use ezu_features::ops::boundary::polygon_boundary;
use ezu_graph::{
schema_frag, take_input_ref, BuiltNode, Connection, CoordSpace, EvalCtx, EvalError, FactoryCtx,
FactoryError, Node, NodeFactory, PortKind, PortSpec, PortValue,
};
use serde_json::Value;
use xxhash_rust::xxh3::Xxh3;
use crate::nodes::common::{downcast_features, features_value};
struct BoundaryNode;
impl Node for BoundaryNode {
fn op_name(&self) -> &'static str {
"boundary"
}
fn inputs(&self) -> &[PortSpec] {
static SPECS: &[PortSpec] = &[PortSpec {
name: "features",
accepts: &[PortKind::Features],
optional: false,
}];
SPECS
}
fn output(&self, _input_kinds: &[Option<PortKind>]) -> PortKind {
PortKind::Features
}
fn coord_space(&self) -> CoordSpace {
CoordSpace::Tile
}
fn eval(
&self,
_ctx: &EvalCtx<'_>,
inputs: &[Option<PortValue>],
) -> Result<PortValue, EvalError> {
let feats = downcast_features(
inputs[0]
.as_ref()
.ok_or_else(|| EvalError::MissingInput("features".into()))?,
)?;
let mut lines = feats.lines.clone();
for p in &feats.polygons {
lines.extend(polygon_boundary(p));
}
Ok(features_value(
feats.extent,
vec![],
lines,
feats.points.clone(),
))
}
fn param_hash(&self, h: &mut Xxh3) {
h.update(b"boundary");
}
}
pub(super) struct BoundaryFactory;
impl NodeFactory for BoundaryFactory {
fn op_name(&self) -> &'static str {
"boundary"
}
fn build(
&self,
fields: &serde_json::Map<String, Value>,
_ctx: &FactoryCtx<'_>,
) -> Result<BuiltNode, FactoryError> {
let features = take_input_ref(fields, "features")?;
Ok(BuiltNode {
node: Box::new(BoundaryNode),
connections: vec![Connection {
port: "features".into(),
src: features,
}],
})
}
fn schema(&self) -> Value {
serde_json::json!({
"description": "Convert each polygon to its boundary rings (exterior + holes) as polylines. Existing polylines and points pass through.",
"properties": {
"features": schema_frag::node_ref(),
},
"required": ["features"],
})
}
}
ezu_graph::submit_node!(BoundaryFactory);