compiler/rustc_middle/src/mir/generic_graphviz.rs - toolchain/rustc - Git at Google

 use rustc_data_structures::graph::{self, iterate};
 use rustc_graphviz as dot;
 use rustc_middle::ty::TyCtxt;
 use std::io::{self, Write};

 pub struct GraphvizWriter<
     'a,
     G: graph::DirectedGraph + graph::WithSuccessors + graph::WithStartNode + graph::WithNumNodes,
     NodeContentFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
     EdgeLabelsFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
 > {
     graph: &'a G,
     is_subgraph: bool,
     graphviz_name: String,
     graph_label: Option<String>,
     node_content_fn: NodeContentFn,
     edge_labels_fn: EdgeLabelsFn,
 }

 impl<
     'a,
     G: graph::DirectedGraph + graph::WithSuccessors + graph::WithStartNode + graph::WithNumNodes,
     NodeContentFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
     EdgeLabelsFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
 > GraphvizWriter<'a, G, NodeContentFn, EdgeLabelsFn>
 {
     pub fn new(
         graph: &'a G,
         graphviz_name: &str,
         node_content_fn: NodeContentFn,
         edge_labels_fn: EdgeLabelsFn,
     ) -> Self {
         Self {
             graph,
             is_subgraph: false,
             graphviz_name: graphviz_name.to_owned(),
             graph_label: None,
             node_content_fn,
             edge_labels_fn,
         }
     }

     pub fn set_graph_label(&mut self, graph_label: &str) {
         self.graph_label = Some(graph_label.to_owned());
     }

     /// Write a graphviz DOT of the graph
     pub fn write_graphviz<'tcx, W>(&self, tcx: TyCtxt<'tcx>, w: &mut W) -> io::Result<()>
     where
         W: Write,
     {
         let kind = if self.is_subgraph { "subgraph" } else { "digraph" };
         let cluster = if self.is_subgraph { "cluster_" } else { "" }; // Print border around graph
         // FIXME(richkadel): If/when migrating the MIR graphviz to this generic implementation,
         // prepend "Mir_" to the graphviz_safe_def_name(def_id)
         writeln!(w, "{} {}{} {{", kind, cluster, self.graphviz_name)?;

         // Global graph properties
         let font = format!(r#"fontname="{}""#, tcx.sess.opts.unstable_opts.graphviz_font);
         let mut graph_attrs = vec![&font[..]];
         let mut content_attrs = vec![&font[..]];

         let dark_mode = tcx.sess.opts.unstable_opts.graphviz_dark_mode;
         if dark_mode {
             graph_attrs.push(r#"bgcolor="black""#);
             graph_attrs.push(r#"fontcolor="white""#);
             content_attrs.push(r#"color="white""#);
             content_attrs.push(r#"fontcolor="white""#);
         }

         writeln!(w, r#"    graph [{}];"#, graph_attrs.join(" "))?;
         let content_attrs_str = content_attrs.join(" ");
         writeln!(w, r#"    node [{}];"#, content_attrs_str)?;
         writeln!(w, r#"    edge [{}];"#, content_attrs_str)?;

         // Graph label
         if let Some(graph_label) = &self.graph_label {
             self.write_graph_label(graph_label, w)?;
         }

         // Nodes
         for node in iterate::post_order_from(self.graph, self.graph.start_node()) {
             self.write_node(node, dark_mode, w)?;
         }

         // Edges
         for source in iterate::post_order_from(self.graph, self.graph.start_node()) {
             self.write_edges(source, w)?;
         }
         writeln!(w, "}}")
     }

     /// Write a graphviz DOT node for the given node.
     pub fn write_node<W>(&self, node: G::Node, dark_mode: bool, w: &mut W) -> io::Result<()>
     where
         W: Write,
     {
         // Start a new node with the label to follow, in one of DOT's pseudo-HTML tables.
         write!(w, r#"    {} [shape="none", label=<"#, self.node(node))?;

         write!(w, r#"<table border="0" cellborder="1" cellspacing="0">"#)?;

         // FIXME(richkadel): If/when migrating the MIR graphviz to this generic implementation,
         // we need generic way to know if node header should have a different color. For example,
         // for MIR:
         //
         // let (blk, bgcolor) = if data.is_cleanup {
         //     let color = if dark_mode { "royalblue" } else { "lightblue" };
         //     (format!("{:?} (cleanup)", node), color)
         // } else {
         //     let color = if dark_mode { "dimgray" } else { "gray" };
         //     (format!("{:?}", node), color)
         // };
         let color = if dark_mode { "dimgray" } else { "gray" };
         let (blk, bgcolor) = (format!("{:?}", node), color);
         write!(
             w,
             r#"<tr><td bgcolor="{bgcolor}" {attrs} colspan="{colspan}">{blk}</td></tr>"#,
             attrs = r#"align="center""#,
             colspan = 1,
             blk = blk,
             bgcolor = bgcolor
         )?;

         for section in (self.node_content_fn)(node) {
             write!(
                 w,
                 r#"<tr><td align="left" balign="left">{}</td></tr>"#,
                 dot::escape_html(&section).replace('\n', "<br/>")
             )?;
         }

         // Close the table
         write!(w, "</table>")?;

         // Close the node label and the node itself.
         writeln!(w, ">];")
     }

     /// Write graphviz DOT edges with labels between the given node and all of its successors.
     fn write_edges<W>(&self, source: G::Node, w: &mut W) -> io::Result<()>
     where
         W: Write,
     {
         let edge_labels = (self.edge_labels_fn)(source);
         for (index, target) in self.graph.successors(source).enumerate() {
             let src = self.node(source);
             let trg = self.node(target);
             let escaped_edge_label = if let Some(edge_label) = edge_labels.get(index) {
                 dot::escape_html(edge_label).replace('\n', r#"<br align="left"/>"#)
             } else {
                 "".to_owned()
             };
             writeln!(w, r#"    {} -> {} [label=<{}>];"#, src, trg, escaped_edge_label)?;
         }
         Ok(())
     }

     /// Write the graphviz DOT label for the overall graph. This is essentially a block of text that
     /// will appear below the graph.
     fn write_graph_label<W>(&self, label: &str, w: &mut W) -> io::Result<()>
     where
         W: Write,
     {
         let lines = label.split('\n').map(|s| dot::escape_html(s)).collect::<Vec<_>>();
         let escaped_label = lines.join(r#"<br align="left"/>"#);
         writeln!(w, r#"    label=<<br/><br/>{}<br align="left"/><br/><br/><br/>>;"#, escaped_label)
     }

     fn node(&self, node: G::Node) -> String {
         format!("{:?}__{}", node, self.graphviz_name)
     }
 }
	use rustc_data_structures::graph::{self, iterate};
	use rustc_graphviz as dot;
	use rustc_middle::ty::TyCtxt;
	use std::io::{self, Write};

	pub struct GraphvizWriter<
	'a,
	G: graph::DirectedGraph + graph::WithSuccessors + graph::WithStartNode + graph::WithNumNodes,
	NodeContentFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
	EdgeLabelsFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
	> {
	graph: &'a G,
	is_subgraph: bool,
	graphviz_name: String,
	graph_label: Option<String>,
	node_content_fn: NodeContentFn,
	edge_labels_fn: EdgeLabelsFn,
	}

	impl<
	'a,
	G: graph::DirectedGraph + graph::WithSuccessors + graph::WithStartNode + graph::WithNumNodes,
	NodeContentFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
	EdgeLabelsFn: Fn(<G as graph::DirectedGraph>::Node) -> Vec<String>,
	> GraphvizWriter<'a, G, NodeContentFn, EdgeLabelsFn>
	{
	pub fn new(
	graph: &'a G,
	graphviz_name: &str,
	node_content_fn: NodeContentFn,
	edge_labels_fn: EdgeLabelsFn,
	) -> Self {
	Self {
	graph,
	is_subgraph: false,
	graphviz_name: graphviz_name.to_owned(),
	graph_label: None,
	node_content_fn,
	edge_labels_fn,
	}
	}

	pub fn set_graph_label(&mut self, graph_label: &str) {
	self.graph_label = Some(graph_label.to_owned());
	}

	/// Write a graphviz DOT of the graph
	pub fn write_graphviz<'tcx, W>(&self, tcx: TyCtxt<'tcx>, w: &mut W) -> io::Result<()>
	where
	W: Write,
	{
	let kind = if self.is_subgraph { "subgraph" } else { "digraph" };
	let cluster = if self.is_subgraph { "cluster_" } else { "" }; // Print border around graph
	// FIXME(richkadel): If/when migrating the MIR graphviz to this generic implementation,
	// prepend "Mir_" to the graphviz_safe_def_name(def_id)
	writeln!(w, "{} {}{} {{", kind, cluster, self.graphviz_name)?;

	// Global graph properties
	let font = format!(r#"fontname="{}""#, tcx.sess.opts.unstable_opts.graphviz_font);
	let mut graph_attrs = vec![&font[..]];
	let mut content_attrs = vec![&font[..]];

	let dark_mode = tcx.sess.opts.unstable_opts.graphviz_dark_mode;
	if dark_mode {
	graph_attrs.push(r#"bgcolor="black""#);
	graph_attrs.push(r#"fontcolor="white""#);
	content_attrs.push(r#"color="white""#);
	content_attrs.push(r#"fontcolor="white""#);
	}

	writeln!(w, r#" graph [{}];"#, graph_attrs.join(" "))?;
	let content_attrs_str = content_attrs.join(" ");
	writeln!(w, r#" node [{}];"#, content_attrs_str)?;
	writeln!(w, r#" edge [{}];"#, content_attrs_str)?;

	// Graph label
	if let Some(graph_label) = &self.graph_label {
	self.write_graph_label(graph_label, w)?;
	}

	// Nodes
	for node in iterate::post_order_from(self.graph, self.graph.start_node()) {
	self.write_node(node, dark_mode, w)?;
	}

	// Edges
	for source in iterate::post_order_from(self.graph, self.graph.start_node()) {
	self.write_edges(source, w)?;
	}
	writeln!(w, "}}")
	}

	/// Write a graphviz DOT node for the given node.
	pub fn write_node<W>(&self, node: G::Node, dark_mode: bool, w: &mut W) -> io::Result<()>
	where
	W: Write,
	{
	// Start a new node with the label to follow, in one of DOT's pseudo-HTML tables.
	write!(w, r#" {} [shape="none", label=<"#, self.node(node))?;

	write!(w, r#"<table border="0" cellborder="1" cellspacing="0">"#)?;

	// FIXME(richkadel): If/when migrating the MIR graphviz to this generic implementation,
	// we need generic way to know if node header should have a different color. For example,
	// for MIR:
	//
	// let (blk, bgcolor) = if data.is_cleanup {
	// let color = if dark_mode { "royalblue" } else { "lightblue" };
	// (format!("{:?} (cleanup)", node), color)
	// } else {
	// let color = if dark_mode { "dimgray" } else { "gray" };
	// (format!("{:?}", node), color)
	// };
	let color = if dark_mode { "dimgray" } else { "gray" };
	let (blk, bgcolor) = (format!("{:?}", node), color);
	write!(
	w,
	r#"<tr><td bgcolor="{bgcolor}" {attrs} colspan="{colspan}">{blk}</td></tr>"#,
	attrs = r#"align="center""#,
	colspan = 1,
	blk = blk,
	bgcolor = bgcolor
	)?;

	for section in (self.node_content_fn)(node) {
	write!(
	w,
	r#"<tr><td align="left" balign="left">{}</td></tr>"#,
	dot::escape_html(&section).replace('\n', "<br/>")
	)?;
	}

	// Close the table
	write!(w, "</table>")?;

	// Close the node label and the node itself.
	writeln!(w, ">];")
	}

	/// Write graphviz DOT edges with labels between the given node and all of its successors.
	fn write_edges<W>(&self, source: G::Node, w: &mut W) -> io::Result<()>
	where
	W: Write,
	{
	let edge_labels = (self.edge_labels_fn)(source);
	for (index, target) in self.graph.successors(source).enumerate() {
	let src = self.node(source);
	let trg = self.node(target);
	let escaped_edge_label = if let Some(edge_label) = edge_labels.get(index) {
	dot::escape_html(edge_label).replace('\n', r#"<br align="left"/>"#)
	} else {
	"".to_owned()
	};
	writeln!(w, r#" {} -> {} [label=<{}>];"#, src, trg, escaped_edge_label)?;
	}
	Ok(())
	}

	/// Write the graphviz DOT label for the overall graph. This is essentially a block of text that
	/// will appear below the graph.
	fn write_graph_label<W>(&self, label: &str, w: &mut W) -> io::Result<()>
	where
	W: Write,
	{
	let lines = label.split('\n').map(\|s\| dot::escape_html(s)).collect::<Vec<_>>();
	let escaped_label = lines.join(r#"<br align="left"/>"#);
	writeln!(w, r#" label=<<br/><br/>{}<br align="left"/><br/><br/><br/>>;"#, escaped_label)
	}

	fn node(&self, node: G::Node) -> String {
	format!("{:?}__{}", node, self.graphviz_name)
	}
	}