src/tools/rust-analyzer/crates/ide/src/view_crate_graph.rs - toolchain/rustc - Git at Google

 use dot::{Id, LabelText};
 use ide_db::{
     base_db::{CrateGraph, CrateId, Dependency, SourceDatabase, SourceDatabaseExt},
     FxHashSet, RootDatabase,
 };
 use triomphe::Arc;

 // Feature: View Crate Graph
 //
 // Renders the currently loaded crate graph as an SVG graphic. Requires the `dot` tool, which
 // is part of graphviz, to be installed.
 //
 // Only workspace crates are included, no crates.io dependencies or sysroot crates.
 //
 // |===
 // | Editor  | Action Name
 //
 // | VS Code | **rust-analyzer: View Crate Graph**
 // |===
 pub(crate) fn view_crate_graph(db: &RootDatabase, full: bool) -> Result<String, String> {
     let crate_graph = db.crate_graph();
     let crates_to_render = crate_graph
         .iter()
         .filter(|krate| {
             if full {
                 true
             } else {
                 // Only render workspace crates
                 let root_id = db.file_source_root(crate_graph[*krate].root_file_id);
                 !db.source_root(root_id).is_library
             }
         })
         .collect();
     let graph = DotCrateGraph { graph: crate_graph, crates_to_render };

     let mut dot = Vec::new();
     dot::render(&graph, &mut dot).unwrap();
     Ok(String::from_utf8(dot).unwrap())
 }

 struct DotCrateGraph {
     graph: Arc<CrateGraph>,
     crates_to_render: FxHashSet<CrateId>,
 }

 type Edge<'a> = (CrateId, &'a Dependency);

 impl<'a> dot::GraphWalk<'a, CrateId, Edge<'a>> for DotCrateGraph {
     fn nodes(&'a self) -> dot::Nodes<'a, CrateId> {
         self.crates_to_render.iter().copied().collect()
     }

     fn edges(&'a self) -> dot::Edges<'a, Edge<'a>> {
         self.crates_to_render
             .iter()
             .flat_map(|krate| {
                 self.graph[*krate]
                     .dependencies
                     .iter()
                     .filter(|dep| self.crates_to_render.contains(&dep.crate_id))
                     .map(move |dep| (*krate, dep))
             })
             .collect()
     }

     fn source(&'a self, edge: &Edge<'a>) -> CrateId {
         edge.0
     }

     fn target(&'a self, edge: &Edge<'a>) -> CrateId {
         edge.1.crate_id
     }
 }

 impl<'a> dot::Labeller<'a, CrateId, Edge<'a>> for DotCrateGraph {
     fn graph_id(&'a self) -> Id<'a> {
         Id::new("rust_analyzer_crate_graph").unwrap()
     }

     fn node_id(&'a self, n: &CrateId) -> Id<'a> {
         Id::new(format!("_{}", u32::from(n.into_raw()))).unwrap()
     }

     fn node_shape(&'a self, _node: &CrateId) -> Option<LabelText<'a>> {
         Some(LabelText::LabelStr("box".into()))
     }

     fn node_label(&'a self, n: &CrateId) -> LabelText<'a> {
         let name = self.graph[*n].display_name.as_ref().map_or("(unnamed crate)", |name| name);
         LabelText::LabelStr(name.into())
     }
 }
	use dot::{Id, LabelText};
	use ide_db::{
	base_db::{CrateGraph, CrateId, Dependency, SourceDatabase, SourceDatabaseExt},
	FxHashSet, RootDatabase,
	};
	use triomphe::Arc;

	// Feature: View Crate Graph
	//
	// Renders the currently loaded crate graph as an SVG graphic. Requires the `dot` tool, which
	// is part of graphviz, to be installed.
	//
	// Only workspace crates are included, no crates.io dependencies or sysroot crates.
	//
	// \|===
	// \| Editor \| Action Name
	//
	// \| VS Code \| rust-analyzer: View Crate Graph
	// \|===
	pub(crate) fn view_crate_graph(db: &RootDatabase, full: bool) -> Result<String, String> {
	let crate_graph = db.crate_graph();
	let crates_to_render = crate_graph
	.iter()
	.filter(\|krate\| {
	if full {
	true
	} else {
	// Only render workspace crates
	let root_id = db.file_source_root(crate_graph[*krate].root_file_id);
	!db.source_root(root_id).is_library
	}
	})
	.collect();
	let graph = DotCrateGraph { graph: crate_graph, crates_to_render };

	let mut dot = Vec::new();
	dot::render(&graph, &mut dot).unwrap();
	Ok(String::from_utf8(dot).unwrap())
	}

	struct DotCrateGraph {
	graph: Arc<CrateGraph>,
	crates_to_render: FxHashSet<CrateId>,
	}

	type Edge<'a> = (CrateId, &'a Dependency);

	impl<'a> dot::GraphWalk<'a, CrateId, Edge<'a>> for DotCrateGraph {
	fn nodes(&'a self) -> dot::Nodes<'a, CrateId> {
	self.crates_to_render.iter().copied().collect()
	}

	fn edges(&'a self) -> dot::Edges<'a, Edge<'a>> {
	self.crates_to_render
	.iter()
	.flat_map(\|krate\| {
	self.graph[*krate]
	.dependencies
	.iter()
	.filter(\|dep\| self.crates_to_render.contains(&dep.crate_id))
	.map(move \|dep\| (*krate, dep))
	})
	.collect()
	}

	fn source(&'a self, edge: &Edge<'a>) -> CrateId {
	edge.0
	}

	fn target(&'a self, edge: &Edge<'a>) -> CrateId {
	edge.1.crate_id
	}
	}

	impl<'a> dot::Labeller<'a, CrateId, Edge<'a>> for DotCrateGraph {
	fn graph_id(&'a self) -> Id<'a> {
	Id::new("rust_analyzer_crate_graph").unwrap()
	}

	fn node_id(&'a self, n: &CrateId) -> Id<'a> {
	Id::new(format!("_{}", u32::from(n.into_raw()))).unwrap()
	}

	fn node_shape(&'a self, _node: &CrateId) -> Option<LabelText<'a>> {
	Some(LabelText::LabelStr("box".into()))
	}

	fn node_label(&'a self, n: &CrateId) -> LabelText<'a> {
	let name = self.graph[*n].display_name.as_ref().map_or("(unnamed crate)", \|name\| name);
	LabelText::LabelStr(name.into())
	}
	}