Add a graphviz
crate for making .dot files to layout and render graphs.
This commit is contained in:
parent
ee03529fa9
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@ -51,7 +51,7 @@
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TARGET_CRATES := libc std green rustuv native flate arena glob term semver \
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uuid serialize sync getopts collections num test time rand \
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workcache url log regex
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workcache url log regex graphviz
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HOST_CRATES := syntax rustc rustdoc fourcc hexfloat regex_macros
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CRATES := $(TARGET_CRATES) $(HOST_CRATES)
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TOOLS := compiletest rustdoc rustc
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@ -67,6 +67,7 @@ DEPS_rustdoc := rustc native:sundown serialize sync getopts collections \
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test time
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DEPS_flate := std native:miniz
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DEPS_arena := std collections
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DEPS_graphviz := std
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DEPS_glob := std
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DEPS_serialize := std collections log
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DEPS_term := std collections
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src/libgraphviz/lib.rs
Normal file
746
src/libgraphviz/lib.rs
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// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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/*! Generate files suitable for use with [Graphviz](http://www.graphviz.org/)
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The `render` function generates output (e.g. a `output.dot` file) for
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use with [Graphviz](http://www.graphviz.org/) by walking a labelled
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graph. (Graphviz can then automatically lay out the nodes and edges
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of the graph, and also optionally render the graph as an image or
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other [output formats](
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http://www.graphviz.org/content/output-formats), such as SVG.)
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Rather than impose some particular graph data structure on clients,
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this library exposes two traits that clients can implement on their
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own structs before handing them over to the rendering function.
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Note: This library does not yet provide access to the full
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expressiveness of the [DOT language](
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http://www.graphviz.org/doc/info/lang.html). For example, there are
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many [attributes](http://www.graphviz.org/content/attrs) related to
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providing layout hints (e.g. left-to-right versus top-down, which
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algorithm to use, etc). The current intention of this library is to
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emit a human-readable .dot file with very regular structure suitable
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for easy post-processing.
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# Examples
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The first example uses a very simple graph representation: a list of
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pairs of ints, representing the edges (the node set is implicit).
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Each node label is derived directly from the int representing the node,
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while the edge labels are all empty strings.
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This example also illustrates how to use the `Borrowed` variant of
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`MaybeOwnedVector` to return a slice into the edge list, rather than
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constructing a copy from scratch.
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The output from this example renders five nodes, with the first four
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forming a diamond-shaped acyclic graph and then pointing to the fifth
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which is cyclic.
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```rust
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use dot = graphviz;
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type Nd = int;
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type Ed = (int,int);
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struct Edges(Vec<Ed>);
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pub fn main() {
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use std::io::File;
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let edges = Edges(vec!((0,1), (0,2), (1,3), (2,3), (3,4), (4,4)));
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let mut f = File::create(&Path::new("example1.dot"));
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dot::render(&edges, &mut f).unwrap()
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}
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impl<'a> dot::Labeller<'a, Nd, Ed> for Edges {
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fn graph_id(&'a self) -> dot::Id<'a> { dot::Id::new("example1") }
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fn node_id(&'a self, n: &Nd) -> dot::Id<'a> {
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dot::Id::new(format!("N{}", *n))
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}
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}
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impl<'a> dot::GraphWalk<'a, Nd, Ed> for Edges {
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fn nodes(&self) -> dot::Nodes<'a,Nd> {
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// (assumes that |N| \approxeq |E|)
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let &Edges(ref v) = self;
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let mut nodes = Vec::with_capacity(v.len());
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for &(s,t) in v.iter() {
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nodes.push(s); nodes.push(t);
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}
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nodes.sort();
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nodes.dedup();
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nodes.move_iter().collect()
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}
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fn edges(&'a self) -> dot::Edges<'a,Ed> {
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let &Edges(ref edges) = self;
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dot::maybe_owned_vec::Borrowed(edges.as_slice())
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}
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fn source(&self, e: &Ed) -> Nd { let &(s,_) = e; s }
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fn target(&self, e: &Ed) -> Nd { let &(_,t) = e; t }
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}
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```
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Output from first example (in `example1.dot`):
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```DOT
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digraph example1 {
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N0[label="N0"];
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N1[label="N1"];
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N2[label="N2"];
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N3[label="N3"];
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N4[label="N4"];
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N0 -> N1[label=""];
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N0 -> N2[label=""];
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N1 -> N3[label=""];
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N2 -> N3[label=""];
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N3 -> N4[label=""];
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N4 -> N4[label=""];
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}
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```
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The second example illustrates using `node_label` and `edge_label` to
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add labels to the nodes and edges in the rendered graph. The graph
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here carries both `nodes` (the label text to use for rendering a
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particular node), and `edges` (again a list of `(source,target)`
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indices).
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This example also illustrates how to use a type (in this case the edge
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type) that shares substructure with the graph: the edge type here is a
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direct reference to the `(source,target)` pair stored in the graph's
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internal vector (rather than passing around a copy of the pair
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itself). Note that in this case, this implies that `fn edges(&'a
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self)` must construct a fresh `Vec<&'a (uint,uint)>` from the
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`Vec<(uint,uint)>` edges stored in `self`.
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The output from this example renders four nodes that make up the
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Hasse-diagram for the subsets of the set `{x, y}`. Each edge is
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labelled with the ⊆ character (specified using the HTML character
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entity `&sube`).
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```rust
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use dot = graphviz;
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use std::str;
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use std::io::File;
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type Nd = uint;
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type Ed<'a> = &'a (uint, uint);
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struct Graph { nodes: Vec<&'static str>, edges: Vec<(uint,uint)> }
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pub fn main() {
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let nodes = vec!("{x,y}","{x}","{y}","{}");
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let edges = vec!((0,1), (0,2), (1,3), (2,3));
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let graph = Graph { nodes: nodes, edges: edges };
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let mut f = File::create(&Path::new("example2.dot"));
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dot::render(&graph, &mut f).unwrap()
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}
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impl<'a> dot::Labeller<'a, Nd, Ed<'a>> for Graph {
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fn graph_id(&'a self) -> dot::Id<'a> { dot::Id::new("example2") }
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fn node_id(&'a self, n: &Nd) -> dot::Id<'a> {
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dot::Id::new(format!("N{}", n))
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}
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fn node_label<'a>(&'a self, n: &Nd) -> dot::LabelText<'a> {
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dot::LabelStr(str::Slice(self.nodes.get(*n).as_slice()))
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}
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fn edge_label<'a>(&'a self, _: &Ed) -> dot::LabelText<'a> {
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dot::LabelStr(str::Slice("⊆"))
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}
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}
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impl<'a> dot::GraphWalk<'a, Nd, Ed<'a>> for Graph {
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fn nodes(&self) -> dot::Nodes<'a,Nd> { range(0,self.nodes.len()).collect() }
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fn edges(&'a self) -> dot::Edges<'a,Ed<'a>> { self.edges.iter().collect() }
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fn source(&self, e: &Ed) -> Nd { let & &(s,_) = e; s }
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fn target(&self, e: &Ed) -> Nd { let & &(_,t) = e; t }
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}
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```
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The third example is similar to the second, except now each node and
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edge now carries a reference to the string label for each node as well
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as that node's index. (This is another illustration of how to share
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structure with the graph itself, and why one might want to do so.)
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The output from this example is the same as the second example: the
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Hasse-diagram for the subsets of the set `{x, y}`.
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```rust
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use dot = graphviz;
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use std::str;
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use std::io::File;
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type Nd<'a> = (uint, &'a str);
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type Ed<'a> = (Nd<'a>, Nd<'a>);
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struct Graph { nodes: Vec<&'static str>, edges: Vec<(uint,uint)> }
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pub fn main() {
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let nodes = vec!("{x,y}","{x}","{y}","{}");
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let edges = vec!((0,1), (0,2), (1,3), (2,3));
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let graph = Graph { nodes: nodes, edges: edges };
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let mut f = File::create(&Path::new("example3.dot"));
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dot::render(&graph, &mut f).unwrap()
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}
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impl<'a> dot::Labeller<'a, Nd<'a>, Ed<'a>> for Graph {
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fn graph_id(&'a self) -> dot::Id<'a> { dot::Id::new("example3") }
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fn node_id(&'a self, n: &Nd<'a>) -> dot::Id<'a> {
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dot::Id::new(format!("N{:u}", n.val0()))
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}
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fn node_label<'a>(&'a self, n: &Nd<'a>) -> dot::LabelText<'a> {
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let &(i, _) = n;
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dot::LabelStr(str::Slice(self.nodes.get(i).as_slice()))
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}
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fn edge_label<'a>(&'a self, _: &Ed<'a>) -> dot::LabelText<'a> {
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dot::LabelStr(str::Slice("⊆"))
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}
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}
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impl<'a> dot::GraphWalk<'a, Nd<'a>, Ed<'a>> for Graph {
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fn nodes(&'a self) -> dot::Nodes<'a,Nd<'a>> {
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self.nodes.iter().map(|s|s.as_slice()).enumerate().collect()
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}
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fn edges(&'a self) -> dot::Edges<'a,Ed<'a>> {
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self.edges.iter()
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.map(|&(i,j)|((i, self.nodes.get(i).as_slice()),
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(j, self.nodes.get(j).as_slice())))
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.collect()
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}
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fn source(&self, e: &Ed<'a>) -> Nd<'a> { let &(s,_) = e; s }
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fn target(&self, e: &Ed<'a>) -> Nd<'a> { let &(_,t) = e; t }
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}
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```
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# References
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* [Graphviz](http://www.graphviz.org/)
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* [DOT language](http://www.graphviz.org/doc/info/lang.html)
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*/
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#![crate_id = "graphviz#0.11-pre"]
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#![crate_type = "rlib"]
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#![crate_type = "dylib"]
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#![license = "MIT/ASL2"]
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#![doc(html_logo_url = "http://www.rust-lang.org/logos/rust-logo-128x128-blk-v2.png",
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html_favicon_url = "http://www.rust-lang.org/favicon.ico",
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html_root_url = "http://static.rust-lang.org/doc/master")]
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#![experimental]
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use std::io;
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use std::str;
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use self::maybe_owned_vec::MaybeOwnedVector;
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pub mod maybe_owned_vec;
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/// The text for a graphviz label on a node or edge.
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pub enum LabelText<'a> {
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/// This kind of label preserves the text directly as is.
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///
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/// Occurrences of backslashes (`\`) are escaped, and thus appear
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/// as backslashes in the rendered label.
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LabelStr(str::MaybeOwned<'a>),
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/// This kind of label uses the graphviz label escString type:
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/// http://www.graphviz.org/content/attrs#kescString
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///
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/// Occurrences of backslashes (`\`) are not escaped; instead they
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/// are interpreted as initiating an escString escape sequence.
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///
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/// Escape sequences of particular interest: in addition to `\n`
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/// to break a line (centering the line preceding the `\n`), there
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/// are also the escape sequences `\l` which left-justifies the
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/// preceding line and `\r` which right-justifies it.
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EscStr(str::MaybeOwned<'a>),
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}
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// There is a tension in the design of the labelling API.
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//
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// For example, I considered making a `Labeller<T>` trait that
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// provides labels for `T`, and then making the graph type `G`
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// implement `Labeller<Node>` and `Labeller<Edge>`. However, this is
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// not possible without functional dependencies. (One could work
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// around that, but I did not explore that avenue heavily.)
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//
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// Another approach that I actually used for a while was to make a
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// `Label<Context>` trait that is implemented by the client-specific
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// Node and Edge types (as well as an implementation on Graph itself
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// for the overall name for the graph). The main disadvantage of this
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// second approach (compared to having the `G` type parameter
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// implement a Labelling service) that I have encountered is that it
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// makes it impossible to use types outside of the current crate
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// directly as Nodes/Edges; you need to wrap them in newtype'd
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// structs. See e.g. the `No` and `Ed` structs in the examples. (In
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// practice clients using a graph in some other crate would need to
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// provide some sort of adapter shim over the graph anyway to
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// interface with this library).
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//
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// Another approach would be to make a single `Labeller<N,E>` trait
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// that provides three methods (graph_label, node_label, edge_label),
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// and then make `G` implement `Labeller<N,E>`. At first this did not
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// appeal to me, since I had thought I would need separate methods on
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// each data variant for dot-internal identifiers versus user-visible
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// labels. However, the identifier/label distinction only arises for
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// nodes; graphs themselves only have identifiers, and edges only have
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// labels.
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//
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// So in the end I decided to use the third approach described above.
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/// `Id` is a Graphviz `ID`.
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pub struct Id<'a> {
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name: str::MaybeOwned<'a>,
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}
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impl<'a> Id<'a> {
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/// Creates an `Id` named `name`.
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///
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/// The caller must ensure that the input conforms to an
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/// identifier format: it must be a non-empty string made up of
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/// alphanumeric or underscore characters, not beginning with a
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/// digit (i.e. the regular expression `[a-zA-Z_][a-zA-Z_0-9]*`).
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///
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/// (Note: this format is a strict subset of the `ID` format
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/// defined by the DOT language. This function may change in the
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/// future to accept a broader subset, or the entirety, of DOT's
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/// `ID` format.)
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pub fn new<Name:str::IntoMaybeOwned<'a>>(name: Name) -> Id<'a> {
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let name = name.into_maybe_owned();
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{
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let mut chars = name.as_slice().chars();
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assert!(is_letter_or_underscore(chars.next().unwrap()));
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assert!(chars.all(is_constituent));
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}
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return Id{ name: name };
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fn is_letter_or_underscore(c: char) -> bool {
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in_range('a', c, 'z') || in_range('A', c, 'Z') || c == '_'
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}
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fn is_constituent(c: char) -> bool {
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is_letter_or_underscore(c) || in_range('0', c, '9')
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}
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fn in_range(low: char, c: char, high: char) -> bool {
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low as uint <= c as uint && c as uint <= high as uint
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}
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}
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pub fn as_slice(&'a self) -> &'a str {
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self.name.as_slice()
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}
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pub fn name(self) -> str::MaybeOwned<'a> {
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self.name
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}
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}
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/// Each instance of a type that implements `Label<C>` maps to a
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/// unique identifier with respect to `C`, which is used to identify
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/// it in the generated .dot file. They can also provide more
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/// elaborate (and non-unique) label text that is used in the graphviz
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/// rendered output.
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/// The graph instance is responsible for providing the DOT compatible
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/// identifiers for the nodes and (optionally) rendered labels for the nodes and
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/// edges, as well as an identifier for the graph itself.
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pub trait Labeller<'a,N,E> {
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/// Must return a DOT compatible identifier naming the graph.
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fn graph_id(&'a self) -> Id<'a>;
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/// Maps `n` to a unique identifier with respect to `self`. The
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/// implementor is responsible for ensuring that the returned name
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/// is a valid DOT identifier.
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fn node_id(&'a self, n: &N) -> Id<'a>;
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/// Maps `n` to a label that will be used in the rendered output.
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/// The label need not be unique, and may be the empty string; the
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/// default is just the output from `node_id`.
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fn node_label(&'a self, n: &N) -> LabelText<'a> {
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LabelStr(self.node_id(n).name)
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}
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/// Maps `e` to a label that will be used in the rendered output.
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/// The label need not be unique, and may be the empty string; the
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/// default is in fact the empty string.
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fn edge_label(&'a self, e: &E) -> LabelText<'a> {
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let _ignored = e;
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LabelStr(str::Slice(""))
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}
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}
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impl<'a> LabelText<'a> {
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fn escape_char(c: char, f: |char|) {
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match c {
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// not escaping \\, since Graphviz escString needs to
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// interpret backslashes; see EscStr above.
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'\\' => f(c),
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_ => c.escape_default(f)
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}
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}
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fn escape_str(s: &str) -> StrBuf {
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let mut out = StrBuf::with_capacity(s.len());
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for c in s.chars() {
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LabelText::escape_char(c, |c| out.push_char(c));
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}
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out
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}
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/// Renders text as string suitable for a label in a .dot file.
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pub fn escape(&self) -> ~str {
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match self {
|
||||
&LabelStr(ref s) => s.as_slice().escape_default(),
|
||||
&EscStr(ref s) => LabelText::escape_str(s.as_slice()).into_owned(),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
pub type Nodes<'a,N> = MaybeOwnedVector<'a,N>;
|
||||
pub type Edges<'a,E> = MaybeOwnedVector<'a,E>;
|
||||
|
||||
// (The type parameters in GraphWalk should be associated items,
|
||||
// when/if Rust supports such.)
|
||||
|
||||
/// GraphWalk is an abstraction over a directed graph = (nodes,edges)
|
||||
/// made up of node handles `N` and edge handles `E`, where each `E`
|
||||
/// can be mapped to its source and target nodes.
|
||||
///
|
||||
/// The lifetime parameter `'a` is exposed in this trait (rather than
|
||||
/// introduced as a generic parameter on each method declaration) so
|
||||
/// that a client impl can choose `N` and `E` that have substructure
|
||||
/// that is bound by the self lifetime `'a`.
|
||||
///
|
||||
/// The `nodes` and `edges` method each return instantiations of
|
||||
/// `MaybeOwnedVector` to leave implementors the freedom to create
|
||||
/// entirely new vectors or to pass back slices into internally owned
|
||||
/// vectors.
|
||||
pub trait GraphWalk<'a, N, E> {
|
||||
/// Returns all the nodes in this graph.
|
||||
fn nodes(&'a self) -> Nodes<'a, N>;
|
||||
/// Returns all of the edges in this graph.
|
||||
fn edges(&'a self) -> Edges<'a, E>;
|
||||
/// The source node for `edge`.
|
||||
fn source(&'a self, edge: &E) -> N;
|
||||
/// The target node for `edge`.
|
||||
fn target(&'a self, edge: &E) -> N;
|
||||
}
|
||||
|
||||
/// Renders directed graph `g` into the writer `w` in DOT syntax.
|
||||
/// (Main entry point for the library.)
|
||||
pub fn render<'a, N, E, G:Labeller<'a,N,E>+GraphWalk<'a,N,E>, W:Writer>(
|
||||
g: &'a G,
|
||||
w: &mut W) -> io::IoResult<()>
|
||||
{
|
||||
fn writeln<W:Writer>(w: &mut W, arg: &[&str]) -> io::IoResult<()> {
|
||||
for &s in arg.iter() { try!(w.write_str(s)); }
|
||||
w.write_char('\n')
|
||||
}
|
||||
|
||||
fn indent<W:Writer>(w: &mut W) -> io::IoResult<()> {
|
||||
w.write_str(" ")
|
||||
}
|
||||
|
||||
try!(writeln(w, ["digraph ", g.graph_id().as_slice(), " {"]));
|
||||
for n in g.nodes().iter() {
|
||||
try!(indent(w));
|
||||
let id = g.node_id(n);
|
||||
let escaped = g.node_label(n).escape();
|
||||
try!(writeln(w, [id.as_slice(),
|
||||
"[label=\"", escaped.as_slice(), "\"];"]));
|
||||
}
|
||||
|
||||
for e in g.edges().iter() {
|
||||
let escaped_label = g.edge_label(e).escape();
|
||||
try!(indent(w));
|
||||
let source = g.source(e);
|
||||
let target = g.target(e);
|
||||
let source_id = g.node_id(&source);
|
||||
let target_id = g.node_id(&target);
|
||||
try!(writeln(w, [source_id.as_slice(), " -> ", target_id.as_slice(),
|
||||
"[label=\"", escaped_label.as_slice(), "\"];"]));
|
||||
}
|
||||
|
||||
writeln(w, ["}"])
|
||||
}
|
||||
|
||||
#[cfg(test)]
|
||||
mod tests {
|
||||
use super::{Id, LabelText, LabelStr, EscStr, Labeller};
|
||||
use super::{Nodes, Edges, GraphWalk, render};
|
||||
use std::io::{MemWriter, BufReader, IoResult};
|
||||
use std::str;
|
||||
|
||||
/// each node is an index in a vector in the graph.
|
||||
type Node = uint;
|
||||
struct Edge {
|
||||
from: uint, to: uint, label: &'static str
|
||||
}
|
||||
|
||||
fn Edge(from: uint, to: uint, label: &'static str) -> Edge {
|
||||
Edge { from: from, to: to, label: label }
|
||||
}
|
||||
|
||||
struct LabelledGraph {
|
||||
/// The name for this graph. Used for labelling 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>>,
|
||||
|
||||
/// 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(uint),
|
||||
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::from_elem(len, None).move_iter().collect(),
|
||||
AllNodesLabelled(lbls)
|
||||
=> lbls.move_iter().map(
|
||||
|l|Some(l)).collect(),
|
||||
SomeNodesLabelled(lbls)
|
||||
=> lbls.move_iter().collect(),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl LabelledGraph {
|
||||
fn new(name: &'static str,
|
||||
node_labels: Trivial,
|
||||
edges: Vec<Edge>) -> LabelledGraph {
|
||||
LabelledGraph {
|
||||
name: name,
|
||||
node_labels: node_labels.to_opt_strs(),
|
||||
edges: edges
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl LabelledGraphWithEscStrs {
|
||||
fn new(name: &'static str,
|
||||
node_labels: Trivial,
|
||||
edges: Vec<Edge>) -> LabelledGraphWithEscStrs {
|
||||
LabelledGraphWithEscStrs {
|
||||
graph: LabelledGraph::new(name, node_labels, edges)
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
fn id_name<'a>(n: &Node) -> Id<'a> {
|
||||
Id::new(format!("N{:u}", *n))
|
||||
}
|
||||
|
||||
impl<'a> Labeller<'a, Node, &'a Edge> for LabelledGraph {
|
||||
fn graph_id(&'a self) -> Id<'a> {
|
||||
Id::new(self.name.as_slice())
|
||||
}
|
||||
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.get(*n) {
|
||||
&Some(ref l) => LabelStr(str::Slice(l.as_slice())),
|
||||
&None => LabelStr(id_name(n).name()),
|
||||
}
|
||||
}
|
||||
fn edge_label(&'a self, e: & &'a Edge) -> LabelText<'a> {
|
||||
LabelStr(str::Slice(e.label.as_slice()))
|
||||
}
|
||||
}
|
||||
|
||||
impl<'a> Labeller<'a, Node, &'a Edge> for LabelledGraphWithEscStrs {
|
||||
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) => EscStr(s),
|
||||
}
|
||||
}
|
||||
fn edge_label(&'a self, e: & &'a Edge) -> LabelText<'a> {
|
||||
match self.graph.edge_label(e) {
|
||||
LabelStr(s) | EscStr(s) => EscStr(s),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl<'a> GraphWalk<'a, Node, &'a Edge> for LabelledGraph {
|
||||
fn nodes(&'a self) -> Nodes<'a,Node> {
|
||||
range(0u, 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, Node, &'a Edge> for LabelledGraphWithEscStrs {
|
||||
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) -> IoResult<~str> {
|
||||
let mut writer = MemWriter::new();
|
||||
render(&g, &mut writer).unwrap();
|
||||
let mut r = BufReader::new(writer.get_ref());
|
||||
r.read_to_str()
|
||||
}
|
||||
|
||||
// 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!()));
|
||||
assert_eq!(r.unwrap().as_slice(),
|
||||
r#"digraph empty_graph {
|
||||
}
|
||||
"#);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn single_node() {
|
||||
let labels : Trivial = UnlabelledNodes(1);
|
||||
let r = test_input(LabelledGraph::new("single_node", labels, vec!()));
|
||||
assert_eq!(r.unwrap().as_slice(),
|
||||
r#"digraph single_node {
|
||||
N0[label="N0"];
|
||||
}
|
||||
"#);
|
||||
}
|
||||
|
||||
#[test]
|
||||
fn single_edge() {
|
||||
let labels : Trivial = UnlabelledNodes(2);
|
||||
let result = test_input(LabelledGraph::new("single_edge", labels,
|
||||
vec!(Edge(0, 1, "E"))));
|
||||
assert_eq!(result.unwrap().as_slice(),
|
||||
r#"digraph single_edge {
|
||||
N0[label="N0"];
|
||||
N1[label="N1"];
|
||||
N0 -> N1[label="E"];
|
||||
}
|
||||
"#);
|
||||
}
|
||||
|
||||
#[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"))));
|
||||
assert_eq!(r.unwrap().as_slice(),
|
||||
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, ""), Edge(0, 2, ""),
|
||||
Edge(1, 3, ""), Edge(2, 3, ""))));
|
||||
assert_eq!(r.unwrap().as_slice(),
|
||||
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 = MemWriter::new();
|
||||
|
||||
let g = LabelledGraphWithEscStrs::new(
|
||||
"syntax_tree", labels,
|
||||
vec!(Edge(0, 1, "then"), Edge(0, 2, "else"),
|
||||
Edge(1, 3, ";"), Edge(2, 3, ";" )));
|
||||
|
||||
render(&g, &mut writer).unwrap();
|
||||
let mut r = BufReader::new(writer.get_ref());
|
||||
let r = r.read_to_str();
|
||||
|
||||
assert_eq!(r.unwrap().as_slice(),
|
||||
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=";"];
|
||||
}
|
||||
"#);
|
||||
}
|
||||
}
|
71
src/libgraphviz/maybe_owned_vec.rs
Normal file
71
src/libgraphviz/maybe_owned_vec.rs
Normal file
@ -0,0 +1,71 @@
|
||||
// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
|
||||
// file at the top-level directory of this distribution and at
|
||||
// http://rust-lang.org/COPYRIGHT.
|
||||
//
|
||||
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
|
||||
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
|
||||
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
|
||||
// option. This file may not be copied, modified, or distributed
|
||||
// except according to those terms.
|
||||
|
||||
use std::container::Container;
|
||||
use std::iter::FromIterator;
|
||||
use std::slice;
|
||||
|
||||
// Note: Once Dynamically Sized Types (DST) lands, this should be
|
||||
// replaced with something like `enum Owned<'a, Sized? U>{ Owned(~U),
|
||||
// Borrowed(&'a U) }`; and then `U` could be instantiated with `[T]`
|
||||
// or `str`, etc.
|
||||
|
||||
/// MaybeOwnedVector<'a,T> abstracts over `Vec<T>` and `&'a [T]`.
|
||||
///
|
||||
/// Some clients will have a pre-allocated vector ready to hand off in
|
||||
/// a slice; others will want to create the set on the fly and hand
|
||||
/// off ownership.
|
||||
#[deriving(Eq)]
|
||||
pub enum MaybeOwnedVector<'a,T> {
|
||||
Growable(Vec<T>),
|
||||
Borrowed(&'a [T]),
|
||||
}
|
||||
|
||||
impl<'a,T> MaybeOwnedVector<'a,T> {
|
||||
pub fn iter(&'a self) -> slice::Items<'a,T> {
|
||||
match self {
|
||||
&Growable(ref v) => v.iter(),
|
||||
&Borrowed(ref v) => v.iter(),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl<'a,T> Container for MaybeOwnedVector<'a,T> {
|
||||
fn len(&self) -> uint {
|
||||
match self {
|
||||
&Growable(ref v) => v.len(),
|
||||
&Borrowed(ref v) => v.len(),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// The `Vector` trait is provided in the prelude and is implemented on
|
||||
// both `&'a [T]` and `Vec<T>`, so it makes sense to try to support it
|
||||
// seamlessly. The other vector related traits from the prelude do
|
||||
// not appear to be implemented on both `&'a [T]` and `Vec<T>`. (It
|
||||
// is possible that this is an oversight in some cases.)
|
||||
//
|
||||
// In any case, with `Vector` in place, the client can just use
|
||||
// `as_slice` if they prefer that over `match`.
|
||||
|
||||
impl<'b,T> slice::Vector<T> for MaybeOwnedVector<'b,T> {
|
||||
fn as_slice<'a>(&'a self) -> &'a [T] {
|
||||
match self {
|
||||
&Growable(ref v) => v.as_slice(),
|
||||
&Borrowed(ref v) => v.as_slice(),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl<'a,T> FromIterator<T> for MaybeOwnedVector<'a,T> {
|
||||
fn from_iter<I:Iterator<T>>(iterator: I) -> MaybeOwnedVector<T> {
|
||||
Growable(FromIterator::from_iter(iterator))
|
||||
}
|
||||
}
|
Loading…
Reference in New Issue
Block a user