[routing] Relaxed roundabout skip turns check (driveway, parking_aisle).

Signed-off-by: Viktor Govako <viktor.govako@gmail.com>

drape_frontend/rule_drawer.cpp

@@ -352,18 +352,19 @@ void RuleDrawer::ProcessLineStyle(FeatureType & f, Stylist const & s, TInsertSha
 
   if (m_context->IsTrafficEnabled() && m_zoomLevel >= kRoadClass0ZoomLevel)
   {
+    using ftypes::HighwayClass;
     struct Checker
     {
-      std::vector<ftypes::HighwayClass> m_highwayClasses;
+      std::vector<HighwayClass> m_highwayClasses;
       int m_zoomLevel;
       df::RoadClass m_roadClass;
     };
     static Checker const checkers[] = {
-      {{ftypes::HighwayClass::Trunk, ftypes::HighwayClass::Primary},
+      {{HighwayClass::Trunk, HighwayClass::Primary},
        kRoadClass0ZoomLevel, df::RoadClass::Class0},
-      {{ftypes::HighwayClass::Secondary, ftypes::HighwayClass::Tertiary},
+      {{HighwayClass::Secondary, HighwayClass::Tertiary},
        kRoadClass1ZoomLevel, df::RoadClass::Class1},
-      {{ftypes::HighwayClass::LivingStreet, ftypes::HighwayClass::Service},
+      {{HighwayClass::LivingStreet, HighwayClass::Service, HighwayClass::ServiceMinor},
        kRoadClass2ZoomLevel, df::RoadClass::Class2}
     };
 

indexer/ftypes_matcher.cpp

@@ -22,71 +22,76 @@ namespace
 {
 class HighwayClasses
 {
-  map<uint32_t, ftypes::HighwayClass> m_map;
+  map<uint32_t, HighwayClass> m_map;
 
 public:
   HighwayClasses()
   {
     auto const & c = classif();
-    m_map[c.GetTypeByPath({"route", "ferry"})] = ftypes::HighwayClass::Transported;
-    m_map[c.GetTypeByPath({"route", "shuttle_train"})] = ftypes::HighwayClass::Transported;
+    m_map[c.GetTypeByPath({"route", "ferry"})] = HighwayClass::Transported;
+    m_map[c.GetTypeByPath({"route", "shuttle_train"})] = HighwayClass::Transported;
 
-    m_map[c.GetTypeByPath({"highway", "motorway"})] = ftypes::HighwayClass::Trunk;
-    m_map[c.GetTypeByPath({"highway", "motorway_link"})] = ftypes::HighwayClass::Trunk;
-    m_map[c.GetTypeByPath({"highway", "trunk"})] = ftypes::HighwayClass::Trunk;
-    m_map[c.GetTypeByPath({"highway", "trunk_link"})] = ftypes::HighwayClass::Trunk;
+    m_map[c.GetTypeByPath({"highway", "motorway"})] = HighwayClass::Trunk;
+    m_map[c.GetTypeByPath({"highway", "motorway_link"})] = HighwayClass::Trunk;
+    m_map[c.GetTypeByPath({"highway", "trunk"})] = HighwayClass::Trunk;
+    m_map[c.GetTypeByPath({"highway", "trunk_link"})] = HighwayClass::Trunk;
 
-    m_map[c.GetTypeByPath({"highway", "primary"})] = ftypes::HighwayClass::Primary;
-    m_map[c.GetTypeByPath({"highway", "primary_link"})] = ftypes::HighwayClass::Primary;
+    m_map[c.GetTypeByPath({"highway", "primary"})] = HighwayClass::Primary;
+    m_map[c.GetTypeByPath({"highway", "primary_link"})] = HighwayClass::Primary;
 
-    m_map[c.GetTypeByPath({"highway", "secondary"})] = ftypes::HighwayClass::Secondary;
-    m_map[c.GetTypeByPath({"highway", "secondary_link"})] = ftypes::HighwayClass::Secondary;
+    m_map[c.GetTypeByPath({"highway", "secondary"})] = HighwayClass::Secondary;
+    m_map[c.GetTypeByPath({"highway", "secondary_link"})] = HighwayClass::Secondary;
 
-    m_map[c.GetTypeByPath({"highway", "tertiary"})] = ftypes::HighwayClass::Tertiary;
-    m_map[c.GetTypeByPath({"highway", "tertiary_link"})] = ftypes::HighwayClass::Tertiary;
+    m_map[c.GetTypeByPath({"highway", "tertiary"})] = HighwayClass::Tertiary;
+    m_map[c.GetTypeByPath({"highway", "tertiary_link"})] = HighwayClass::Tertiary;
 
-    m_map[c.GetTypeByPath({"highway", "unclassified"})] = ftypes::HighwayClass::LivingStreet;
-    m_map[c.GetTypeByPath({"highway", "residential"})] = ftypes::HighwayClass::LivingStreet;
-    m_map[c.GetTypeByPath({"highway", "living_street"})] = ftypes::HighwayClass::LivingStreet;
-    m_map[c.GetTypeByPath({"highway", "road"})] = ftypes::HighwayClass::LivingStreet;
+    m_map[c.GetTypeByPath({"highway", "unclassified"})] = HighwayClass::LivingStreet;
+    m_map[c.GetTypeByPath({"highway", "residential"})] = HighwayClass::LivingStreet;
+    m_map[c.GetTypeByPath({"highway", "living_street"})] = HighwayClass::LivingStreet;
+    m_map[c.GetTypeByPath({"highway", "road"})] = HighwayClass::LivingStreet;
 
-    m_map[c.GetTypeByPath({"highway", "service"})] = ftypes::HighwayClass::Service;
-    m_map[c.GetTypeByPath({"highway", "track"})] = ftypes::HighwayClass::Service;
-    m_map[c.GetTypeByPath({"highway", "busway"})] = ftypes::HighwayClass::Service;
-    m_map[c.GetTypeByPath({"man_made", "pier"})] = ftypes::HighwayClass::Service;
+    m_map[c.GetTypeByPath({"highway", "service"})] = HighwayClass::Service;
+    m_map[c.GetTypeByPath({"highway", "track"})] = HighwayClass::Service;
+    m_map[c.GetTypeByPath({"highway", "busway"})] = HighwayClass::Service;
+    m_map[c.GetTypeByPath({"man_made", "pier"})] = HighwayClass::Service;
 
-    m_map[c.GetTypeByPath({"highway", "pedestrian"})] = ftypes::HighwayClass::Pedestrian;
-    m_map[c.GetTypeByPath({"highway", "footway"})] = ftypes::HighwayClass::Pedestrian;
-    m_map[c.GetTypeByPath({"highway", "bridleway"})] = ftypes::HighwayClass::Pedestrian;
-    m_map[c.GetTypeByPath({"highway", "steps"})] = ftypes::HighwayClass::Pedestrian;
-    m_map[c.GetTypeByPath({"highway", "cycleway"})] = ftypes::HighwayClass::Pedestrian;
-    m_map[c.GetTypeByPath({"highway", "path"})] = ftypes::HighwayClass::Pedestrian;
-    m_map[c.GetTypeByPath({"highway", "construction"})] = ftypes::HighwayClass::Pedestrian;
+    // 3-level types.
+    m_map[c.GetTypeByPath({"highway", "service", "driveway"})] = HighwayClass::ServiceMinor;
+    m_map[c.GetTypeByPath({"highway", "service", "parking_aisle"})] = HighwayClass::ServiceMinor;
+
+    m_map[c.GetTypeByPath({"highway", "pedestrian"})] = HighwayClass::Pedestrian;
+    m_map[c.GetTypeByPath({"highway", "footway"})] = HighwayClass::Pedestrian;
+    m_map[c.GetTypeByPath({"highway", "bridleway"})] = HighwayClass::Pedestrian;
+    m_map[c.GetTypeByPath({"highway", "steps"})] = HighwayClass::Pedestrian;
+    m_map[c.GetTypeByPath({"highway", "cycleway"})] = HighwayClass::Pedestrian;
+    m_map[c.GetTypeByPath({"highway", "path"})] = HighwayClass::Pedestrian;
+    m_map[c.GetTypeByPath({"highway", "construction"})] = HighwayClass::Pedestrian;
   }
 
-  ftypes::HighwayClass Get(uint32_t t) const
+  HighwayClass Get(uint32_t t) const
   {
     auto const it = m_map.find(t);
     if (it == m_map.cend())
-      return ftypes::HighwayClass::Undefined;
+      return HighwayClass::Undefined;
     return it->second;
   }
 };
 
-char const * HighwayClassToString(ftypes::HighwayClass const cls)
+char const * HighwayClassToString(HighwayClass const cls)
 {
   switch (cls)
   {
-  case ftypes::HighwayClass::Undefined: return "Undefined";
-  case ftypes::HighwayClass::Transported: return "Transported";
-  case ftypes::HighwayClass::Trunk: return "Trunk";
-  case ftypes::HighwayClass::Primary: return "Primary";
-  case ftypes::HighwayClass::Secondary: return "Secondary";
-  case ftypes::HighwayClass::Tertiary: return "Tertiary";
-  case ftypes::HighwayClass::LivingStreet: return "LivingStreet";
-  case ftypes::HighwayClass::Service: return "Service";
-  case ftypes::HighwayClass::Pedestrian: return "Pedestrian";
-  case ftypes::HighwayClass::Count: return "Count";
+  case HighwayClass::Undefined: return "Undefined";
+  case HighwayClass::Transported: return "Transported";
+  case HighwayClass::Trunk: return "Trunk";
+  case HighwayClass::Primary: return "Primary";
+  case HighwayClass::Secondary: return "Secondary";
+  case HighwayClass::Tertiary: return "Tertiary";
+  case HighwayClass::LivingStreet: return "LivingStreet";
+  case HighwayClass::Service: return "Service";
+  case HighwayClass::ServiceMinor: return "ServiceMinor";
+  case HighwayClass::Pedestrian: return "Pedestrian";
+  case HighwayClass::Count: return "Count";
   }
   ASSERT(false, ());
   return "";
@@ -121,11 +126,14 @@ HighwayClass GetHighwayClass(feature::TypesHolder const & types)
 
   for (auto t : types)
   {
-    ftype::TruncValue(t, 2);
+    for (uint8_t level : {3, 2})
+    {
+      ftype::TruncValue(t, level);
       HighwayClass const hc = highwayClasses.Get(t);
       if (hc != HighwayClass::Undefined)
         return hc;
     }
+  }
 
   return HighwayClass::Undefined;
 }

indexer/ftypes_matcher.hpp

@@ -635,6 +635,9 @@ enum class HighwayClass
   Tertiary,
   LivingStreet,
   Service,
+  // OSM highway=service type is widely used even for _significant_ roads.
+  // Adding a new type to distinguish mapped driveway or parking_aisle.
+  ServiceMinor,
   Pedestrian,
   Transported,    // Vehicles are transported by train or ferry.
   Count           // This value is used for internals only.

openlr/helpers.cpp

@@ -11,8 +11,7 @@
 #include <algorithm>
 #include <optional>
 #include <sstream>
-#include <string>
-#include <type_traits>
+
 
 namespace
 {
@@ -29,6 +28,7 @@ openlr::FunctionalRoadClass HighwayClassToFunctionalRoadClass(ftypes::HighwayCla
   case ftypes::HighwayClass::Tertiary: return openlr::FunctionalRoadClass::FRC3;
   case ftypes::HighwayClass::LivingStreet: return openlr::FunctionalRoadClass::FRC4;
   case ftypes::HighwayClass::Service: return openlr::FunctionalRoadClass::FRC5;
+  case ftypes::HighwayClass::ServiceMinor: return openlr::FunctionalRoadClass::FRC6;
   default: return openlr::FunctionalRoadClass::FRC7;
   }
 }
@@ -45,38 +45,42 @@ optional<Score> GetFrcScore(Graph::Edge const & e, FunctionalRoadClass functiona
 
   auto const hwClass = infoGetter.Get(e.GetFeatureId()).m_hwClass;
 
+  using ftypes::HighwayClass;
+
   switch (functionalRoadClass)
   {
   case FunctionalRoadClass::FRC0:
     // Note. HighwayClass::Trunk means motorway, motorway_link, trunk or trunk_link.
-    return hwClass == ftypes::HighwayClass::Trunk ? optional<Score>(kMaxScoreForFrc) : nullopt;
+    return hwClass == HighwayClass::Trunk ? optional<Score>(kMaxScoreForFrc) : nullopt;
 
   case FunctionalRoadClass::FRC1:
-    return (hwClass == ftypes::HighwayClass::Trunk || hwClass == ftypes::HighwayClass::Primary)
+    return (hwClass == HighwayClass::Trunk || hwClass == HighwayClass::Primary)
                ? optional<Score>(kMaxScoreForFrc)
                : nullopt;
 
   case FunctionalRoadClass::FRC2:
   case FunctionalRoadClass::FRC3:
-    if (hwClass == ftypes::HighwayClass::Secondary || hwClass == ftypes::HighwayClass::Tertiary)
+    if (hwClass == HighwayClass::Secondary || hwClass == HighwayClass::Tertiary)
       return optional<Score>(kMaxScoreForFrc);
 
-    return hwClass == ftypes::HighwayClass::Primary || hwClass == ftypes::HighwayClass::LivingStreet
+    return hwClass == HighwayClass::Primary || hwClass == HighwayClass::LivingStreet
                ? optional<Score>(0)
                : nullopt;
 
   case FunctionalRoadClass::FRC4:
-    if (hwClass == ftypes::HighwayClass::LivingStreet || hwClass == ftypes::HighwayClass::Service)
+    if (hwClass == HighwayClass::LivingStreet || hwClass == HighwayClass::Service)
       return optional<Score>(kMaxScoreForFrc);
 
-    return (hwClass == ftypes::HighwayClass::Tertiary || hwClass == ftypes::HighwayClass::Secondary)
+    return (hwClass == HighwayClass::Tertiary || hwClass == HighwayClass::Secondary)
                ? optional<Score>(0)
                : nullopt;
 
   case FunctionalRoadClass::FRC5:
   case FunctionalRoadClass::FRC6:
   case FunctionalRoadClass::FRC7:
-    return hwClass == ftypes::HighwayClass::LivingStreet || hwClass == ftypes::HighwayClass::Service
+    return (hwClass == HighwayClass::LivingStreet ||
+            hwClass == HighwayClass::Service ||
+            hwClass == HighwayClass::ServiceMinor)
                ? optional<Score>(kMaxScoreForFrc)
                : nullopt;
 

routing/car_directions.cpp

@@ -6,7 +6,6 @@
 
 #include "geometry/angles.hpp"
 
-#include <limits.h>
 
 namespace routing
 {
@@ -175,8 +174,8 @@ bool KeepRoundaboutTurnByHighwayClass(TurnCandidates const & possibleTurns,
     if (t.m_segment == firstOutgoingSegment)
       continue;
     // For roundabouts of Tertiary and less significant class count every road.
-    // For more significant roundabouts - ignore service roads.
-    if (turnInfo.m_outgoing->m_highwayClass >= HighwayClass::Tertiary || t.m_highwayClass != HighwayClass::Service)
+    // For more significant roundabouts - ignore service roads (driveway, parking_aisle).
+    if (turnInfo.m_outgoing->m_highwayClass >= HighwayClass::Tertiary || t.m_highwayClass != HighwayClass::ServiceMinor)
       return true;
   }
   return false;
@@ -303,7 +302,8 @@ bool CanDiscardTurnByHighwayClassOrAngles(CarDirection const routeDirection,
       continue;
 
     // If outgoing route's road is significantly larger than candidate's service road, the candidate can be ignored.
-    if (CalcDiffRoadClasses(outgoingRouteRoadClass, candidateRoadClass) <= kMinHighwayClassDiffForService && candidateRoadClass == HighwayClass::Service)
+    if (CalcDiffRoadClasses(outgoingRouteRoadClass, candidateRoadClass) <= kMinHighwayClassDiffForService &&
+        (candidateRoadClass == HighwayClass::Service || candidateRoadClass == HighwayClass::ServiceMinor))
       continue;
 
     // If igngoing and outgoing edges are not links
@@ -445,7 +445,8 @@ void GetTurnDirectionBasic(IRoutingResult const & result, size_t const outgoingS
     return;
 
   // No turns are needed on transported road.
-  if (turnInfo.m_ingoing->m_highwayClass == HighwayClass::Transported && turnInfo.m_outgoing->m_highwayClass == HighwayClass::Transported)
+  if (turnInfo.m_ingoing->m_highwayClass == HighwayClass::Transported &&
+      turnInfo.m_outgoing->m_highwayClass == HighwayClass::Transported)
     return;
 
   Segment firstOutgoingSeg;

routing/routing_integration_tests/turn_test.cpp

@@ -93,6 +93,8 @@ UNIT_TEST(Russia_Moscow_TrikotagniAndPohodniRoundabout_TurnTest)
   Route const & route = *routeResult.first;
   RouterResultCode const result = routeResult.second;
 
+  /// @todo Simple highway=service is now included in turns count.
+  /// Fix OSM on driveway/parking_aisle ?
   TEST_EQUAL(result, RouterResultCode::NoError, ());
   integration::TestTurnCount(route, 2 /* expectedTurnCount */);
 
@@ -1389,4 +1391,39 @@ UNIT_TEST(UK_Junction_Circular)
   GetNthTurn(route, 1).TestValid().TestDirection(CarDirection::LeaveRoundAbout);
 }
 
+UNIT_TEST(Integrated_TurnTest_IncludeServiceRoads)
+{
+  struct Sample
+  {
+    ms::LatLon start, finish;
+    int expectedTurns;
+  };
+  Sample arr[] = {
+    // https://github.com/organicmaps/organicmaps/issues/8892
+    {{50.128011, 14.7100098}, {50.1283017, 14.7119639}, 3},
+    {{50.1283462, 14.7122953}, {50.1280032, 14.7099638}, 3},
+    // https://github.com/organicmaps/organicmaps/issues/5888
+    {{58.8428062, 5.71619759}, {58.8422583, 5.71672851}, 3},
+    // https://github.com/organicmaps/organicmaps/issues/3596
+    {{38.7114203, 0.0365096768}, {38.7103102, 0.0349380496}, 2},
+  };
+
+  for (auto const & s : arr)
+  {
+    using namespace integration;
+    TRouteResult const routeResult = CalculateRoute(GetVehicleComponents(VehicleType::Car),
+                                                    mercator::FromLatLon(s.start), {0., 0.},
+                                                    mercator::FromLatLon(s.finish));
+
+    Route const & route = *routeResult.first;
+    RouterResultCode const result = routeResult.second;
+    TEST_EQUAL(result, RouterResultCode::NoError, ());
+
+    GetNthTurn(route, 0)
+      .TestValid()
+      .TestDirection(CarDirection::EnterRoundAbout)
+      .TestRoundAboutExitNum(s.expectedTurns);
+  }
+}
+
 } // namespace turn_test

routing/turns_generator.cpp

@@ -4,7 +4,6 @@
 
 #include "indexer/ftypes_matcher.hpp"
 
-#include "base/stl_helpers.hpp"
 
 namespace routing
 {
@@ -47,7 +46,8 @@ bool CanDiscardTurnByHighwayClass(std::vector<TurnCandidate> const & turnCandida
       continue;
 
     // If route's road is significantly larger than candidate's service road, the candidate can be ignored.
-    if (CalcDiffRoadClasses(maxRouteRoadClass, candidateRoadClass) <= kMinHighwayClassDiffForService && candidateRoadClass == HighwayClass::Service)
+    if (CalcDiffRoadClasses(maxRouteRoadClass, candidateRoadClass) <= kMinHighwayClassDiffForService &&
+        (candidateRoadClass == HighwayClass::Service || candidateRoadClass == HighwayClass::ServiceMinor))
       continue;
 
     return false;

routing/turns_generator_utils.cpp

@@ -1,8 +1,11 @@
 #include "routing/turns_generator_utils.hpp"
-#include "platform/measurement_utils.hpp"
-#include "geometry/mercator.hpp"
 #include "routing/turns.hpp"
 
+#include "platform/measurement_utils.hpp"
+
+#include "geometry/mercator.hpp"
+
+
 namespace routing
 {
 namespace turns
@@ -19,7 +22,9 @@ bool IsHighway(HighwayClass hwClass, bool isLink)
 bool IsSmallRoad(HighwayClass hwClass)
 {
   return hwClass == HighwayClass::LivingStreet ||
-         hwClass == HighwayClass::Service || hwClass == HighwayClass::Pedestrian;
+         hwClass == HighwayClass::Service ||
+         hwClass == HighwayClass::ServiceMinor ||
+         hwClass == HighwayClass::Pedestrian;
 }
 
 int CalcDiffRoadClasses(HighwayClass const left, HighwayClass const right)
@@ -120,7 +125,8 @@ double CalcEstimatedTimeToPass(double const distanceMeters, HighwayClass const h
     case HighwayClass::Secondary:     speedKmph = 70.0; break;
     case HighwayClass::Tertiary:      speedKmph = 50.0; break;
     case HighwayClass::LivingStreet:  speedKmph = 20.0; break;
-    case HighwayClass::Service:       speedKmph = 10.0; break;
+    case HighwayClass::Service:
+    case HighwayClass::ServiceMinor:  speedKmph = 10.0; break;
     case HighwayClass::Pedestrian:    speedKmph = 5.0; break;
     default:                          speedKmph = 50.0; break;
   }