fixed the broken FMI file parser

grids/grid_3x3.fmi

@@ -0,0 +1,25 @@
+7
+16
+0 -90 180
+1 -90 -60.00000000000001
+2 -90 59.999999999999986
+3 -30.000000000000004 180
+4 -30.000000000000004 59.999999999999986
+5 29.999999999999993 180
+6 29.999999999999993 -60.00000000000001
+0 2 0
+0 1 0
+0 3 6671695
+1 0 0
+1 2 0
+2 1 0
+2 0 0
+2 4 6671695
+3 4 10806007
+3 5 6671695
+3 0 6671695
+4 3 10806007
+4 2 6671695
+5 6 10806007
+5 3 6671695
+6 5 10806007

routes/10x10_1.json

@@ -0,0 +1 @@
+[{"source":51,"destination":11}]

routes/3x3_1.json

@@ -0,0 +1 @@
+[{"source":2,"destination":5}]

src/bin/generate_grid.rs

@@ -15,6 +15,15 @@ struct Args {
     /// the output file to write the grid to
     #[clap(short, long)]
     output: String,
+
+
+    /// the latitude resolution
+    #[clap(short, long)]
+    lat: usize,
+
+    /// the longitude resolution
+    #[clap(short, long)]
+    lon: usize,
 }
 
 fn main() {
@@ -47,7 +56,7 @@ fn main() {
 
     println!("{:?}", coasts.polygons[0].bbox);
 
-    let grid = GridGraph::generate_regular_grid(10, 10, Some(&coasts));
+    let grid = GridGraph::generate_regular_grid(args.lat, args.lon, Some(&coasts));
     // let grid = GridGraph::generate_regular_grid(3, 4, None);
 
     match grid.write_fmi_file(output) {

src/bin/performance.rs

@@ -93,7 +93,7 @@ fn main() {
             let source = astar.graph.nodes[query.source];
             let destination = astar.graph.nodes[query.destination];
 
-            let _result = astar.shortest_path(&source, &destination, estimate_haversine);
+            let _result = astar.shortest_path(&source, &destination, estimate_latitude);
         }
 
         let elapsed = start.elapsed();
@@ -109,13 +109,13 @@ fn main() {
         let start = Instant::now();
 
         for query in targets.iter() {
-            println!("working on {:?}", query);
+            // println!("working on {:?}", query);
             let source = astar.graph.nodes[query.source];
             let destination = astar.graph.nodes[query.destination];
 
             let result = astar.graph.shortest_path(&source, &destination);
 
-            println!("{}", result.unwrap().to_geojson());
+            //println!("{}", result.unwrap().to_geojson());
         }
 
         let elapsed = start.elapsed();

src/gridgraph.rs

@@ -1,16 +1,16 @@
 use crate::coordinates::{DegreeCoordinate, RadianCoordinate};
 use crate::polygonset::PolygonSet;
+use crate::utils::EARTH_RADIUS;
 use geojson::{Feature, FeatureCollection, Geometry, Position, Value};
+use rand::seq::SliceRandom;
 use serde::ser::{SerializeStruct, Serializer};
+use serde::{Deserialize, Serialize};
 use std::cmp::Ordering;
 use std::collections::{BinaryHeap, HashMap};
 use std::f64::consts::{FRAC_PI_2, PI, TAU};
 use std::fs::File;
 use std::io::{BufRead, BufReader, Write};
 use std::vec::Vec;
-use crate::utils::EARTH_RADIUS;
-use rand::seq::SliceRandom;
-use serde::{Serialize, Deserialize};
 
 /// Type for all edge costs
 /// Allows for easy adjustments for bigger/smaller number types if that is
@@ -134,8 +134,6 @@ impl Route {
 }
 
 impl GridGraph {
-
-
     /// selects a single random graph node.
     pub fn get_random_node(&self) -> Option<&GraphNode> {
         let mut rng = rand::thread_rng();
@@ -143,14 +141,11 @@ impl GridGraph {
         self.nodes.choose(&mut rng)
     }
 
-
     /// selects up to `amount` random but distinct nodes from the graph.
-    pub fn get_random_nodes(&self, amount: usize) ->  Vec<&GraphNode>{
-
+    pub fn get_random_nodes(&self, amount: usize) -> Vec<&GraphNode> {
         let mut rng = rand::thread_rng();
 
         self.nodes.choose_multiple(&mut rng, amount).collect()
-
     }
 
     /// calculates the shortest path from the start node to the end node.
@@ -169,7 +164,10 @@ impl GridGraph {
             // inverted cmp function, such that the Max-Heap provided by Rust
             // can be used as a Min-Heap
             fn cmp(&self, other: &Self) -> Ordering {
-                other.cost.cmp(&self.cost).then_with(|| self.index.cmp(&other.index))
+                other
+                    .cost
+                    .cmp(&self.cost)
+                    .then_with(|| self.index.cmp(&other.index))
             }
         }
 
@@ -190,11 +188,7 @@ impl GridGraph {
 
         let mut popcount = 0;
 
-        while let Some(DijkstraElement {
-            index,
-            cost,
-        }) = heap.pop()
-        {
+        while let Some(DijkstraElement { index, cost }) = heap.pop() {
             popcount += 1;
 
             if index == end.index {
@@ -209,7 +203,7 @@ impl GridGraph {
                 continue;
             };
 
-            // println!("working on node {} with cost {}", index, cost);
+            //println!("working on node {} with cost {}", index, cost);
 
             let edge_start = self.edge_offsets[index as usize] as usize;
             let edge_end = self.edge_offsets[(index + 1) as usize] as usize;
@@ -218,7 +212,7 @@ impl GridGraph {
                 let new_cost = cost + edge.cost;
 
                 if new_cost < distance[edge.neighbor as usize] {
-                    // println!("found cheaper edge {:?} with cost {} than previous best {}", edge, new_cost, distance[edge.neighbor as usize]);
+                    //println!("found cheaper edge {:?} with cost {} than previous best {}", edge, new_cost, distance[edge.neighbor as usize]);
                     distance[edge.neighbor as usize] = new_cost;
                     ancestor[edge.neighbor as usize] = Some(index);
                     //println!("adding new element to heap");
@@ -227,7 +221,7 @@ impl GridGraph {
                         cost: new_cost,
                     });
                 } else {
-                    // println!("edge {:?} is more expensive ({}) than the previous best {}", edge, new_cost, distance[edge.neighbor as usize]);
+                    //println!("edge {:?} is more expensive ({}) than the previous best {}", edge, new_cost, distance[edge.neighbor as usize]);
                 }
             }
         }
@@ -305,7 +299,7 @@ impl GridGraph {
         let mut node_count: u32 = 0;
         let mut edge_count: u32 = 0;
 
-        let mut nodes: HashMap<u32, GraphNode> = HashMap::new();
+        let mut node_map: HashMap<u32, u32> = HashMap::new();
         let mut edges: HashMap<u32, Vec<TemporaryGraphEdge>> = HashMap::new();
 
         enum ParserState {
@@ -316,6 +310,7 @@ impl GridGraph {
             Done,
         }
 
+        #[derive(Debug)]
         struct TemporaryGraphEdge {
             src: u32,
             dst: u32,
@@ -388,25 +383,46 @@ impl GridGraph {
             match state {
                 ParserState::NodeCount => {
                     total_node_count = parse_int(line)?;
+                    println!("found node count: {}", total_node_count);
                     state = ParserState::EdgeCount {};
                 }
                 ParserState::EdgeCount => {
                     total_edge_count = parse_int(line)?;
+                    println!("found edge count: {}", total_edge_count);
                     state = ParserState::Nodes {};
                 }
                 ParserState::Nodes => {
-                    let node = parse_node(line)?;
-                    nodes.entry(node.index).or_insert(node);
+                    let mut node = parse_node(line)?;
+                    // println!("parsed node: {:?}", node);
                     node_count += 1;
+
+                    let new_index = gridgraph.nodes.len() as u32;
+
+                    node_map.insert(node.index, new_index);
+                    node.index = new_index;
+
+                    gridgraph.nodes.push(node);
+
                     if node_count == total_node_count {
+                        println!("done parsing nodes: {} nodes parsed", node_count);
                         state = ParserState::Edges {};
                     }
                 }
                 ParserState::Edges => {
-                    let edge = parse_edge(line)?;
-                    edges.entry(edge.src).or_default().push(edge);
+                    let mut edge = parse_edge(line)?;
+                    // println!("parsed edge: {:?}", edge);
                     edge_count += 1;
+
+                    let src = edge.src;
+                    let dst = edge.dst;
+
+                    edge.src = node_map[&src];
+                    edge.dst = node_map[&dst];
+
+                    edges.entry(edge.src).or_default().push(edge);
+
                     if edge_count == total_edge_count {
+                        println!("done parsing edges: {} edges parsed", edge_count);
                         state = ParserState::Done;
                     }
                 }
@@ -423,31 +439,22 @@ impl GridGraph {
             return Err(FmiParsingError::WrongEdgeAmount);
         }
 
-        // add the nodes to the gridgraph
-        for (_, mut item) in nodes.iter_mut() {
-            item.index = gridgraph.nodes.len() as u32;
-            gridgraph.nodes.push(item.clone());
-        }
+        // println!("{:?}", gridgraph);
 
         // add the edges
         gridgraph.edge_offsets.push(0);
-        for index in nodes.keys() {
-            for edge in edges.entry(*index).or_default() {
-                if !nodes.contains_key(&edge.dst) {
-                    println!(
-                        "An edge refers to the non-existing destination node {} skipping.",
-                        edge.dst
-                    );
-                    continue;
-                }
-                let dst_index = nodes[&edge.dst].index;
+        for index in 0..gridgraph.nodes.len() {
+            //println!("working on the edges for node {}", index);
+            for edge in edges.entry(index as u32).or_default() {
+                //println!("working on edge {:?}", edge);
                 gridgraph.edges.push(GraphEdge {
                     cost: edge.cost,
-                    neighbor: dst_index,
+                    neighbor: edge.dst,
                 });
             }
             gridgraph.edge_offsets.push(gridgraph.edges.len());
         }
+        // println!("{:?}", gridgraph);
 
         gridgraph.lookup_grid = LookupGrid::new(100, 100, &gridgraph.nodes);
 
@@ -485,7 +492,6 @@ impl GridGraph {
         lon_resolution: usize,
         polygons: Option<&PolygonSet>,
     ) -> Box<GridGraph> {
-        
         #[derive(Debug)]
         struct TemporaryGraphNode {
             final_index: u32,
@@ -518,7 +524,11 @@ impl GridGraph {
                 Some(self.lon_index + (self.lat_index - 1) * lon_resolution)
             }
 
-            pub fn top_neighbor_index(&self, lat_resolution: usize, lon_resolution: usize) -> Option<usize> {
+            pub fn top_neighbor_index(
+                &self,
+                lat_resolution: usize,
+                lon_resolution: usize,
+            ) -> Option<usize> {
                 if self.lat_index >= lat_resolution - 1 {
                     return None;
                 };
@@ -572,7 +582,6 @@ impl GridGraph {
 
         // add all edges to the final graph
         for node in temp_nodes.iter() {
-
             println!("working on edges for node {:?}", node);
             if !node.used {
                 continue;