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Zero-Copy reading and writing of geospatial data.

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GeoZero

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Zero-Copy reading and writing of geospatial data.

GeoZero defines an API for reading geospatial data formats without an intermediate representation. It defines traits which can be implemented to read and convert to an arbitrary format or render geometries directly.

Supported geometry types:

Supported dimensions: X, Y, Z, M, T

Available implementations

Format Read Write Notes
GeoJSON âś… âś…
GEOS âś… âś…
GDAL âś… âś…
WKB âś… âś… Supports PostGIS geometries for rust-postgres, SQLx and Diesel. And also supports GeoPackage geometries for SQLx.
WKT âś… âś…
CSV âś… âś…
SVG ❌ ✅
geo-types âś… âś…
MVT (Mapbox Vector Tiles) âś… âś…
GPX ✅ ❌
Shapefile ✅ ❌
FlatGeobuf ✅ ❌ Available via the flatgeobuf crate.
GeoArrow âś… âś… Available via the geoarrow crate.
GeoParquet âś… âś… Available via the geoarrow crate.

Conversion API

Convert a GeoJSON polygon to geo-types and calculate centroid:

let geojson = GeoJson(r#"{"type": "Polygon", "coordinates": [[[0, 0], [10, 0], [10, 6], [0, 6], [0, 0]]]}"#);
if let Ok(Geometry::Polygon(poly)) = geojson.to_geo() {
    assert_eq!(poly.centroid().unwrap(), Point::new(5.0, 3.0));
}

Full source code: geo_types.rs

Convert GeoJSON to a GEOS prepared geometry:

let geojson = GeoJson(r#"{"type": "Polygon", "coordinates": [[[0, 0], [10, 0], [10, 6], [0, 6], [0, 0]]]}"#);
let geom = geojson.to_geos().expect("GEOS conversion failed");
let prepared_geom = geom.to_prepared_geom().expect("to_prepared_geom failed");
let geom2 = geos::Geometry::new_from_wkt("POINT (2.5 2.5)").expect("Invalid geometry");
assert_eq!(prepared_geom.contains(&geom2), Ok(true));

Full source code: geos.rs

Read FlatGeobuf subset as GeoJSON:

let mut file = BufReader::new(File::open("countries.fgb")?);
let mut fgb = FgbReader::open(&mut file)?.select_bbox(8.8, 47.2, 9.5, 55.3)?;
println!("{}", fgb.to_json()?);

Full source code: geojson.rs

PostGIS usage examples

Select and insert geo-types geometries with rust-postgres. Requires the with-postgis-postgres feature:

let mut client = Client::connect(&std::env::var("DATABASE_URL").unwrap(), NoTls)?;

let row = client.query_one(
    "SELECT 'SRID=4326;POLYGON ((0 0, 2 0, 2 2, 0 2, 0 0))'::geometry",
    &[],
)?;

let value: wkb::Decode<geo_types::Geometry<f64>> = row.get(0);
if let Some(geo_types::Geometry::Polygon(poly)) = value.geometry {
    assert_eq!(
        *poly.exterior(),
        vec![(0.0, 0.0), (2.0, 0.0), (2.0, 2.0), (0.0, 2.0), (0.0, 0.0)].into()
    );
}

// Insert geometry
let geom: geo_types::Geometry<f64> = geo::Point::new(1.0, 3.0).into();
let _ = client.execute(
    "INSERT INTO point2d (datetimefield,geom) VALUES(now(),ST_SetSRID($1,4326))",
    &[&wkb::Encode(geom)],
);

Select and insert geo-types geometries with SQLx. Requires the with-postgis-sqlx feature:

let pool = PgPoolOptions::new()
    .max_connections(5)
    .connect(&env::var("DATABASE_URL").unwrap())
    .await?;

let row: (wkb::Decode<geo_types::Geometry<f64>>,) =
    sqlx::query_as("SELECT 'SRID=4326;POLYGON ((0 0, 2 0, 2 2, 0 2, 0 0))'::geometry")
        .fetch_one(&pool)
        .await?;
let value = row.0;
if let Some(geo_types::Geometry::Polygon(poly)) = value.geometry {
    assert_eq!(
        *poly.exterior(),
        vec![(0.0, 0.0), (2.0, 0.0), (2.0, 2.0), (0.0, 2.0), (0.0, 0.0)].into()
    );
}

// Insert geometry
let geom: geo_types::Geometry<f64> = geo::Point::new(10.0, 20.0).into();
let _ = sqlx::query(
    "INSERT INTO point2d (datetimefield,geom) VALUES(now(),ST_SetSRID($1,4326))",
)
.bind(wkb::Encode(geom))
.execute(&pool)
.await?;

Using compile-time verification requires type overrides:

let _ = sqlx::query!(
    "INSERT INTO point2d (datetimefield, geom) VALUES(now(), $1::geometry)",
    wkb::Encode(geom) as _
)
.execute(&pool)
.await?;

struct PointRec {
    pub geom: wkb::Decode<geo_types::Geometry<f64>>,
    pub datetimefield: Option<OffsetDateTime>,
}
let rec = sqlx::query_as!(
    PointRec,
    r#"SELECT datetimefield, geom as "geom!: _" FROM point2d"#
)
.fetch_one(&pool)
.await?;
assert_eq!(
    rec.geom.geometry.unwrap(),
    geo::Point::new(10.0, 20.0).into()
);

Full source code: postgis.rs

Processing API

Count vertices of an input geometry:

struct VertexCounter(u64);

impl GeomProcessor for VertexCounter {
    fn xy(&mut self, _x: f64, _y: f64, _idx: usize) -> Result<()> {
        self.0 += 1;
        Ok(())
    }
}

let mut vertex_counter = VertexCounter(0);
geometry.process(&mut vertex_counter, GeometryType::MultiPolygon)?;

Full source code: geozero-api.rs

Find maximal height in 3D points:

struct MaxHeightFinder(f64);

impl GeomProcessor for MaxHeightFinder {
    fn coordinate(&mut self, _x: f64, _y: f64, z: Option<f64>, _m: Option<f64>, _t: Option<f64>, _tm: Option<u64>, _idx: usize) -> Result<()> {
        if let Some(z) = z {
            if z > self.0 {
                self.0 = z
            }
        }
        Ok(())
    }
}

let mut max_finder = MaxHeightFinder(0.0);
points.process_geom(&mut max_finder)?;
assert_eq!(max_finder.0, 457.1);

Full source code: geozero-api.rs

Render polygons:

struct PathDrawer<'a> {
    canvas: &'a mut CanvasRenderingContext2D,
    path: Path2D,
}

impl<'a> GeomProcessor for PathDrawer<'a> {
    fn xy(&mut self, x: f64, y: f64, idx: usize) -> Result<()> {
        if idx == 0 {
            self.path.move_to(vec2f(x, y));
        } else {
            self.path.line_to(vec2f(x, y));
        }
        Ok(())
    }
    fn linestring_end(&mut self, _tagged: bool, _idx: usize) -> Result<()> {
        self.path.close_path();
        self.canvas.fill_path(
            mem::replace(&mut self.path, Path2D::new()),
            FillRule::Winding,
        );
        Ok(())
    }
}

Full source code: flatgeobuf-gpu

Read a FlatGeobuf dataset with async HTTP client applying a bbox filter and convert to GeoJSON:

let url = "https://flatgeobuf.org/test/data/countries.fgb";
let mut fgb = HttpFgbReader::open(url)
    .await?
    .select_bbox(8.8, 47.2, 9.5, 55.3)
    .await?;

let mut fout = BufWriter::new(File::create("countries.json")?);
let mut json = GeoJsonWriter::new(&mut fout);
fgb.process_features(&mut json).await?;

Full source code: geojson.rs

Create a KD-tree index with kdbush:

struct PointIndex {
    pos: usize,
    index: KDBush,
}

impl geozero::GeomProcessor for PointIndex {
    fn xy(&mut self, x: f64, y: f64, _idx: usize) -> Result<()> {
        self.index.add_point(self.pos, x, y);
        self.pos += 1;
        Ok(())
    }
}

let mut points = PointIndex {
    pos: 0,
    index: KDBush::new(1249, DEFAULT_NODE_SIZE),
};
read_geojson_geom(&mut f, &mut points)?;
points.index.build_index();

Full source code: kdbush.rs

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Zero-Copy reading and writing of geospatial data.

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