Bump new test release.

Add a bunch of tests at different scales. Switch to using linear acceleration estimates to add penalties to start/end of trips.
change phantom node to store an appx speed regardless of direction. use this speed to estimate an accel/decel penalty and scale the penalty based on the distance traveled up to a cutoff. only used in the table plugin at the moment. TODO still lives in the guidance assemble_leg area
2019-02-09 02:42:38 -08:00 · 2019-02-09 02:31:36 -08:00 · 2019-02-09 02:31:26 -08:00 · 2019-02-08 15:50:33 -08:00 · 2019-02-08 15:32:26 -08:00 · 2019-02-03 12:09:24 -08:00
24 changed files with 868 additions and 171 deletions
--- a/features/car/startpoint.feature
+++ b/features/car/startpoint.feature
@ -35,3 +35,28 @@ Feature: Car - Allowed start/end modes
            | from | to | route | modes           |
            | 1    | 2  | ab,ab | driving,driving |
            | 2    | 1  | ab,ab | driving,driving |
    Scenario: Car - URL override of non-startpoints
        Given the node map
            """
            a 1 b   c 2 d
            """
        Given the query options
            | snapping  | any          |
        And the ways
            | nodes | highway | access  |
            | ab    | service | private |
            | bc    | primary |         |
            | cd    | service | private |
        When I request a travel time matrix I should get
            |   | 2    | c    |
            | 1 | 59.1 | 35.1 |
            | b | 35.1 | 11.1 |
        When I route I should get
            | from | to | route    |
            | 1    | 2  | ab,bc,cd |
            | 2    | 1  | cd,bc,ab |
--- a/features/testbot/stoppage.feature
+++ b/features/testbot/stoppage.feature
@ -0,0 +1,168 @@
@routing @maxspeed @testbot
 Feature: Testbot - Acceleration profiles
    Background: Use specific speeds
        Given the profile "testbot"
    Scenario: Testbot - No stoppage penalties
        Given a grid size of 10 meters
        Given the node map
            """
            a 1 2 3 4 5 b
            """
        And the ways
            | nodes | highway | maxspeed:forward    | maxspeed:backward |
            | ab    | trunk   | 60                  | 45                |
        When I route I should get
            | from | to | route | time   | distance |
            | a    | b  | ab,ab | 3.6s   | 59.9m    |
            | a    | 1  | ab,ab | 0.6s   | 10m      |
            | a    | 2  | ab,ab | 1.2s   | 20m      |
            | a    | 3  | ab,ab | 1.8s   | 30m      |
            | a    | 4  | ab,ab | 2.4s   | 40m      |
            | a    | 5  | ab,ab | 3s     | 50m      |
            | 5    | b  | ab,ab | 0.6s   | 9.9m     |
            | 4    | b  | ab,ab | 1.2s   | 19.9m    |
            | 3    | b  | ab,ab | 1.8s   | 29.9m    |
            | 2    | b  | ab,ab | 2.4s   | 39.9m    |
            | 1    | b  | ab,ab | 3s     | 49.9m    |
            | 1    | 2  | ab,ab | 0.6s   | 10m      |
            | 1    | 3  | ab,ab | 1.2s   | 20m      |
            | 1    | 4  | ab,ab | 1.8s   | 30m      |
            | 1    | 5  | ab,ab | 2.4s   | 40m      |
        When I request a travel time matrix I should get
            |   | a     | 1     | 2   | 3   | 4   | 5   | b   |
            | a | 0     | 0.6   | 1.2 | 1.8 | 2.4 | 3   | 3.6 |
            | 1 | 0.8   | 0     | 0.6 | 1.2 | 1.8 | 2.4 | 3   |
            | 2 | 1.6   | 0.8   | 0   | 0.6 | 1.2 | 1.8 | 2.4 |
            | 3 | 2.4   | 1.6   | 0.8 | 0   | 0.6 | 1.2 | 1.8 |
            | 4 | 3.2   | 2.4   | 1.6 | 0.8 | 0   | 0.6 | 1.2 |
            | 5 | 4     | 3.2   | 2.4 | 1.6 | 0.8 | 0   | 0.6 |
            | b | 4.8   | 4     | 3.2 | 2.4 | 1.6 | 0.8 | 0   |
   Scenario: Testbot - No stoppage points, tiny grid size
        Given a grid size of 1 meters
        Given the node map
            """
            a 1 2 3 4 5 6 7 8 9 b
            """
        And the ways
            | nodes | highway | maxspeed:forward    | maxspeed:backward |
            | ab    | trunk   | 60                  | 45                |
        When I request a travel time matrix I should get
            |   |  a    |  1    |  2   |  3   |  4   |  5    |  6    |  7   |  8   |  9   |  b   |
            | a |  0    |  0    |  0.1 |  0.1 |  0.2 |  0.3  |  0.3  |  0.4 |  0.4 |  0.5 |  0.6 |
            | 1 |  0    |  0    |  0.1 |  0.1 |  0.2 |  0.3  |  0.3  |  0.4 |  0.4 |  0.5 |  0.6 |
            | 2 |  0.1  |  0.1  |  0   |  0   |  0.1 |  0.2  |  0.2  |  0.3 |  0.3 |  0.4 |  0.5 |
            | 3 |  0.2  |  0.2  |  0   |  0   |  0.1 |  0.2  |  0.2  |  0.3 |  0.3 |  0.4 |  0.5 |
            | 4 |  0.3  |  0.3  |  0.2 |  0.1 |  0   |  0.1  |  0.1  |  0.2 |  0.2 |  0.3 |  0.4 |
            | 5 |  0.4  |  0.4  |  0.3 |  0.2 |  0.1 |  0    |  0    |  0.1 |  0.1 |  0.2 |  0.3 |
            | 6 |  0.4  |  0.4  |  0.3 |  0.2 |  0.1 |  0    |  0    |  0.1 |  0.1 |  0.2 |  0.3 |
            | 7 |  0.5  |  0.5  |  0.4 |  0.3 |  0.2 |  0.1  |  0.1  |  0   |  0   |  0.1 |  0.2 |
            | 8 |  0.6  |  0.6  |  0.5 |  0.4 |  0.3 |  0.2  |  0.2  |  0   |  0   |  0.1 |  0.2 |
            | 9 |  0.7  |  0.7  |  0.6 |  0.5 |  0.4 |  0.3  |  0.3  |  0.2 |  0.1 |  0   |  0.1 |
            | b |  0.8  |  0.8  |  0.7 |  0.6 |  0.5 |  0.4  |  0.4  |  0.3 |  0.2 |  0.1 |  0   |
   Scenario: Testbot - No stoppage points, tiny grid size
        Given a grid size of 1 meters
        Given the node map
            """
            a 1 2 3 4 5 6 7 8 9 b
            """
        And the ways
            | nodes | highway | maxspeed:forward    | maxspeed:backward |
            | ab    | trunk   | 60                  | 45                |
        And the query options
            | stoppage_penalty | 1.85,15   |
        When I request a travel time matrix I should get
            |   |  a   |  1   |  2   |  3   |  4   |  5   |  6   |  7   |  8   |  9   |  b   |
            | a |  0   |  1.4 |  2   |  2.5 |  2.9 |  3.2 |  3.6 |  3.8 |  4.1 |  4.4 |  4.6 |
            | 1 |  1.4 |  0   |  1.4 |  2   |  2.5 |  2.9 |  3.2 |  3.6 |  3.8 |  4.1 |  4.4 |
            | 2 |  2   |  1.4 |  0   |  1.4 |  2   |  2.5 |  2.9 |  3.2 |  3.6 |  3.8 |  4.1 |
            | 3 |  2.5 |  2   |  1.4 |  0   |  1.4 |  2   |  2.5 |  2.9 |  3.2 |  3.6 |  3.8 |
            | 4 |  2.9 |  2.5 |  2   |  1.4 |  0   |  1.4 |  2   |  2.5 |  2.9 |  3.2 |  3.6 |
            | 5 |  3.2 |  2.9 |  2.5 |  2   |  1.4 |  0   |  1.4 |  2   |  2.5 |  2.9 |  3.2 |
            | 6 |  3.6 |  3.2 |  2.9 |  2.5 |  2   |  1.4 |  0   |  1.4 |  2   |  2.5 |  2.9 |
            | 7 |  3.8 |  3.6 |  3.2 |  2.9 |  2.5 |  2   |  1.4 |  0   |  1.4 |  2   |  2.5 |
            | 8 |  4.1 |  3.8 |  3.6 |  3.2 |  2.9 |  2.5 |  2   |  1.4 |  0   |  1.4 |  2   |
            | 9 |  4.4 |  4.1 |  3.8 |  3.6 |  3.2 |  2.9 |  2.5 |  2   |  1.4 |  0   |  1.4 |
            | b |  4.6 |  4.4 |  4.1 |  3.8 |  3.6 |  3.2 |  2.9 |  2.5 |  2   |  1.4 |  0   |
    Scenario: Testbot - Use stoppage penalty at waypoints
        Given a grid size of 10 meters
        Given the node map
            """
            a 1 2 3 4 5 b
            """
        And the ways
            | nodes | highway | maxspeed:forward    | maxspeed:backward |
            | ab    | trunk   | 60                  | 45                |
        And the query options
            | stoppage_penalty | 1.85,15   |
        When I request a travel time matrix I should get
            |   | a    | 1    | 2   | 3   | 4   | 5    | b    |
            | a | 0    | 4.6  | 6.5 | 8   | 9.3 | 10.4 | 11.3 |
            | 1 | 4.6  | 0    | 4.6 | 6.5 | 8   | 9.3  | 10.3 |
            | 2 | 6.5  | 4.6  | 0   | 4.6 | 6.5 | 8    | 9.2  |
            | 3 | 8    | 6.5  | 4.6 | 0   | 4.6 | 6.5  | 8    |
            | 4 | 9.3  | 8    | 6.5 | 4.6 | 0   | 4.6  | 6.5  |
            | 5 | 10.4 | 9.3  | 8   | 6.5 | 4.6 | 0    | 4.6  |
            | b | 11.3 | 10.3 | 9.2 | 8   | 6.5 | 4.6  | 0    |
    Scenario: Long distance grid with no penalty
        Given a grid size of 1000 meters
        Given the node map
            """
            a 1 2 3 4 5 b
            """
        And the ways
            | nodes | highway | maxspeed:forward    | maxspeed:backward |
            | ab    | trunk   | 60                  | 45                |
        When I request a travel time matrix I should get
            |   | a     | 1    | 2     | 3     | 4     | 5     | b     |
            | a | 0     | 59.9 | 119.9 | 179.9 | 239.9 | 299.9 | 359.9 |
            | 1 | 79.9  | 0    | 60    | 120   | 180   | 240   | 300   |
            | 2 | 159.9 | 80   | 0     | 60    | 120   | 180   | 240   |
            | 3 | 239.9 | 160  | 80    | 0     | 60    | 120   | 180   |
            | 4 | 319.9 | 240  | 160   | 80    | 0     | 60    | 120   |
            | 5 | 399.9 | 320  | 240   | 160   | 80    | 0     | 60    |
            | b | 479.9 | 400  | 320   | 240   | 160   | 80    | 0     |
    Scenario: Long distance grid
        Given a grid size of 1000 meters
        Given the node map
            """
            a 1 2 3 4 5 b
            """
        And the ways
            | nodes | highway | maxspeed:forward    | maxspeed:backward |
            | ab    | trunk   | 60                  | 45                |
        And the query options
            | stoppage_penalty | 1.85,15   |
        When I request a travel time matrix I should get
            |   | a     | 1     | 2     | 3     | 4     | 5     | b     |
            | a | 0     | 68.9  | 128.9 | 188.9 | 248.9 | 308.9 | 368.9 |
            | 1 | 86.6  | 0     | 69    | 129   | 189   | 249   | 309   |
            | 2 | 166.6 | 86.7  | 0     | 69    | 129   | 189   | 249   |
            | 3 | 246.6 | 166.7 | 86.7  | 0     | 69    | 129   | 189   |
            | 4 | 326.6 | 246.7 | 166.7 | 86.7  | 0     | 69    | 129   |
            | 5 | 406.6 | 326.7 | 246.7 | 166.7 | 86.7  | 0     | 69    |
            | b | 486.6 | 406.7 | 326.7 | 246.7 | 166.7 | 86.7  | 0     |
--- a/include/engine/api/base_parameters.hpp
+++ b/include/engine/api/base_parameters.hpp
@ -63,6 +63,13 @@ namespace api
 */
 struct BaseParameters
 {
    enum class SnappingType
    {
        Default,
        Any
    };
    std::vector<util::Coordinate> coordinates;
    std::vector<boost::optional<Hint>> hints;
    std::vector<boost::optional<double>> radiuses;
@ -73,21 +80,34 @@ struct BaseParameters
    // Adds hints to response which can be included in subsequent requests, see `hints` above.
    bool generate_hints = true;
    SnappingType snapping = SnappingType::Default;
    double min_stoppage_penalty = INVALID_MINIMUM_STOPPAGE_PENALTY;
    double max_stoppage_penalty = INVALID_MAXIMUM_STOPPAGE_PENALTY;
    BaseParameters(const std::vector<util::Coordinate> coordinates_ = {},
                   const std::vector<boost::optional<Hint>> hints_ = {},
                   std::vector<boost::optional<double>> radiuses_ = {},
                   std::vector<boost::optional<Bearing>> bearings_ = {},
                   std::vector<boost::optional<Approach>> approaches_ = {},
                   bool generate_hints_ = true,
-                   std::vector<std::string> exclude = {})
+                   std::vector<std::string> exclude = {},
                   const SnappingType snapping_ = SnappingType::Default,
                   double min_stoppage_penalty_ = INVALID_MINIMUM_STOPPAGE_PENALTY,
                   double max_stoppage_penalty_ = INVALID_MAXIMUM_STOPPAGE_PENALTY)
        : coordinates(coordinates_), hints(hints_), radiuses(radiuses_), bearings(bearings_),
-          approaches(approaches_), exclude(std::move(exclude)), generate_hints(generate_hints_)
+          approaches(approaches_), exclude(std::move(exclude)), generate_hints(generate_hints_),
          snapping(snapping_), min_stoppage_penalty(min_stoppage_penalty_),
          max_stoppage_penalty(max_stoppage_penalty_)
    {
    }
    // FIXME add validation for invalid bearing values
    bool IsValid() const
    {
        if (min_stoppage_penalty <= 0 || max_stoppage_penalty <= 0 ||
            min_stoppage_penalty > max_stoppage_penalty)
            return false;
        return (hints.empty() || hints.size() == coordinates.size()) &&
               (bearings.empty() || bearings.size() == coordinates.size()) &&
               (radiuses.empty() || radiuses.size() == coordinates.size()) &&
@ -103,8 +123,8 @@ struct BaseParameters
                           });
    }
 };
-}
+} // namespace api
-}
+} // namespace engine
-}
+} // namespace osrm
 #endif // ROUTE_PARAMETERS_HPP
--- a/include/engine/api/table_parameters.hpp
+++ b/include/engine/api/table_parameters.hpp
@ -78,7 +78,6 @@ struct TableParameters : public BaseParameters
    };
    AnnotationsType annotations = AnnotationsType::Duration;
    double scale_factor = 1;
    TableParameters() = default;
@ -113,7 +112,6 @@ struct TableParameters : public BaseParameters
          destinations{std::move(destinations_)}, fallback_speed{fallback_speed_},
          fallback_coordinate_type{fallback_coordinate_type_}, annotations{annotations_},
          scale_factor{scale_factor_}
    {
    }
@ -166,8 +164,8 @@ inline TableParameters::AnnotationsType &operator|=(TableParameters::Annotations
 {
    return lhs = lhs | rhs;
 }
-}
+} // namespace api
-}
+} // namespace engine
-}
+} // namespace osrm
 #endif // ENGINE_API_TABLE_PARAMETERS_HPP
--- a/include/engine/datafacade/contiguous_internalmem_datafacade.hpp
+++ b/include/engine/datafacade/contiguous_internalmem_datafacade.hpp
@ -384,50 +384,84 @@ class ContiguousInternalMemoryDataFacadeBase : public BaseDataFacade
            input_coordinate, max_results, max_distance, bearing, bearing_range, approach);
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const util::Coordinate input_coordinate,
-                                                      const Approach approach) const override final
+        const Approach approach,
        const bool use_all_edges,
        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const override final
    {
        BOOST_ASSERT(m_geospatial_query.get());
        return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
-            input_coordinate, approach);
+            input_coordinate,
            approach,
            use_all_edges,
            minimum_stoppage_penalty,
            maximum_stoppage_penalty);
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const util::Coordinate input_coordinate,
        const double max_distance,
-                                                      const Approach approach) const override final
+        const Approach approach,
        const bool use_all_edges,
        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const override final
    {
        BOOST_ASSERT(m_geospatial_query.get());
        return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
-            input_coordinate, max_distance, approach);
+            input_coordinate,
            max_distance,
            approach,
            use_all_edges,
            minimum_stoppage_penalty,
            maximum_stoppage_penalty);
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const util::Coordinate input_coordinate,
        const double max_distance,
        const int bearing,
        const int bearing_range,
-                                                      const Approach approach) const override final
+        const Approach approach,
        const bool use_all_edges,
        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const override final
    {
        BOOST_ASSERT(m_geospatial_query.get());
        return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
-            input_coordinate, max_distance, bearing, bearing_range, approach);
+            input_coordinate,
            max_distance,
            bearing,
            bearing_range,
            approach,
            use_all_edges,
            minimum_stoppage_penalty,
            maximum_stoppage_penalty);
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const util::Coordinate input_coordinate,
        const int bearing,
        const int bearing_range,
-                                                      const Approach approach) const override final
+        const Approach approach,
        const bool use_all_edges,
        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const override final
    {
        BOOST_ASSERT(m_geospatial_query.get());
        return m_geospatial_query->NearestPhantomNodeWithAlternativeFromBigComponent(
-            input_coordinate, bearing, bearing_range, approach);
+            input_coordinate,
            bearing,
            bearing_range,
            approach,
            use_all_edges,
            minimum_stoppage_penalty,
            maximum_stoppage_penalty);
    }
    std::uint32_t GetCheckSum() const override final { return m_check_sum; }
--- a/include/engine/datafacade/datafacade_base.hpp
+++ b/include/engine/datafacade/datafacade_base.hpp
@ -157,24 +157,36 @@ class BaseDataFacade
                        const double max_distance,
                        const Approach approach) const = 0;
-    virtual std::pair<PhantomNode, PhantomNode>
+    virtual std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const util::Coordinate input_coordinate,
-                                                      const Approach approach) const = 0;
+        const Approach approach,
-    virtual std::pair<PhantomNode, PhantomNode>
+        const bool use_all_edges,
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const = 0;
    virtual std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
        const util::Coordinate input_coordinate,
        const double max_distance,
-                                                      const Approach approach) const = 0;
+        const Approach approach,
-    virtual std::pair<PhantomNode, PhantomNode>
+        const bool use_all_edges,
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const = 0;
    virtual std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
        const util::Coordinate input_coordinate,
        const double max_distance,
        const int bearing,
        const int bearing_range,
-                                                      const Approach approach) const = 0;
+        const Approach approach,
-    virtual std::pair<PhantomNode, PhantomNode>
+        const bool use_all_edges,
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
+        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const = 0;
    virtual std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
        const util::Coordinate input_coordinate,
        const int bearing,
        const int bearing_range,
-                                                      const Approach approach) const = 0;
+        const Approach approach,
        const bool use_all_edges,
        const double minimum_stoppage_penalty,
        const double maximum_stoppage_penalty) const = 0;
    virtual bool HasLaneData(const EdgeID id) const = 0;
    virtual util::guidance::LaneTupleIdPair GetLaneData(const EdgeID id) const = 0;
--- a/include/engine/geospatial_query.hpp
+++ b/include/engine/geospatial_query.hpp
@ -205,18 +205,25 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
    std::pair<PhantomNode, PhantomNode>
    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
                                                      const double max_distance,
-                                                      const Approach approach) const
+                                                      const Approach approach,
                                                      const bool use_all_edges,
                                                      const double min_stoppage_penalty,
                                                      const double max_stoppage_penalty) const
    {
        bool has_small_component = false;
        bool has_big_component = false;
        auto results = rtree.Nearest(
            input_coordinate,
-            [this, approach, &input_coordinate, &has_big_component, &has_small_component](
+            [this,
-                const CandidateSegment &segment) {
+             approach,
             &input_coordinate,
             &has_big_component,
             &has_small_component,
             &use_all_edges](const CandidateSegment &segment) {
                auto use_segment =
                    (!has_small_component || (!has_big_component && !IsTinyComponent(segment)));
                auto use_directions = std::make_pair(use_segment, use_segment);
-                const auto valid_edges = HasValidEdge(segment);
+                const auto valid_edges = HasValidEdge(segment, use_all_edges);
                const auto admissible_segments = CheckSegmentExclude(segment);
                use_directions = boolPairAnd(use_directions, admissible_segments);
                use_directions = boolPairAnd(use_directions, valid_edges);
@ -243,27 +250,39 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
        }
        BOOST_ASSERT(results.size() == 1 || results.size() == 2);
-        return std::make_pair(MakePhantomNode(input_coordinate, results.front()).phantom_node,
+        return std::make_pair(
-                              MakePhantomNode(input_coordinate, results.back()).phantom_node);
+            MakePhantomNode(
                input_coordinate, results.front(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node,
            MakePhantomNode(
                input_coordinate, results.back(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node);
    }
    // Returns the nearest phantom node. If this phantom node is not from a big component
    // a second phantom node is return that is the nearest coordinate in a big component.
    std::pair<PhantomNode, PhantomNode>
    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
-                                                      const Approach approach) const
+                                                      const Approach approach,
                                                      const bool use_all_edges,
                                                      const double min_stoppage_penalty,
                                                      const double max_stoppage_penalty) const
    {
        bool has_small_component = false;
        bool has_big_component = false;
        auto results = rtree.Nearest(
            input_coordinate,
-            [this, approach, &input_coordinate, &has_big_component, &has_small_component](
+            [this,
-                const CandidateSegment &segment) {
+             approach,
             &input_coordinate,
             &has_big_component,
             &has_small_component,
             &use_all_edges](const CandidateSegment &segment) {
                auto use_segment =
                    (!has_small_component || (!has_big_component && !IsTinyComponent(segment)));
                auto use_directions = std::make_pair(use_segment, use_segment);
-                const auto valid_edges = HasValidEdge(segment);
+                const auto valid_edges = HasValidEdge(segment, use_all_edges);
                const auto admissible_segments = CheckSegmentExclude(segment);
                use_directions = boolPairAnd(use_directions, admissible_segments);
                use_directions = boolPairAnd(use_directions, valid_edges);
@ -288,8 +307,13 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
        }
        BOOST_ASSERT(results.size() == 1 || results.size() == 2);
-        return std::make_pair(MakePhantomNode(input_coordinate, results.front()).phantom_node,
+        return std::make_pair(
-                              MakePhantomNode(input_coordinate, results.back()).phantom_node);
+            MakePhantomNode(
                input_coordinate, results.front(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node,
            MakePhantomNode(
                input_coordinate, results.back(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node);
    }
    // Returns the nearest phantom node. If this phantom node is not from a big component
@ -298,7 +322,10 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate input_coordinate,
                                                      const int bearing,
                                                      const int bearing_range,
-                                                      const Approach approach) const
+                                                      const Approach approach,
                                                      const bool use_all_edges,
                                                      const double min_stoppage_penalty,
                                                      const double max_stoppage_penalty) const
    {
        bool has_small_component = false;
        bool has_big_component = false;
@ -310,12 +337,13 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
             bearing,
             bearing_range,
             &has_big_component,
-             &has_small_component](const CandidateSegment &segment) {
+             &has_small_component,
             &use_all_edges](const CandidateSegment &segment) {
                auto use_segment =
                    (!has_small_component || (!has_big_component && !IsTinyComponent(segment)));
                auto use_directions = std::make_pair(use_segment, use_segment);
                const auto admissible_segments = CheckSegmentExclude(segment);
-                use_directions = boolPairAnd(use_directions, HasValidEdge(segment));
+                use_directions = boolPairAnd(use_directions, HasValidEdge(segment, use_all_edges));
                if (use_segment)
                {
@ -345,8 +373,13 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
        }
        BOOST_ASSERT(results.size() > 0);
-        return std::make_pair(MakePhantomNode(input_coordinate, results.front()).phantom_node,
+        return std::make_pair(
-                              MakePhantomNode(input_coordinate, results.back()).phantom_node);
+            MakePhantomNode(
                input_coordinate, results.front(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node,
            MakePhantomNode(
                input_coordinate, results.back(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node);
    }
    // Returns the nearest phantom node. If this phantom node is not from a big component
@ -356,7 +389,10 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
                                                      const double max_distance,
                                                      const int bearing,
                                                      const int bearing_range,
-                                                      const Approach approach) const
+                                                      const Approach approach,
                                                      const bool use_all_edges,
                                                      const double min_stoppage_penalty,
                                                      const double max_stoppage_penalty) const
    {
        bool has_small_component = false;
        bool has_big_component = false;
@ -368,12 +404,13 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
             bearing,
             bearing_range,
             &has_big_component,
-             &has_small_component](const CandidateSegment &segment) {
+             &has_small_component,
             &use_all_edges](const CandidateSegment &segment) {
                auto use_segment =
                    (!has_small_component || (!has_big_component && !IsTinyComponent(segment)));
                auto use_directions = std::make_pair(use_segment, use_segment);
                const auto admissible_segments = CheckSegmentExclude(segment);
-                use_directions = boolPairAnd(use_directions, HasValidEdge(segment));
+                use_directions = boolPairAnd(use_directions, HasValidEdge(segment, use_all_edges));
                if (use_segment)
                {
@ -405,8 +442,13 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
        }
        BOOST_ASSERT(results.size() > 0);
-        return std::make_pair(MakePhantomNode(input_coordinate, results.front()).phantom_node,
+        return std::make_pair(
-                              MakePhantomNode(input_coordinate, results.back()).phantom_node);
+            MakePhantomNode(
                input_coordinate, results.front(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node,
            MakePhantomNode(
                input_coordinate, results.back(), min_stoppage_penalty, max_stoppage_penalty)
                .phantom_node);
    }
  private:
@ -424,8 +466,11 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
        return distance_and_phantoms;
    }
    // TODO: remove stoppage penalty as its not needed here anymore
    PhantomNodeWithDistance MakePhantomNode(const util::Coordinate input_coordinate,
-                                            const EdgeData &data) const
+                                            const EdgeData &data,
                                            const double min_stoppage_penalty = 0,
                                            const double max_stoppage_penalty = 0) const
    {
        util::Coordinate point_on_segment;
        double ratio;
@ -464,16 +509,21 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
                            forward_durations.begin() + data.fwd_segment_position,
                            EdgeDuration{0});
-        EdgeDistance forward_distance_offset = 0;
+        // For measuring distance from begin up to end
-        // Sum up the distance from the start to the fwd_segment_position
+        const auto appx_distance = [this](decltype(forward_geometry.begin()) begin,
-        for (auto current = forward_geometry.begin();
+                                          decltype(forward_geometry.begin()) end) {
-             current < forward_geometry.begin() + data.fwd_segment_position;
+            EdgeDistance dist = 0;
-             ++current)
+            for (; begin != end; ++begin)
            {
-            forward_distance_offset += util::coordinate_calculation::fccApproximateDistance(
+                dist += util::coordinate_calculation::fccApproximateDistance(
-                datafacade.GetCoordinateOfNode(*current),
+                    datafacade.GetCoordinateOfNode(*begin),
-                datafacade.GetCoordinateOfNode(*std::next(current)));
+                    datafacade.GetCoordinateOfNode(*std::next(begin)));
            }
            return dist;
        };
        EdgeDistance forward_distance_offset = appx_distance(
            forward_geometry.begin(), forward_geometry.begin() + data.fwd_segment_position);
        BOOST_ASSERT(data.fwd_segment_position <
                     std::distance(forward_durations.begin(), forward_durations.end()));
@ -494,16 +544,9 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
                            reverse_durations.end() - data.fwd_segment_position - 1,
                            EdgeDuration{0});
-        EdgeDistance reverse_distance_offset = 0;
+        EdgeDistance reverse_distance_offset =
-        // Sum up the distance from just after the fwd_segment_position to the end
+            appx_distance(forward_geometry.begin() + data.fwd_segment_position + 1,
-        for (auto current = forward_geometry.begin() + data.fwd_segment_position + 1;
+                          std::prev(forward_geometry.end()));
             current != std::prev(forward_geometry.end());
             ++current)
        {
            reverse_distance_offset += util::coordinate_calculation::fccApproximateDistance(
                datafacade.GetCoordinateOfNode(*current),
                datafacade.GetCoordinateOfNode(*std::next(current)));
        }
        EdgeWeight reverse_weight =
            reverse_weights[reverse_weights.size() - data.fwd_segment_position - 1];
@ -513,16 +556,43 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
            point_on_segment,
            datafacade.GetCoordinateOfNode(forward_geometry(data.fwd_segment_position + 1)));
        // We may end up adding a stoppage penalty
        double forward_speed = 0;
        double reverse_speed = 0;
        auto total_distance = 0;
        auto penalty_range = max_stoppage_penalty - min_stoppage_penalty;
        ratio = std::min(1.0, std::max(0.0, ratio));
        if (data.forward_segment_id.id != SPECIAL_SEGMENTID)
        {
            forward_weight = static_cast<EdgeWeight>(forward_weight * ratio);
            forward_duration = static_cast<EdgeDuration>(forward_duration * ratio);
            // Stoppage penalty based on speed
            if (data.forward_segment_id.enabled && penalty_range > 0)
            {
                total_distance =
                    appx_distance(forward_geometry.begin(), std::prev(forward_geometry.end()));
                const auto total_duration = std::accumulate(
                    forward_durations.begin(), forward_durations.end(), EdgeDuration{0});
                forward_speed = total_distance / (total_duration * 0.1);
                reverse_speed = forward_speed;
            }
        }
        if (data.reverse_segment_id.id != SPECIAL_SEGMENTID)
        {
            reverse_weight -= static_cast<EdgeWeight>(reverse_weight * ratio);
            reverse_duration -= static_cast<EdgeDuration>(reverse_duration * ratio);
            // Stoppage penalty based on speed
            if (data.reverse_segment_id.enabled && penalty_range > 0)
            {
                if (total_distance == 0)
                    total_distance =
                        appx_distance(forward_geometry.begin(), std::prev(forward_geometry.end()));
                const auto total_duration = std::accumulate(
                    reverse_durations.begin(), reverse_durations.end(), EdgeDuration{0});
                reverse_speed = total_distance / (total_duration * 0.1);
                if (forward_speed == 0)
                    forward_speed = reverse_speed;
            }
        }
        // check phantom node segments validity
@ -553,6 +623,7 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
                        reverse_duration,
                        forward_duration_offset,
                        reverse_duration_offset,
                        static_cast<float>((forward_speed + reverse_speed) / 2.0),
                        is_forward_valid_source,
                        is_forward_valid_target,
                        is_reverse_valid_source,
@ -703,7 +774,7 @@ template <typename RTreeT, typename DataFacadeT> class GeospatialQuery
    const CoordinateList &coordinates;
    DataFacadeT &datafacade;
 };
-}
+} // namespace engine
-}
+} // namespace osrm
 #endif
--- a/include/engine/guidance/assemble_leg.hpp
+++ b/include/engine/guidance/assemble_leg.hpp
@ -122,7 +122,7 @@ std::array<std::uint32_t, SegmentNumber> summarizeRoute(const datafacade::BaseDa
                   [](const NamedSegment &segment) { return segment.name_id; });
    return summary;
 }
-}
+} // namespace detail
 inline RouteLeg assembleLeg(const datafacade::BaseDataFacade &facade,
                            const std::vector<PathData> &route_data,
@ -166,7 +166,7 @@ inline RouteLeg assembleLeg(const datafacade::BaseDataFacade &facade,
    // `forward_duration`: duration of (d,t)
    // `forward_offset`: duration of (c, d)
    // path_data will have entries for (s,b), (b, c), (c, d) but (d, t) is only
-    // caputed by the phantom node. So we need to add the target duration here.
+    // captured by the phantom node. So we need to add the target duration here.
    // On local segments, the target duration is already part of the duration, however.
    duration = duration + target_duration;
@ -182,6 +182,9 @@ inline RouteLeg assembleLeg(const datafacade::BaseDataFacade &facade,
        duration = std::max(0, duration);
    }
    // TODO: Add start and stop penalties to the duration to simulate accel/deceleration
    //
    std::string summary;
    if (needs_summary)
    {
--- a/include/engine/hint.hpp
+++ b/include/engine/hint.hpp
@ -63,11 +63,11 @@ struct Hint
    friend std::ostream &operator<<(std::ostream &, const Hint &);
 };
-static_assert(sizeof(Hint) == 80 + 4, "Hint is bigger than expected");
+static_assert(sizeof(Hint) == sizeof(PhantomNode) + 4, "Hint is bigger than expected");
-constexpr std::size_t ENCODED_HINT_SIZE = 112;
+constexpr std::size_t ENCODED_HINT_SIZE = 120;
 static_assert(ENCODED_HINT_SIZE / 4 * 3 >= sizeof(Hint),
              "ENCODED_HINT_SIZE does not match size of Hint");
-}
+} // namespace engine
-}
+} // namespace osrm
 #endif
--- a/include/engine/phantom_node.hpp
+++ b/include/engine/phantom_node.hpp
@ -44,14 +44,15 @@ namespace engine
 struct PhantomNode
 {
    PhantomNode()
-        : forward_segment_id{SPECIAL_SEGMENTID, false},
+        : forward_segment_id{SPECIAL_SEGMENTID, false}, reverse_segment_id{SPECIAL_SEGMENTID,
-          reverse_segment_id{SPECIAL_SEGMENTID, false}, forward_weight(INVALID_EDGE_WEIGHT),
+                                                                           false},
-          reverse_weight(INVALID_EDGE_WEIGHT), forward_weight_offset(0), reverse_weight_offset(0),
+          forward_weight(INVALID_EDGE_WEIGHT), reverse_weight(INVALID_EDGE_WEIGHT),
          forward_weight_offset(0), reverse_weight_offset(0),
          forward_distance(INVALID_EDGE_DISTANCE), reverse_distance(INVALID_EDGE_DISTANCE),
          forward_distance_offset(0), reverse_distance_offset(0),
          forward_duration(MAXIMAL_EDGE_DURATION), reverse_duration(MAXIMAL_EDGE_DURATION),
-          forward_duration_offset(0), reverse_duration_offset(0), fwd_segment_position(0),
+          forward_duration_offset(0), reverse_duration_offset(0), speed_approximation(0),
-          is_valid_forward_source{false}, is_valid_forward_target{false},
+          fwd_segment_position(0), is_valid_forward_source{false}, is_valid_forward_target{false},
          is_valid_reverse_source{false}, is_valid_reverse_target{false}, bearing(0)
    {
@ -69,13 +70,13 @@ struct PhantomNode
        return reverse_weight_offset + reverse_weight;
    }
-    EdgeWeight GetForwardDuration() const
+    EdgeDuration GetForwardDuration() const
    {
        BOOST_ASSERT(forward_segment_id.enabled);
        return forward_duration + forward_duration_offset;
    }
-    EdgeWeight GetReverseDuration() const
+    EdgeDuration GetReverseDuration() const
    {
        BOOST_ASSERT(reverse_segment_id.enabled);
        return reverse_duration + reverse_duration_offset;
@ -109,7 +110,8 @@ struct PhantomNode
    bool IsValid(const unsigned number_of_nodes) const
    {
-        return location.IsValid() && ((forward_segment_id.id < number_of_nodes) ||
+        return location.IsValid() &&
               ((forward_segment_id.id < number_of_nodes) ||
                (reverse_segment_id.id < number_of_nodes)) &&
               ((forward_weight != INVALID_EDGE_WEIGHT) ||
                (reverse_weight != INVALID_EDGE_WEIGHT)) &&
@ -163,10 +165,11 @@ struct PhantomNode
                         EdgeDistance reverse_distance,
                         EdgeDistance forward_distance_offset,
                         EdgeDistance reverse_distance_offset,
-                         EdgeWeight forward_duration,
+                         EdgeDuration forward_duration,
-                         EdgeWeight reverse_duration,
+                         EdgeDuration reverse_duration,
-                         EdgeWeight forward_duration_offset,
+                         EdgeDuration forward_duration_offset,
-                         EdgeWeight reverse_duration_offset,
+                         EdgeDuration reverse_duration_offset,
                         EdgeDistance speed_approximation,
                         bool is_valid_forward_source,
                         bool is_valid_forward_target,
                         bool is_valid_reverse_source,
@ -182,8 +185,9 @@ struct PhantomNode
          reverse_distance_offset{reverse_distance_offset}, forward_duration{forward_duration},
          reverse_duration{reverse_duration}, forward_duration_offset{forward_duration_offset},
          reverse_duration_offset{reverse_duration_offset},
-          component{component.id, component.is_tiny}, location{location},
+          speed_approximation{speed_approximation}, component{component.id, component.is_tiny},
-          input_location{input_location}, fwd_segment_position{other.fwd_segment_position},
+          location{location}, input_location{input_location},
          fwd_segment_position{other.fwd_segment_position},
          is_valid_forward_source{is_valid_forward_source},
          is_valid_forward_target{is_valid_forward_target},
          is_valid_reverse_source{is_valid_reverse_source},
@ -201,10 +205,12 @@ struct PhantomNode
    EdgeDistance reverse_distance;
    EdgeDistance forward_distance_offset; // TODO: try to remove -> requires path unpacking changes
    EdgeDistance reverse_distance_offset; // TODO: try to remove -> requires path unpacking changes
-    EdgeWeight forward_duration;
+    EdgeDuration forward_duration;
-    EdgeWeight reverse_duration;
+    EdgeDuration reverse_duration;
-    EdgeWeight forward_duration_offset; // TODO: try to remove -> requires path unpacking changes
+    EdgeDuration forward_duration_offset; // TODO: try to remove -> requires path unpacking changes
-    EdgeWeight reverse_duration_offset; // TODO: try to remove -> requires path unpacking changes
+    EdgeDuration reverse_duration_offset; // TODO: try to remove -> requires path unpacking changes
    EdgeDistance speed_approximation;     // m/s
    ComponentID component;
    util::Coordinate location; // this is the coordinate of x
@ -219,7 +225,7 @@ struct PhantomNode
    unsigned short bearing : 12;
 };
-static_assert(sizeof(PhantomNode) == 80, "PhantomNode has more padding then expected");
+static_assert(sizeof(PhantomNode) == 84, "PhantomNode has more padding then expected");
 using PhantomNodePair = std::pair<PhantomNode, PhantomNode>;
@ -234,7 +240,7 @@ struct PhantomNodes
    PhantomNode source_phantom;
    PhantomNode target_phantom;
 };
-}
+} // namespace engine
-}
+} // namespace osrm
 #endif // PHANTOM_NODES_H
--- a/include/engine/plugins/plugin_base.hpp
+++ b/include/engine/plugins/plugin_base.hpp
@ -270,6 +270,7 @@ class BasePlugin
        const bool use_bearings = !parameters.bearings.empty();
        const bool use_radiuses = !parameters.radiuses.empty();
        const bool use_approaches = !parameters.approaches.empty();
        const bool use_all_edges = parameters.snapping == api::BaseParameters::SnappingType::Any;
        BOOST_ASSERT(parameters.IsValid());
        for (const auto i : util::irange<std::size_t>(0UL, parameters.coordinates.size()))
@ -296,7 +297,10 @@ class BasePlugin
                            *parameters.radiuses[i],
                            parameters.bearings[i]->bearing,
                            parameters.bearings[i]->range,
-                            approach);
+                            approach,
                            use_all_edges,
                            parameters.min_stoppage_penalty,
                            parameters.max_stoppage_penalty);
                }
                else
                {
@ -305,7 +309,10 @@ class BasePlugin
                            parameters.coordinates[i],
                            parameters.bearings[i]->bearing,
                            parameters.bearings[i]->range,
-                            approach);
+                            approach,
                            use_all_edges,
                            parameters.min_stoppage_penalty,
                            parameters.max_stoppage_penalty);
                }
            }
            else
@ -314,13 +321,22 @@ class BasePlugin
                {
                    phantom_node_pairs[i] =
                        facade.NearestPhantomNodeWithAlternativeFromBigComponent(
-                            parameters.coordinates[i], *parameters.radiuses[i], approach);
+                            parameters.coordinates[i],
                            *parameters.radiuses[i],
                            approach,
                            use_all_edges,
                            parameters.min_stoppage_penalty,
                            parameters.max_stoppage_penalty);
                }
                else
                {
                    phantom_node_pairs[i] =
                        facade.NearestPhantomNodeWithAlternativeFromBigComponent(
-                            parameters.coordinates[i], approach);
+                            parameters.coordinates[i],
                            approach,
                            use_all_edges,
                            parameters.min_stoppage_penalty,
                            parameters.max_stoppage_penalty);
                }
            }
--- a/include/extractor/speed_profile.hpp
+++ b/include/extractor/speed_profile.hpp
@ -0,0 +1,81 @@
 #include "util/typedefs.h"
 namespace osrm
 {
 namespace extractor
 {
 namespace
 {
 constexpr int 5_MINUTE_BUCKETS_PER_WEEK = 2016;
 constexpr int 1_HOUR_BUCKETS_PER_WEEK = 168;
 } // namespace
 /**
 * Represents a simple piecewise linear function
 * (https://en.wikipedia.org/wiki/Piecewise_linear_function)
 * in the form of a regularly spaced set of buckets.
 * Assumes that the spacing between buckets is equal.
 */
 template <typename DataType, int BUCKETCOUNT> struct PiecewiseLinearFunction
 {
    std::array<DataType, BUCKETCOUNT> sample;
    inline DataType getAt(float position)
    {
        // Range check
        assert(position >= 0);
        assert(position < BUCKETCOUNT - 1);
    }
    PiecewiseLinearFunction<DataType, BUCKETCOUNT>
    merge(PiecewiseLinearFunction<DataType, BUCKETCOUNT> &other, float offset)
    {
        PiecewiseLinearFunction result;
        for (int i = 0; i < BUCKETCOUNT; i++)
        {
            for (int j = offset; j < BUCKETCOUNT + offset; j++)
            {
                result.sample[i] = sample[i] + other.sample[j % BUCKETCOUNT];
            }
        }
        return std::move(result);
    }
 }
 /**
 * Represents variances in the default `.duration` of an edge
 * over the space of a week.
 */
 struct WeeklySpeedProfile
 {
    using Multiplier = std::uint8_t;
  private:
    PiecewiseLinearFunction<Multiplier, 1_HOUR_BUCKETS_PER_WEEK> fn;
  public:
    SpeedProfile() : min(0), max(0) { multipliers.fill(0); }
    SpeedProfile(const std::array<Multiplier, BUCKETS> &other)
    {
        fn.samples = other;
        min = std::min(samples);
        max = std::max(samples);
    }
    inline EdgeDuration adjust(const EdgeDuration &original, const int bucket) const
    {
        // Treat Multiplier as an 8-bit fixed-point value.
        EdgeDuration new_value = (original * multipliers[bucket]);
    }
    inline EdgeDuration min(const EdgeDuration original) const {}
    inline EdgeDuration max(const EdgeDuration original) const {}
    duration = m * e1 + m2 * e2
 };
 } // namespace extractor
 } // namespace osrm
--- a/include/nodejs/node_osrm_support.hpp
+++ b/include/nodejs/node_osrm_support.hpp
@ -692,6 +692,80 @@ inline bool argumentsToParameter(const Nan::FunctionCallbackInfo<v8::Value> &arg
        }
    }
    if (obj->Has(Nan::New("snapping").ToLocalChecked()))
    {
        v8::Local<v8::Value> snapping = obj->Get(Nan::New("snapping").ToLocalChecked());
        if (snapping.IsEmpty())
            return false;
        if (!snapping->IsString())
        {
            Nan::ThrowError("Snapping must be a string: [default, any]");
            return false;
        }
        const Nan::Utf8String snapping_utf8str(snapping);
        std::string snapping_str{*snapping_utf8str, *snapping_utf8str + snapping_utf8str.length()};
        if (snapping_str == "default")
        {
            params->snapping = osrm::RouteParameters::SnappingType::Default;
        }
        else if (snapping_str == "any")
        {
            params->snapping = osrm::RouteParameters::SnappingType::Any;
        }
        else
        {
            Nan::ThrowError("'snapping' param must be one of [default, any]");
            return false;
        }
    }
    if (obj->Has(Nan::New("stoppage_penalty").ToLocalChecked()))
    {
        v8::Local<v8::Value> stoppage_penalty =
            obj->Get(Nan::New("stoppage_penalty").ToLocalChecked());
        if (stoppage_penalty.IsEmpty())
            return false;
        if (!stoppage_penalty->IsArray())
        {
            Nan::ThrowError("Stoppage penalty must be an array of 2 numbers [min,max]");
            return false;
        }
        auto stoppage_penalty_array = v8::Local<v8::Array>::Cast(stoppage_penalty);
        if (stoppage_penalty_array->Length() != 2)
        {
            Nan::ThrowError("Stoppage penalty must be an array of 2 numbers [min,max]");
            return false;
        }
        if (!stoppage_penalty_array->Get(0)->IsNumber() ||
            !stoppage_penalty_array->Get(1)->IsNumber())
        {
            Nan::ThrowError("Stoppage penalty must be an array of 2 numbers [min,max]");
            return false;
        }
        const auto min = static_cast<short>(stoppage_penalty_array->Get(0)->NumberValue());
        const auto max = static_cast<short>(stoppage_penalty_array->Get(1)->NumberValue());
        if (min < 0 || max < 0)
        {
            Nan::ThrowError("Stoppage penalty min/max can't be less than zero");
            return false;
        }
        if (max < min)
        {
            Nan::ThrowError("Stoppage penalty max must be larger than min");
            return false;
        }
        params->max_stoppage_penalty = max;
        params->min_stoppage_penalty = min;
    }
    return true;
 }
--- a/include/server/api/base_parameters_grammar.hpp
+++ b/include/server/api/base_parameters_grammar.hpp
@ -25,7 +25,7 @@ namespace
 {
 namespace ph = boost::phoenix;
 namespace qi = boost::spirit::qi;
-}
+} // namespace
 template <typename T, char... Fmt> struct no_trailing_dot_policy : qi::real_policies<T>
 {
@ -135,6 +135,16 @@ struct BaseParametersGrammar : boost::spirit::qi::grammar<Iterator, Signature>
                                           },
                                           qi::_1)];
        stoppage_rule = qi::lit("stoppage_penalty=") >
                        (qi::double_ > ',' > qi::double_)[ph::bind(
                            [](engine::api::BaseParameters &params, double min, double max) {
                                params.min_stoppage_penalty = min;
                                params.max_stoppage_penalty = max;
                            },
                            qi::_r1,
                            qi::_1,
                            qi::_2)];
        query_rule =
            ((location_rule % ';') | polyline_rule |
             polyline6_rule)[ph::bind(&engine::api::BaseParameters::coordinates, qi::_r1) = qi::_1];
@ -162,6 +172,13 @@ struct BaseParametersGrammar : boost::spirit::qi::grammar<Iterator, Signature>
                        (-approach_type %
                         ';')[ph::bind(&engine::api::BaseParameters::approaches, qi::_r1) = qi::_1];
        snapping_type.add("default", engine::api::BaseParameters::SnappingType::Default)(
            "any", engine::api::BaseParameters::SnappingType::Any);
        snapping_rule =
            qi::lit("snapping=") >
            snapping_type[ph::bind(&engine::api::BaseParameters::snapping, qi::_r1) = qi::_1];
        exclude_rule = qi::lit("exclude=") >
                       (qi::as_string[+qi::char_("a-zA-Z0-9")] %
                        ',')[ph::bind(&engine::api::BaseParameters::exclude, qi::_r1) = qi::_1];
@ -171,7 +188,9 @@ struct BaseParametersGrammar : boost::spirit::qi::grammar<Iterator, Signature>
                    | bearings_rule(qi::_r1)       //
                    | generate_hints_rule(qi::_r1) //
                    | approach_rule(qi::_r1)       //
-                    | exclude_rule(qi::_r1);
+                    | exclude_rule(qi::_r1)        //
                    | snapping_rule(qi::_r1)       //
                    | stoppage_rule(qi::_r1);      //
    }
  protected:
@ -188,6 +207,7 @@ struct BaseParametersGrammar : boost::spirit::qi::grammar<Iterator, Signature>
    qi::rule<Iterator, Signature> generate_hints_rule;
    qi::rule<Iterator, Signature> approach_rule;
    qi::rule<Iterator, Signature> exclude_rule;
    qi::rule<Iterator, Signature> stoppage_rule;
    qi::rule<Iterator, osrm::engine::Bearing()> bearing_rule;
    qi::rule<Iterator, osrm::util::Coordinate()> location_rule;
@ -197,11 +217,13 @@ struct BaseParametersGrammar : boost::spirit::qi::grammar<Iterator, Signature>
    qi::rule<Iterator, unsigned char()> base64_char;
    qi::rule<Iterator, std::string()> polyline_chars;
    qi::rule<Iterator, double()> unlimited_rule;
    qi::rule<Iterator, Signature> snapping_rule;
    qi::symbols<char, engine::Approach> approach_type;
    qi::symbols<char, engine::api::BaseParameters::SnappingType> snapping_type;
 };
-}
+} // namespace api
-}
+} // namespace server
-}
+} // namespace osrm
 #endif
--- a/include/server/api/table_parameter_grammar.hpp
+++ b/include/server/api/table_parameter_grammar.hpp
@ -18,7 +18,7 @@ namespace
 {
 namespace ph = boost::phoenix;
 namespace qi = boost::spirit::qi;
-}
+} // namespace
 template <typename Iterator = std::string::iterator,
          typename Signature = void(engine::api::TableParameters &)>
@ -106,8 +106,8 @@ struct TableParametersGrammar : public BaseParametersGrammar<Iterator, Signature
        fallback_coordinate_type;
    qi::real_parser<double, json_policy> double_;
 };
-}
+} // namespace api
-}
+} // namespace server
-}
+} // namespace osrm
 #endif
--- a/include/util/ieee754.hpp
+++ b/include/util/ieee754.hpp
@ -488,8 +488,8 @@ inline void Prettify(char *buffer, int length, int k)
 inline void dtoa_milo(double value, char *buffer)
 {
    // Not handling NaN and inf
-    assert(!isnan(value));
+    assert(!std::isnan(value));
-    assert(!isinf(value));
+    assert(!std::isinf(value));
    if (value == 0)
    {
--- a/include/util/typedefs.hpp
+++ b/include/util/typedefs.hpp
@ -48,7 +48,7 @@ struct osm_way_id
 struct duplicated_node
 {
 };
-}
+} // namespace tag
 using OSMNodeID = osrm::Alias<std::uint64_t, tag::osm_node_id>;
 static_assert(std::is_pod<OSMNodeID>(), "OSMNodeID is not a valid alias");
 using OSMWayID = osrm::Alias<std::uint64_t, tag::osm_way_id>;
@ -116,7 +116,10 @@ static const EdgeDuration MAXIMAL_EDGE_DURATION = std::numeric_limits<EdgeDurati
 static const EdgeDistance MAXIMAL_EDGE_DISTANCE = std::numeric_limits<EdgeDistance>::max();
 static const TurnPenalty INVALID_TURN_PENALTY = std::numeric_limits<TurnPenalty>::max();
 static const EdgeDistance INVALID_EDGE_DISTANCE = std::numeric_limits<EdgeDistance>::max();
-static const EdgeDistance INVALID_FALLBACK_SPEED = std::numeric_limits<double>::max();
+static const EdgeDistance INVALID_FALLBACK_SPEED = std::numeric_limits<EdgeDistance>::max();
 constexpr EdgeDuration INVALID_MINIMUM_STOPPAGE_PENALTY = std::numeric_limits<EdgeDuration>::max();
 constexpr EdgeDuration INVALID_MAXIMUM_STOPPAGE_PENALTY = std::numeric_limits<EdgeDuration>::max();
 constexpr float MAXIMAL_ACCEL_DECEL_PENALIZABLE_SPEED_INVERSE = 40.f; // seconds/metre
 // FIXME the bitfields we use require a reduced maximal duration, this should be kept consistent
 // within the code base. For now we have to ensure that we don't case 30 bit to -1 and break any
--- a/package.json
+++ b/package.json
@ -1,6 +1,6 @@
 {
  "name": "osrm",
-  "version": "5.21.0",
+  "version": "5.21.0-customsnapping.5",
  "private": false,
  "description": "The Open Source Routing Machine is a high performance routing engine written in C++14 designed to run on OpenStreetMap data.",
  "dependencies": {
--- a/profiles/car.lua
+++ b/profiles/car.lua
@ -120,9 +120,6 @@ function setup()
    -- classes to support for exclude flags
    excludable = Sequence {
        Set {'toll'},
        Set {'motorway'},
        Set {'ferry'}
    },
    avoid = Set {
--- a/src/engine/plugins/table.cpp
+++ b/src/engine/plugins/table.cpp
@ -86,8 +86,10 @@ Status TablePlugin::HandleRequest(const RoutingAlgorithmsInterface &algorithms,
    bool request_distance = params.annotations & api::TableParameters::AnnotationsType::Distance;
    bool request_duration = params.annotations & api::TableParameters::AnnotationsType::Duration;
    constexpr bool always_calculate_distance = true;
    auto result_tables_pair = algorithms.ManyToManySearch(
-        snapped_phantoms, params.sources, params.destinations, request_distance);
+        snapped_phantoms, params.sources, params.destinations, always_calculate_distance);
    if ((request_duration && result_tables_pair.first.empty()) ||
        (request_distance && result_tables_pair.second.empty()))
@ -97,8 +99,61 @@ Status TablePlugin::HandleRequest(const RoutingAlgorithmsInterface &algorithms,
    std::vector<api::TableAPI::TableCellRef> estimated_pairs;
    // Adds some time to adjust for getting up to speed and slowing down to a stop
    // Returns a new `duration`
    auto adjust_for_startstop = [](const double &comfortable_acceleration,
                                   const EdgeDuration &duration,
                                   const EdgeDistance &distance) -> EdgeDuration {
        // Assume linear acceleration from 0 to velocity
        // auto comfortable_acceleration = 1.85; // m/s^2
        // Very short paths can end up with 0 duration.  That'll lead to a divide
        // by zero, so instead, we'll assume the travel speed is 10m/s (36km/h).
        // Typically, the distance is also short, so we're quibbling at tiny numbers
        // here, but tiny numbers is what this adjustment lambda is all about,
        // so we do try to be reasonable.
        const auto average_speed =
            duration == 0 ? 10 : distance /
                                     (duration / 10.); // duration is in deciseconds, we need m/sec
        // Using the equations of motion as a simple approximation, assuming constant acceleration
        // https://en.wikipedia.org/wiki/Equations_of_motion#Constant_translational_acceleration_in_a_straight_line
        const auto distance_to_full_speed =
            (average_speed * average_speed) / (2 * comfortable_acceleration);
        /*
                std::cout << "Comfortable accel is " << comfortable_acceleration << std::endl;
                std::cout << "Average speed is " << average_speed << " duration is " << duration
                          << std::endl;
                std::cout << "Distance is " << distance << " distance to full speed is "
                          << distance_to_full_speed << std::endl;
                          */
        if (distance_to_full_speed > distance / 2)
        {
            // std::cout << "Distance was too short, so only using half" << std::endl;
            const auto time_to_halfway = std::sqrt(distance / comfortable_acceleration);
            return (2 * time_to_halfway) * 10; // result is in deciseconds
        }
        else
        {
            // std::cout << "Distance was long, using cruising speed" << std::endl;
            const auto cruising_distance = distance - 2 * distance_to_full_speed;
            const auto cruising_time = cruising_distance / average_speed;
            const auto acceleration_time = average_speed / comfortable_acceleration;
            // std::cout << "Cruising distance is " << cruising_distance << std::endl;
            // std::cout << "Cruising time is " << cruising_time << std::endl;
            // std::cout << "Acceleration time is " << acceleration_time << std::endl;
            return (cruising_time + 2 * acceleration_time) * 10; // result is in deciseconds
        }
    };
    // Scan table for null results - if any exist, replace with distance estimates
-    if (params.fallback_speed != INVALID_FALLBACK_SPEED || params.scale_factor != 1)
+    if (params.fallback_speed != INVALID_FALLBACK_SPEED || params.scale_factor != 1 ||
        (params.min_stoppage_penalty != INVALID_MINIMUM_STOPPAGE_PENALTY &&
         params.max_stoppage_penalty != INVALID_MAXIMUM_STOPPAGE_PENALTY))
    {
        for (std::size_t row = 0; row < num_sources; row++)
        {
@ -106,6 +161,22 @@ Status TablePlugin::HandleRequest(const RoutingAlgorithmsInterface &algorithms,
            {
                const auto &table_index = row * num_destinations + column;
                BOOST_ASSERT(table_index < result_tables_pair.first.size());
                // apply an accel/deceleration penalty to the duration
                if (result_tables_pair.first[table_index] != MAXIMAL_EDGE_DURATION && row != column)
                {
                    /*
                    const auto &source =
                        snapped_phantoms[params.sources.empty() ? row : params.sources[row]];
                    const auto &destination =
                        snapped_phantoms[params.destinations.empty() ? column
                                                                     : params.destinations[column]];
                    */
                    result_tables_pair.first[table_index] =
                        adjust_for_startstop(params.min_stoppage_penalty,
                                             result_tables_pair.first[table_index],
                                             result_tables_pair.second[table_index]);
                }
                // Estimate null results based on fallback_speed (if valid) and distance
                if (params.fallback_speed != INVALID_FALLBACK_SPEED && params.fallback_speed > 0 &&
                    result_tables_pair.first[table_index] == MAXIMAL_EDGE_DURATION)
                {
@ -132,6 +203,7 @@ Status TablePlugin::HandleRequest(const RoutingAlgorithmsInterface &algorithms,
                    estimated_pairs.emplace_back(row, column);
                }
                // Apply a scale factor to non-null result if requested
                if (params.scale_factor > 0 && params.scale_factor != 1 &&
                    result_tables_pair.first[table_index] != MAXIMAL_EDGE_DURATION &&
                    result_tables_pair.first[table_index] != 0)
@ -153,11 +225,19 @@ Status TablePlugin::HandleRequest(const RoutingAlgorithmsInterface &algorithms,
        }
    }
    // If distances weren't requested, delete them from the result so they don't
    // get rendered.
    if (!request_distance)
    {
        std::vector<EdgeDistance> empty;
        result_tables_pair.second.swap(empty);
    }
    api::TableAPI table_api{facade, params};
    table_api.MakeResponse(result_tables_pair, snapped_phantoms, estimated_pairs, result);
    return Status::Ok;
 }
-}
+} // namespace plugins
-}
+} // namespace engine
-}
+} // namespace osrm
--- a/test/nodejs/route.js
+++ b/test/nodejs/route.js
@ -606,3 +606,23 @@ test('route: route in Monaco without motorways', function(assert) {
    });
 });
 test('route: throws on invalid snapping values', function (assert) {
    assert.plan(1);
    var osrm = new OSRM(monaco_path);
    var options = {
        steps: true,
        coordinates: three_test_coordinates.concat(three_test_coordinates),
        snapping: "zing"
    };
    assert.throws(function () { osrm.route(options, function (err, response) { console.error(`response: ${response}`); console.error(`error: ${err}`); }); },
        /'snapping' param must be one of \[default, any\]/);
 });
 test('route: snapping parameter passed through OK', function(assert) {
    assert.plan(2);
    var osrm = new OSRM(monaco_path);
    osrm.route({snapping: "any", coordinates: [[7.448205209414596,43.754001097311544],[7.447122039202185,43.75306156811368]]}, function(err, route) {
        assert.ifError(err);
        assert.equal(Math.round(route.routes[0].distance * 10), 1314); // Round it to nearest 0.1m to eliminate floating point comparison error
    });
 });
--- a/test/nodejs/table.js
+++ b/test/nodejs/table.js
@ -48,6 +48,21 @@ test('table: test annotations paramater combination', function(assert) {
    });
 });
 test('table: snapping parameter passed through OK', function(assert) {
    assert.plan(2);
    var osrm = new OSRM(data_path);
    var options = {
        coordinates: [[7.448205209414596,43.754001097311544],[7.447122039202185,43.75306156811368]],
        annotations: ['duration', 'distance'],
        snapping: 'any'
    };
    console.log(options);
    osrm.table(options, function(err, result) {
        assert.ifError(err);
        assert.equal(Math.round(result.distances[0][1] * 10), 1315); // Round it to nearest 0.1m to eliminate floating point comparison error
    });
 });
 test('table: returns buffer', function(assert) {
    assert.plan(3);
    var osrm = new OSRM(data_path);
@ -303,5 +318,33 @@ tables.forEach(function(annotation) {
        assert.throws(()=>osrm.table(options, (err, res) => {}), /scale_factor must be > 0/, "should throw on invalid scale_factor value");
    });
    test('table: ' + annotation + ' table in Monaco with stoppage_penalty values', function(assert) {
        assert.plan(6);
        var osrm = new OSRM({path: mld_data_path, algorithm: 'MLD'});
        var options = {
            coordinates: two_test_coordinates,
            annotations: [annotation.slice(0,-1)],
            stoppage_penalty: [],
        };
        assert.throws(()=>osrm.table(options, (err, res) => {}), /Stoppage penalty must be an array of 2 numbers/, "should throw on empty array");
        options.stoppage_penalty = ['a',1];
        assert.throws(()=>osrm.table(options, (err, res) => {}), /Stoppage penalty must be an array of 2 numbers/, "should throw on non-numeric value");
        options.stoppage_penalty = [1,2,3];
        assert.throws(()=>osrm.table(options, (err, res) => {}), /Stoppage penalty must be an array of 2 numbers/, "should throw on too many values");
        options.stoppage_penalty = [1];
        assert.throws(()=>osrm.table(options, (err, res) => {}), /Stoppage penalty must be an array of 2 numbers/, "should throw on not enough values");
        options.stoppage_penalty = [2,1];
        assert.throws(()=>osrm.table(options, (err, res) => {}), /Stoppage penalty max must be larger than min/, "should throw on max < min");
        options.stoppage_penalty = [-1,2];
        assert.throws(()=>osrm.table(options, (err, res) => {}), /Stoppage penalty min\/max can't be less than zero/, "should throw on negative value");
    });
 });
--- a/unit_tests/engine/offline_facade.cpp
+++ b/unit_tests/engine/offline_facade.cpp
@ -282,36 +282,48 @@ class ContiguousInternalMemoryDataFacade<routing_algorithms::offline::Algorithm>
        return {};
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate /*input_coordinate*/,
+        const util::Coordinate /*input_coordinate*/,
-                                                      const Approach /*approach*/) const override
+        const Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate /*input_coordinate*/,
+        const util::Coordinate /*input_coordinate*/,
        const double /*max_distance*/,
-                                                      const Approach /*approach*/) const override
+        const Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate /*input_coordinate*/,
+        const util::Coordinate /*input_coordinate*/,
        const double /*max_distance*/,
        const int /*bearing*/,
        const int /*bearing_range*/,
-                                                      const Approach /*approach*/) const override
+        const Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
-    std::pair<PhantomNode, PhantomNode>
+    std::pair<PhantomNode, PhantomNode> NearestPhantomNodeWithAlternativeFromBigComponent(
-    NearestPhantomNodeWithAlternativeFromBigComponent(const util::Coordinate /*input_coordinate*/,
+        const util::Coordinate /*input_coordinate*/,
        const int /*bearing*/,
        const int /*bearing_range*/,
-                                                      const Approach /*approach*/) const override
+        const Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
--- a/unit_tests/mocks/mock_datafacade.hpp
+++ b/unit_tests/mocks/mock_datafacade.hpp
@ -169,7 +169,10 @@ class MockBaseDataFacade : public engine::datafacade::BaseDataFacade
    std::pair<engine::PhantomNode, engine::PhantomNode>
    NearestPhantomNodeWithAlternativeFromBigComponent(
        const util::Coordinate /*input_coordinate*/,
-        const engine::Approach /*approach*/) const override
+        const engine::Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
@ -178,7 +181,10 @@ class MockBaseDataFacade : public engine::datafacade::BaseDataFacade
    NearestPhantomNodeWithAlternativeFromBigComponent(
        const util::Coordinate /*input_coordinate*/,
        const double /*max_distance*/,
-        const engine::Approach /*approach*/) const override
+        const engine::Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
@ -189,7 +195,10 @@ class MockBaseDataFacade : public engine::datafacade::BaseDataFacade
        const double /*max_distance*/,
        const int /*bearing*/,
        const int /*bearing_range*/,
-        const engine::Approach /*approach*/) const override
+        const engine::Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
@ -199,7 +208,10 @@ class MockBaseDataFacade : public engine::datafacade::BaseDataFacade
        const util::Coordinate /*input_coordinate*/,
        const int /*bearing*/,
        const int /*bearing_range*/,
-        const engine::Approach /*approach*/) const override
+        const engine::Approach /*approach*/,
        const bool /* use_all_edges */,
        const double /* min_stoppage_penalty */,
        const double /* max_stoppage_penalty */) const override
    {
        return {};
    }
Author	SHA1	Message	Date
Daniel Patterson	210908dbe6	Bump new test release.	2019-02-09 02:42:38 -08:00
Daniel Patterson	6b9006f6e7	Add a bunch of tests at different scales. Switch to using linear acceleration estimates to add penalties to start/end of trips.	2019-02-09 02:31:36 -08:00
Kevin Kreiser	ca55521c87	change phantom node to store an appx speed regardless of direction. use this speed to estimate an accel/decel penalty and scale the penalty based on the distance traveled up to a cutoff. only used in the table plugin at the moment. TODO still lives in the guidance assemble_leg area	2019-02-09 02:31:26 -08:00
Daniel Patterson	67e99c9809	Fix swapped variables, new version.	2019-02-08 15:50:33 -08:00
Kevin Kreiser	05647adcc6	Add stoppage penalty - consider acceleration and braking time, which can dominate short route ETAs.	2019-02-08 15:32:26 -08:00
Daniel Patterson	6c37b71046	Actually expose snapping in node bindings.	2019-02-03 12:09:24 -08:00
Daniel Patterson	cb2a46b8d9	Merge changes from `c1eda57c13` - add snapping=any\|default parameter.	2019-02-03 10:40:26 -08:00