488 
00489       if (impl)
00490       {
00491         impl->unadvertise();
00492       }
00493     }
00494   }
00495 
00496   {
00497     NodeHandleBackingCollection::V_SrvCImpl::iterator it = collection_->srv_cs_.begin();
00498     NodeHandleBackingCollection::V_SrvCImpl::iterator end = collection_->srv_cs_.end();
00499     for (; it != end; ++it)
00500     {
00501       ServiceClient::ImplPtr impl = it->lock();
00502 
00503       if (impl)
00504       {
00505         impl->shutdown();
00506       }
00507     }
00508   }
00509 
00510   ok_ = false;
00511 }
00512 
00513 void NodeHandle::setParam(const std::string& key, const XmlRpc::XmlRpcValue& v) const
00514 {
00515   return param::set(resolveName(key), v);
00516 }
00517 
00518 void NodeHandle::setParam(const std::string& key, const std::string& s) const
00519 {
00520   return param::set(resolveName(key), s);
00521 }
00522 
00523 void NodeHandle::setParam(const std::string& key, const char* s) const
00524 {
00525   return param::set(resolveName(key), s);
00526 }
00527 
00528 void NodeHandle::setParam(const std::string& key, double d) const
00529 {
00530   return param::set(resolveName(key), d);
00531 }
00532 
00533 void NodeHandle::setParam(const std::string& key, int i) const
00534 {
00535   return param::set(resolveName(key), i);
00536 }
00537 
00538 void NodeHandle::setParam(const std::string& key, bool b) const
00539 {
00540   return param::set(resolveName(key), b);
00541 }
00542 
00543 void NodeHandle::setParam(const std::string& key, const std::vector<std::string>& vec) const
00544 {
00545   return param::set(resolveName(key), vec);
00546 }
00547 void NodeHandle::setParam(const std::string& key, const std::vector<double>& vec) const
00548 {
00549   return param::set(resolveName(key), vec);
00550 }
00551 void NodeHandle::setParam(const std::string& key, const std::vector<float>& vec) const
00552 {
00553   return param::set(resolveName(key), vec);
00554 }
00555 void NodeHandle::setParam(const std::string& key, const std::vector<int>& vec) const
00556 {
00557   return param::set(resolveName(key), vec);
00558 }
00559 void NodeHandle::setParam(const std::string& key, const std::vector<bool>& vec) const
00560 {
00561   return param::set(resolveName(key), vec);
00562 }
00563 
00564 void NodeHandle::setParam(const std::string& key, const std::map<std::string, std::string>& map) const
00565 {
00566   return param::set(resolveName(key), map);
00567 }
00568 void NodeHandle::setParam(const std::string& key, const std::map<std::string, double>& map) const
00569 {
00570   return param::set(resolveName(key), map);
00571 }
00572 void NodeHandle::setParam(const std::string& key, const std::map<std::string, float>& map) const
00573 {
00574   return param::set(resolveName(key), map);
00575 }
00576 void NodeHandle::setParam(const std::string& key, const std::map<std::string, int>& map) const
00577 {
00578   return param::set(resolveName(key), map);
00579 }
00580 void NodeHandle::setParam(const std::string& key, const std::map<std::string, bool>& map) const
00581 {
00582   return param::set(resolveName(key), map);
00583 }
00584 
00585 bool NodeHandle::hasParam(const std::string& key) const
00586 {
00587   return param::has(resolveName(key));
00588 }
00589 
00590 bool NodeHandle::deleteParam(const std::string& key) const
00591 {
00592   return param::del(resolveName(key));
00593 }
00594 
00595 bool NodeHandle::getParam(const std::string& key, XmlRpc::XmlRpcValue& v) const
00596 {
00597   return param::get(resolveName(key), v);
00598 }
00599 
00600 bool NodeHandle::getParam(const std::string& key, std::string& s) const
00601 {
00602   return param::get(resolveName(key), s);
00603 }
00604 
00605 bool NodeHandle::getParam(const std::string& key, double& d) const
00606 {
00607   return param::get(resolveName(key), d);
00608 }
00609 
00610 bool NodeHandle::getParam(const std::string& key, int& i) const
00611 {
00612   return param::get(resolveName(key), i);
00613 }
00614 
00615 bool NodeHandle::getParam(const std::string& key, bool& b) const
00616 {
00617   return param::get(resolveName(key), b);
00618 }
00619 
00620 
00621 bool NodeHandle::getParam(const std::string& key, std::vector<std::string>& vec) const
00622 {
00623   return param::get(resolveName(key), vec);
00624 }
00625 bool NodeHandle::getParam(const std::string& key, std::vector<double>& vec) const
00626 {
00627   return param::get(resolveName(key), vec);
00628 }
00629 bool NodeHandle::getParam(const std::string& key, std::vector<float>& vec) const
00630 {
00631   return param::get(resolveName(key), vec);
00632 }
00633 bool NodeHandle::getParam(const std::string& key, std::vector<int>& vec) const
00634 {
00635   return param::get(resolveName(key), vec);
00636 }
00637 bool NodeHandle::getParam(const std::string& key, std::vector<bool>& vec) const
00638 {
00639   return param::get(resolveName(key), vec);
00640 }
00641 
00642 bool NodeHandle::getParam(const std::string& key, std::map<std::string, std::string>& map) const
00643 {
00644   return param::get(resolveName(key), map);
00645 }
00646 bool NodeHandle::getParam(const std::string& key, std::map<std::string, double>& map) const
00647 {
00648   return param::get(resolveName(key), map);
00649 }
00650 bool NodeHandle::getParam(const std::string& key, std::map<std::string, float>& map) const
00651 {
00652   return param::get(resolveName(key), map);
00653 }
00654 bool NodeHandle::getParam(const std::string& key, std::map<std::string, int>& map) const
00655 {
00656   return param::get(resolveName(key), map);
00657 }
00658 bool NodeHandle::getParam(const std::string& key, std::map<std::string, bool>& map) const
00659 {
00660   return param::get(resolveName(key), map);
00661 }
00662 
00663 bool NodeHandle::getParamCached(const std::string& key, XmlRpc::XmlRpcValue& v) const
00664 {
00665   return param::getCached(resolveName(key), v);
00666 }
00667 
00668 bool NodeHandle::getParamCached(const std::string& key, std::string& s) const
00669 {
00670   return param::getCached(resolveName(key), s);
00671 }
00672 
00673 bool NodeHandle::getParamCached(const std::string& key, double& d) const
00674 {
00675   return param::getCached(resolveName(key), d);
00676 }
00677 
00678 bool NodeHandle::getParamCached(const std::string& key, int& i) const
00679 {
00680   return param::getCached(resolveName(key), i);
00681 }
00682 
00683 bool NodeHandle::getParamCached(const std::string& key, bool& b) const
00684 {
00685   return param::getCached(resolveName(key), b);
00686 }
00687 
00688 bool NodeHandle::getParamCached(const std::string& key, std::vector<std::string>& vec) const
00689 {
00690   return param::getCached(resolveName(key), vec);
00691 }
00692 bool NodeHandle::getParamCached(const std::string& key, std::vector<double>& vec) const
00693 {
00694   return param::getCached(resolveName(key), vec);
00695 }
00696 bool NodeHandle::getParamCached(const std::string& key, std::vector<float>& vec) const
00697 {
00698   return param::getCached(resolveName(key), vec);
00699 }
00700 bool NodeHandle::getParamCached(const std::string& key, std::vector<int>& vec) const
00701 {
00702   return param::getCached(resolveName(key), vec);
00703 }
00704 bool NodeHandle::getParamCached(const std::string& key, std::vector<bool>& vec) const
00705 {
00706   return param::getCached(resolveName(key), vec);
00707 }
00708 
00709 bool NodeHandle::getParamCached(const std::string& key, std::map<std::string, std::string>& map) const
00710 {
00711   return param::getCached(resolveName(key), map);
00712 }
00713 bool NodeHandle::getParamCached(const std::string& key, std::map<std::string, double>& map) const
00714 {
00715   return param::getCached(resolveName(key), map);
00716 }
00717 bool NodeHandle::getParamCached(const std::string& key, std::map<std::string, float>& map) const
00718 {
00719   return param::getCached(resolveName(key), map);
00720 }
00721 bool NodeHandle::getParamCached(const std::string& key, std::map<std::string, int>& map) const
00722 {
00723   return param::getCached(resolveName(key), map);
00724 }
00725 bool NodeHandle::getParamCached(const std::string& key, std::map<std::string, bool>& map) const
00726 {
00727   return param::getCached(resolveName(key), map);
00728 }
00729 
00730 bool NodeHandle::searchParam(const std::string& key, std::string& result_out) const
00731 {
00732   // searchParam needs a separate form of remapping -- remapping on the unresolved name, rather than the
00733   // resolved one.
00734 
00735   std::string remapped = key;
00736   M_string::const_iterator it = unresolved_remappings_.find(key);
00737   // First try our local remappings
00738   if (it != unresolved_remappings_.end())
00739   {
00740     remapped = it->second;
00741   }
00742 
00743   return param::search(resolveName(""), remapped, result_out);
00744 }
00745 
00746 bool NodeHandle::ok() const
00747 {
00748   return ros::ok() && ok_;
00749 }
00750 
00751 } // namespace ros


roscpp
Author(s): Morgan Quigley, Josh Faust, Brian Gerkey, Troy Straszheim
autogenerated on Fri Aug 28 2015 12:33:10