X-Git-Url: http://git.tdb.fi/?a=blobdiff_plain;f=source%2Flibmarklin%2Ftrain.cpp;h=63a14e991c9e814a525ce43139ccc9366d42ea64;hb=651698847d5293cfb15b6fb23a394701388c0151;hp=f69849db54a81cd65db4448d569ead98e4c241e8;hpb=78bc40c2d1a5fcc5715143bd2326716fbb143730;p=r2c2.git diff --git a/source/libmarklin/train.cpp b/source/libmarklin/train.cpp index f69849d..63a14e9 100644 --- a/source/libmarklin/train.cpp +++ b/source/libmarklin/train.cpp @@ -1,121 +1,645 @@ -#include "control.h" -#include "trafficmanager.h" +/* $Id$ + +This file is part of the MSP Märklin suite +Copyright © 2006-2010 Mikkosoft Productions, Mikko Rasa +Distributed under the GPL +*/ + +#include +#include +#include +#include +#include "driver.h" +#include "layout.h" +#include "locotype.h" +#include "route.h" +#include "tracktype.h" #include "train.h" +using namespace std; +using namespace Msp; + namespace Marklin { -Train::Train(TrafficManager &tm, Locomotive &l): - trfc_mgr(tm), - loco(l), - target_speed(0) +Train::Train(Layout &l, const LocoType &t, unsigned a): + layout(l), + loco_type(t), + address(a), + pending_block(0), + target_speed(0), + current_speed(0), + reverse(false), + route(0), + status("Unplaced"), + travel_dist(0), + travel_speed(0), + pure_speed(false), + real_speed(15), + cur_track(0) +{ + layout.add_train(*this); + + layout.get_driver().add_loco(address); + layout.get_driver().signal_loco_speed.connect(sigc::mem_fun(this, &Train::loco_speed_event)); + layout.get_driver().signal_loco_function.connect(sigc::mem_fun(this, &Train::loco_func_event)); + + layout.signal_block_reserved.connect(sigc::mem_fun(this, &Train::block_reserved)); + layout.get_driver().signal_sensor.connect(sigc::mem_fun(this, &Train::sensor_event)); + layout.get_driver().signal_turnout.connect(sigc::mem_fun(this, &Train::turnout_event)); +} + +Train::~Train() { - trfc_mgr.add_train(this); - trfc_mgr.get_control().signal_sensor_event.connect(sigc::mem_fun(this, &Train::sensor_event)); + layout.remove_train(*this); +} + +void Train::set_name(const string &n) +{ + name = n; + + signal_name_changed.emit(name); } void Train::set_speed(unsigned speed) { - target_speed=speed; - if(rsv_blocks.empty() && !reserve_more()) + if(speed==target_speed) return; - loco.set_speed(speed); + travel_speed = static_cast(round(get_real_speed(speed)*87*3.6/5))*5; + + target_speed = speed; + if(!target_speed) + { + pending_block = 0; + stop_timeout = Time::now()+(800+current_speed*150)*Time::msec; + } + else + reserve_more(); + + signal_target_speed_changed.emit(target_speed); + + update_speed(); + pure_speed = false; } -void Train::place(Block *block, const Block::Endpoint *entry) +void Train::set_reverse(bool rev) { - for(BlockRefSeq::iterator i=rsv_blocks.begin(); i!=rsv_blocks.end();) + if(rev==reverse) + return; + + if(target_speed) { - i->block->reserve(0); - i=rsv_blocks.erase(i); + set_speed(0); + return; } + else if(stop_timeout) + return; + + layout.get_driver().set_loco_reverse(address, rev); - for(BlockRefSeq::iterator i=cur_blocks.begin(); i!=cur_blocks.end();) + release_blocks(rsv_blocks); + reverse_blocks(cur_blocks); + + if(cur_track) { - i->block->reserve(0); - i=cur_blocks.erase(i); + unsigned path = cur_track->get_active_path(); + cur_track_ep = cur_track->traverse(cur_track_ep, path); + offset = cur_track->get_type().get_path_length(path)-offset; } +} + +void Train::set_function(unsigned func, bool state) +{ + if(!loco_type.get_functions().count(func)) + throw InvalidParameterValue("Invalid function"); + if(func<5) + layout.get_driver().set_loco_function(address, func, state); + else + layout.get_driver().set_loco_function(address+1, func-4, state); +} + +bool Train::get_function(unsigned func) const +{ + return (functions>>func)&1; +} + +void Train::set_route(const Route *r) +{ + route = r; + signal_route_changed.emit(route); +} + +void Train::place(Block &block, unsigned entry) +{ + if(target_speed) + set_speed(0); - if(!block->reserve(this)) + release_blocks(rsv_blocks); + release_blocks(cur_blocks); + + if(!block.reserve(this)) + { + set_status("Unplaced"); return; + } - cur_blocks.push_back(BlockRef(block, entry)); + cur_blocks.push_back(BlockRef(&block, entry)); + set_position(block.get_endpoints()[entry]); + + set_status("Stopped"); } -bool Train::free_block(Block *block) +bool Train::free_block(Block &block) { - for(BlockRefSeq::iterator i=rsv_blocks.begin(); i!=rsv_blocks.end(); ++i) - if(i->block==block) + unsigned nsens = 0; + for(list::iterator i=rsv_blocks.begin(); i!=rsv_blocks.end(); ++i) + { + if(i->block==&block) { - while(i!=rsv_blocks.end()) - { - i->block->reserve(0); - i=rsv_blocks.erase(i); - } + if(nsens<1) + return false; + release_blocks(rsv_blocks, i, rsv_blocks.end()); + update_speed(); return true; } + else if(i->block->get_sensor_id()) + ++nsens; + } return false; } +int Train::get_entry_to_block(Block &block) const +{ + for(list::const_iterator i=cur_blocks.begin(); i!=cur_blocks.end(); ++i) + if(i->block==&block) + return i->entry; + for(list::const_iterator i=rsv_blocks.begin(); i!=rsv_blocks.end(); ++i) + if(i->block==&block) + return i->entry; + return -1; +} + +void Train::tick(const Time::TimeStamp &t, const Time::TimeDelta &dt) +{ + if(stop_timeout && t>=stop_timeout) + { + release_blocks(rsv_blocks); + stop_timeout = Time::TimeStamp(); + } + + if(cur_track) + { + unsigned path = cur_track->get_active_path(); + + offset += get_real_speed(current_speed)*(dt/Time::sec); + float path_len = cur_track->get_type().get_path_length(path); + if(offset>path_len) + { + unsigned out = cur_track->traverse(cur_track_ep, path); + Track *next = cur_track->get_link(out); + + bool ok = false; + for(list::const_iterator i=cur_blocks.begin(); (!ok && i!=cur_blocks.end()); ++i) + ok = i->block->get_tracks().count(next); + + if(ok) + { + if(next) + cur_track_ep = next->get_endpoint_by_link(*cur_track); + cur_track = next; + offset = 0; + } + else + offset = path_len-0.001; + } + + if(cur_track) + pos = cur_track->get_point(cur_track_ep, path, offset); + } +} + +void Train::save(list &st) const +{ + st.push_back((DataFile::Statement("name"), name)); + for(unsigned i=0; i<=14; ++i) + if(real_speed[i].weight) + st.push_back((DataFile::Statement("real_speed"), i, real_speed[i].speed, real_speed[i].weight)); + if(route) + st.push_back((DataFile::Statement("route"), route->get_name())); + + if(!cur_blocks.empty()) + { + list blocks = cur_blocks; + if(reverse) + reverse_blocks(blocks); + + Block *prev = blocks.front().block->get_endpoints()[blocks.front().entry].link; + st.push_back((DataFile::Statement("block_hint"), prev->get_id())); + + for(list::const_iterator i=blocks.begin(); i!=blocks.end(); ++i) + st.push_back((DataFile::Statement("block"), i->block->get_id())); + } +} + +void Train::loco_speed_event(unsigned addr, unsigned speed, bool rev) +{ + if(addr==address) + { + current_speed = speed; + reverse = rev; + + signal_speed_changed.emit(current_speed); + signal_reverse_changed.emit(reverse); + } +} + +void Train::loco_func_event(unsigned addr, unsigned func, bool state) +{ + if(addr==address || (addr==address+1 && loco_type.get_max_function()>4)) + { + if(addr==address+1) + func += 4; + if(state) + functions |= 1<::iterator i; for(i=rsv_blocks.begin(); i!=rsv_blocks.end(); ++i) if(i->block->get_sensor_id() && i->block->get_sensor_id()!=addr) break; - cur_blocks.splice(cur_blocks.begin(), rsv_blocks, rsv_blocks.begin(), i); - reserve_more(); - if(rsv_blocks.empty()) - loco.set_speed(0); + if(i!=rsv_blocks.begin()) + { + // Compute speed and update related state + float travel_time_secs = (Time::now()-last_entry_time)/Time::sec; + travel_speed = static_cast(round(travel_dist/travel_time_secs*87*3.6/5))*5; + + if(pure_speed) + { + RealSpeed &rs = real_speed[current_speed]; + rs.add(travel_dist/travel_time_secs, travel_time_secs); + } + + travel_dist = 0; + float block_len; + for(list::iterator j=rsv_blocks.begin(); j!=i; ++j) + { + j->block->traverse(j->entry, &block_len); + travel_dist += block_len; + + if(j->block->get_sensor_id()==addr) + set_position(j->block->get_endpoints()[j->entry]); + } + last_entry_time = Time::now(); + pure_speed = true; + + // Move blocks up to the next sensor to our current blocks + cur_blocks.splice(cur_blocks.end(), rsv_blocks, rsv_blocks.begin(), i); + + // Try to get more blocks if we're moving + if(target_speed && reserve_more()<2) + update_speed(); + } } else { - BlockRefSeq::iterator i; - for(i=cur_blocks.begin(); i!=cur_blocks.end(); ++i) - if(i->block->get_sensor_id()==addr) - break; - if(i!=cur_blocks.end()) + // Find the first sensor in our current blocks that's still active + list::iterator end = cur_blocks.begin(); + for(list::iterator i=cur_blocks.begin(); i!=cur_blocks.end(); ++i) + if(i->block->get_sensor_id()) + { + if(layout.get_driver().get_sensor(i->block->get_sensor_id())) + break; + else + end = i; + } + + if(end!=cur_blocks.begin()) { - ++i; - for(BlockRefSeq::iterator j=cur_blocks.begin(); j!=i; ++j) - j->block->reserve(0); - cur_blocks.erase(cur_blocks.begin(), i); + // Free blocks up to the last inactive sensor + ++end; + release_blocks(cur_blocks, cur_blocks.begin(), end); } + } +} +void Train::turnout_event(unsigned addr, bool) +{ + if(pending_block && addr==pending_block->get_turnout_id()) reserve_more(); - } } -bool Train::reserve_more() +void Train::block_reserved(const Block &block, const Train *train) { - BlockRef *last=0; + if(&block==pending_block && !train) + reserve_more(); +} + +unsigned Train::reserve_more() +{ + BlockRef *last = 0; if(!rsv_blocks.empty()) - last=&rsv_blocks.back(); + last = &rsv_blocks.back(); else if(!cur_blocks.empty()) - last=&cur_blocks.back(); + last = &cur_blocks.back(); if(!last) - return false; + return 0; + + pending_block = 0; + + // See how many blocks we already have + unsigned nsens = 0; + for(list::const_iterator i=rsv_blocks.begin(); i!=rsv_blocks.end(); ++i) + if(i->block->get_sensor_id()) + ++nsens; + + bool got_more = false; + BlockRef *good = last; + unsigned good_sens = nsens; + while(good_sens<3) + { + // Traverse to the next block + unsigned exit = last->block->traverse(last->entry); + Block *link = last->block->get_link(exit); + if(!link) + break; + + int entry = link->get_endpoint_by_link(*last->block); + if(entry<0) + throw LogicError("Block links are inconsistent!"); + if(!link->reserve(this)) + { + // If we found another train and it's not headed straight for us, we can keep the blocks we got + int other_entry = link->get_train()->get_entry_to_block(*link); + if(other_entry<0) + throw LogicError("Block reservation inconsistency"); + if(static_cast(entry)!=link->traverse(other_entry)) + { + good = last; + good_sens = nsens; + } + pending_block = link; + break; + } + + if(link->get_turnout_id()) + { + const Block::Endpoint &ep = link->get_endpoints()[entry]; + const Endpoint &track_ep = ep.track->get_type().get_endpoints()[ep.track_ep]; + + // Keep the blocks reserved so far, as either us or the other train can diverge + good = last; + good_sens = nsens; + + // Figure out what path we'd like to take on the turnout + int path = -1; + if(route) + path = route->get_turnout(link->get_turnout_id()); + if(path<0) + path = ep.track->get_active_path(); + if(!((track_ep.paths>>path)&1)) + { + for(unsigned i=0; track_ep.paths>>i; ++i) + if((track_ep.paths>>i)&1) + path = i; + } + + if(path!=static_cast(ep.track->get_active_path())) + { + // The turnout is set to wrong path - switch and wait for it + link->reserve(0); + pending_block = link; + ep.track->set_active_path(path); + break; + } + } + + rsv_blocks.push_back(BlockRef(link, entry)); + last = &rsv_blocks.back(); + if(last->block->get_sensor_id()) + { + ++nsens; + got_more = true; + } + } - bool result=false; - unsigned size=rsv_blocks.size(); - while(size<5) + // Unreserve blocks that were not good + while(!rsv_blocks.empty() && last!=good) { - const Block::Endpoint *exit=last->block->traverse(last->entry); - if(exit->link->reserve(this)) + last->block->reserve(0); + rsv_blocks.erase(--rsv_blocks.end()); + if(!rsv_blocks.empty()) + last = &rsv_blocks.back(); + } + + if(got_more) + update_speed(); + + return nsens; +} + +void Train::update_speed() +{ + Driver &driver = layout.get_driver(); + + unsigned speed; + if(!target_speed) + { + speed = 0; + set_status("Stopped"); + } + else + { + unsigned nsens = 0; + for(list::const_iterator i=rsv_blocks.begin(); i!=rsv_blocks.end(); ++i) + if(i->block->get_sensor_id()) + ++nsens; + + unsigned slow_speed = find_speed(0.1); // 31.3 km/h + if(nsens==0) + { + speed = 0; + pure_speed = false; + set_status("Blocked"); + } + else if(nsens==1 && target_speed>slow_speed) { - rsv_blocks.push_back(BlockRef(exit->link, exit->link->get_endpoint_by_link(last->block))); - last=&rsv_blocks.back(); - ++size; - result=true; + speed = slow_speed; + pure_speed = false; + set_status("Slow"); } else + { + speed = target_speed; + set_status(format("Traveling %d kmh", travel_speed)); + } + } + + driver.set_loco_speed(address, speed); +} + +float Train::get_real_speed(unsigned i) const +{ + if(real_speed[i].weight) + return real_speed[i].speed; + + unsigned low; + unsigned high; + for(low=i; low>0; --low) + if(real_speed[low].weight) + break; + for(high=i; high<14; ++high) + if(real_speed[high].weight) break; + + if(real_speed[high].weight) + { + if(real_speed[low].weight) + { + float f = float(i-low)/(high-low); + return real_speed[low].speed*(1-f)+real_speed[high].speed*f; + } + else + return real_speed[high].speed*float(i)/high; + } + else if(real_speed[low].weight) + return real_speed[low].speed*float(i)/low; + else + return 0; +} + +unsigned Train::find_speed(float real) const +{ + if(real<=real_speed[0].speed) + return 0; + + unsigned low = 0; + unsigned high = 0; + for(unsigned i=0; (!high && i<=14); ++i) + if(real_speed[i].weight) + { + if(real_speed[i].speed(low*real/real_speed[low].speed), 14U); } - return result; + float f = (real-real_speed[low].speed)/(real_speed[high].speed-real_speed[low].speed); + return static_cast(low*(1-f)+high*f+0.5); +} + +void Train::set_status(const string &s) +{ + status = s; + signal_status_changed.emit(s); +} + +void Train::set_position(const Block::Endpoint &bep) +{ + cur_track = bep.track; + cur_track_ep = bep.track_ep; + offset = 0; + pos = cur_track->get_endpoint_position(cur_track_ep); +} + +void Train::release_blocks(list &blocks) +{ + release_blocks(blocks, blocks.begin(), blocks.end()); +} + +void Train::release_blocks(list &blocks, list::iterator begin, list::iterator end) +{ + while(begin!=end) + { + Block *block = begin->block; + blocks.erase(begin++); + block->reserve(0); + } +} + +void Train::reverse_blocks(list &blocks) const +{ + blocks.reverse(); + for(list::iterator i=blocks.begin(); i!=blocks.end(); ++i) + i->entry = i->block->traverse(i->entry); +} + + +Train::RealSpeed::RealSpeed(): + speed(0), + weight(0) +{ } + +void Train::RealSpeed::add(float s, float w) +{ + speed = (speed*weight+s*w)/(weight+w); + weight = min(weight+w, 300.0f); +} + + +Train::Loader::Loader(Train &t): + DataFile::BasicLoader(t), + prev_block(0) +{ + add("block", &Loader::block); + add("block_hint", &Loader::block_hint); + add("name", &Loader::name); + add("real_speed", &Loader::real_speed); + add("route", &Loader::route); +} + +void Train::Loader::block(unsigned id) +{ + Block &blk = obj.layout.get_block(id); + int entry = -1; + if(prev_block) + entry = blk.get_endpoint_by_link(*prev_block); + if(entry<0) + entry = 0; + + blk.reserve(&obj); + obj.cur_blocks.push_back(BlockRef(&blk, entry)); + obj.set_status("Stopped"); + obj.set_position(blk.get_endpoints()[entry]); + + prev_block = &blk; +} + +void Train::Loader::block_hint(unsigned id) +{ + prev_block = &obj.layout.get_block(id); +} + +void Train::Loader::name(const string &n) +{ + obj.set_name(n); +} + +void Train::Loader::real_speed(unsigned i, float speed, float weight) +{ + obj.real_speed[i].speed = speed; + obj.real_speed[i].weight = weight; +} + +void Train::Loader::route(const string &n) +{ + obj.set_route(&obj.layout.get_route(n)); } } // namespace Marklin