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|
use super::LabelText::{self, EscStr, HtmlStr, LabelStr};
use super::{render, Edges, GraphWalk, Id, Labeller, Nodes, Style};
use std::io;
use std::io::prelude::*;
use NodeLabels::*;
/// each node is an index in a vector in the graph.
type Node = usize;
struct Edge {
from: usize,
to: usize,
label: &'static str,
style: Style,
}
fn edge(from: usize, to: usize, label: &'static str, style: Style) -> Edge {
Edge { from, to, label, style }
}
struct LabelledGraph {
/// The name for this graph. Used for labeling generated `digraph`.
name: &'static str,
/// Each node is an index into `node_labels`; these labels are
/// used as the label text for each node. (The node *names*,
/// which are unique identifiers, are derived from their index
/// in this array.)
///
/// If a node maps to None here, then just use its name as its
/// text.
node_labels: Vec<Option<&'static str>>,
node_styles: Vec<Style>,
/// Each edge relates a from-index to a to-index along with a
/// label; `edges` collects them.
edges: Vec<Edge>,
}
// A simple wrapper around LabelledGraph that forces the labels to
// be emitted as EscStr.
struct LabelledGraphWithEscStrs {
graph: LabelledGraph,
}
enum NodeLabels<L> {
AllNodesLabelled(Vec<L>),
UnlabelledNodes(usize),
SomeNodesLabelled(Vec<Option<L>>),
}
type Trivial = NodeLabels<&'static str>;
impl NodeLabels<&'static str> {
fn to_opt_strs(self) -> Vec<Option<&'static str>> {
match self {
UnlabelledNodes(len) => vec![None; len],
AllNodesLabelled(lbls) => lbls.into_iter().map(Some).collect(),
SomeNodesLabelled(lbls) => lbls,
}
}
fn len(&self) -> usize {
match self {
&UnlabelledNodes(len) => len,
&AllNodesLabelled(ref lbls) => lbls.len(),
&SomeNodesLabelled(ref lbls) => lbls.len(),
}
}
}
impl LabelledGraph {
fn new(
name: &'static str,
node_labels: Trivial,
edges: Vec<Edge>,
node_styles: Option<Vec<Style>>,
) -> LabelledGraph {
let count = node_labels.len();
LabelledGraph {
name,
node_labels: node_labels.to_opt_strs(),
edges,
node_styles: match node_styles {
Some(nodes) => nodes,
None => vec![Style::None; count],
},
}
}
}
impl LabelledGraphWithEscStrs {
fn new(name: &'static str, node_labels: Trivial, edges: Vec<Edge>) -> LabelledGraphWithEscStrs {
LabelledGraphWithEscStrs { graph: LabelledGraph::new(name, node_labels, edges, None) }
}
}
fn id_name<'a>(n: &Node) -> Id<'a> {
Id::new(format!("N{}", *n)).unwrap()
}
impl<'a> Labeller<'a> for LabelledGraph {
type Node = Node;
type Edge = &'a Edge;
fn graph_id(&'a self) -> Id<'a> {
Id::new(self.name).unwrap()
}
fn node_id(&'a self, n: &Node) -> Id<'a> {
id_name(n)
}
fn node_label(&'a self, n: &Node) -> LabelText<'a> {
match self.node_labels[*n] {
Some(l) => LabelStr(l.into()),
None => LabelStr(id_name(n).name),
}
}
fn edge_label(&'a self, e: &&'a Edge) -> LabelText<'a> {
LabelStr(e.label.into())
}
fn node_style(&'a self, n: &Node) -> Style {
self.node_styles[*n]
}
fn edge_style(&'a self, e: &&'a Edge) -> Style {
e.style
}
}
impl<'a> Labeller<'a> for LabelledGraphWithEscStrs {
type Node = Node;
type Edge = &'a Edge;
fn graph_id(&'a self) -> Id<'a> {
self.graph.graph_id()
}
fn node_id(&'a self, n: &Node) -> Id<'a> {
self.graph.node_id(n)
}
fn node_label(&'a self, n: &Node) -> LabelText<'a> {
match self.graph.node_label(n) {
LabelStr(s) | EscStr(s) | HtmlStr(s) => EscStr(s),
}
}
fn edge_label(&'a self, e: &&'a Edge) -> LabelText<'a> {
match self.graph.edge_label(e) {
LabelStr(s) | EscStr(s) | HtmlStr(s) => EscStr(s),
}
}
}
impl<'a> GraphWalk<'a> for LabelledGraph {
type Node = Node;
type Edge = &'a Edge;
fn nodes(&'a self) -> Nodes<'a, Node> {
(0..self.node_labels.len()).collect()
}
fn edges(&'a self) -> Edges<'a, &'a Edge> {
self.edges.iter().collect()
}
fn source(&'a self, edge: &&'a Edge) -> Node {
edge.from
}
fn target(&'a self, edge: &&'a Edge) -> Node {
edge.to
}
}
impl<'a> GraphWalk<'a> for LabelledGraphWithEscStrs {
type Node = Node;
type Edge = &'a Edge;
fn nodes(&'a self) -> Nodes<'a, Node> {
self.graph.nodes()
}
fn edges(&'a self) -> Edges<'a, &'a Edge> {
self.graph.edges()
}
fn source(&'a self, edge: &&'a Edge) -> Node {
edge.from
}
fn target(&'a self, edge: &&'a Edge) -> Node {
edge.to
}
}
fn test_input(g: LabelledGraph) -> io::Result<String> {
let mut writer = Vec::new();
render(&g, &mut writer).unwrap();
let mut s = String::new();
Read::read_to_string(&mut &*writer, &mut s)?;
Ok(s)
}
// All of the tests use raw-strings as the format for the expected outputs,
// so that you can cut-and-paste the content into a .dot file yourself to
// see what the graphviz visualizer would produce.
#[test]
fn empty_graph() {
let labels: Trivial = UnlabelledNodes(0);
let r = test_input(LabelledGraph::new("empty_graph", labels, vec![], None));
assert_eq!(
r.unwrap(),
r#"digraph empty_graph {
}
"#
);
}
#[test]
fn single_node() {
let labels: Trivial = UnlabelledNodes(1);
let r = test_input(LabelledGraph::new("single_node", labels, vec![], None));
assert_eq!(
r.unwrap(),
r#"digraph single_node {
N0[label="N0"];
}
"#
);
}
#[test]
fn single_node_with_style() {
let labels: Trivial = UnlabelledNodes(1);
let styles = Some(vec![Style::Dashed]);
let r = test_input(LabelledGraph::new("single_node", labels, vec![], styles));
assert_eq!(
r.unwrap(),
r#"digraph single_node {
N0[label="N0"][style="dashed"];
}
"#
);
}
#[test]
fn single_edge() {
let labels: Trivial = UnlabelledNodes(2);
let result = test_input(LabelledGraph::new(
"single_edge",
labels,
vec![edge(0, 1, "E", Style::None)],
None,
));
assert_eq!(
result.unwrap(),
r#"digraph single_edge {
N0[label="N0"];
N1[label="N1"];
N0 -> N1[label="E"];
}
"#
);
}
#[test]
fn single_edge_with_style() {
let labels: Trivial = UnlabelledNodes(2);
let result = test_input(LabelledGraph::new(
"single_edge",
labels,
vec![edge(0, 1, "E", Style::Bold)],
None,
));
assert_eq!(
result.unwrap(),
r#"digraph single_edge {
N0[label="N0"];
N1[label="N1"];
N0 -> N1[label="E"][style="bold"];
}
"#
);
}
#[test]
fn test_some_labelled() {
let labels: Trivial = SomeNodesLabelled(vec![Some("A"), None]);
let styles = Some(vec![Style::None, Style::Dotted]);
let result = test_input(LabelledGraph::new(
"test_some_labelled",
labels,
vec![edge(0, 1, "A-1", Style::None)],
styles,
));
assert_eq!(
result.unwrap(),
r#"digraph test_some_labelled {
N0[label="A"];
N1[label="N1"][style="dotted"];
N0 -> N1[label="A-1"];
}
"#
);
}
#[test]
fn single_cyclic_node() {
let labels: Trivial = UnlabelledNodes(1);
let r = test_input(LabelledGraph::new(
"single_cyclic_node",
labels,
vec![edge(0, 0, "E", Style::None)],
None,
));
assert_eq!(
r.unwrap(),
r#"digraph single_cyclic_node {
N0[label="N0"];
N0 -> N0[label="E"];
}
"#
);
}
#[test]
fn hasse_diagram() {
let labels = AllNodesLabelled(vec!["{x,y}", "{x}", "{y}", "{}"]);
let r = test_input(LabelledGraph::new(
"hasse_diagram",
labels,
vec![
edge(0, 1, "", Style::None),
edge(0, 2, "", Style::None),
edge(1, 3, "", Style::None),
edge(2, 3, "", Style::None),
],
None,
));
assert_eq!(
r.unwrap(),
r#"digraph hasse_diagram {
N0[label="{x,y}"];
N1[label="{x}"];
N2[label="{y}"];
N3[label="{}"];
N0 -> N1[label=""];
N0 -> N2[label=""];
N1 -> N3[label=""];
N2 -> N3[label=""];
}
"#
);
}
#[test]
fn left_aligned_text() {
let labels = AllNodesLabelled(vec![
"if test {\
\\l branch1\
\\l} else {\
\\l branch2\
\\l}\
\\lafterward\
\\l",
"branch1",
"branch2",
"afterward",
]);
let mut writer = Vec::new();
let g = LabelledGraphWithEscStrs::new(
"syntax_tree",
labels,
vec![
edge(0, 1, "then", Style::None),
edge(0, 2, "else", Style::None),
edge(1, 3, ";", Style::None),
edge(2, 3, ";", Style::None),
],
);
render(&g, &mut writer).unwrap();
let mut r = String::new();
Read::read_to_string(&mut &*writer, &mut r).unwrap();
assert_eq!(
r,
r#"digraph syntax_tree {
N0[label="if test {\l branch1\l} else {\l branch2\l}\lafterward\l"];
N1[label="branch1"];
N2[label="branch2"];
N3[label="afterward"];
N0 -> N1[label="then"];
N0 -> N2[label="else"];
N1 -> N3[label=";"];
N2 -> N3[label=";"];
}
"#
);
}
#[test]
fn simple_id_construction() {
let id1 = Id::new("hello");
match id1 {
Ok(_) => {}
Err(..) => panic!("'hello' is not a valid value for id anymore"),
}
}
#[test]
fn badly_formatted_id() {
let id2 = Id::new("Weird { struct : ure } !!!");
match id2 {
Ok(_) => panic!("graphviz id suddenly allows spaces, brackets and stuff"),
Err(..) => {}
}
}
|