A "cycle-safe" topological sort for a set of nodes with dependencies in Rust.
Basically, it allows sorting a list by its dependencies while checking for
cycles in the graph. If a cycle is detected, a CycleError is returned from the
iterator (or SortResults::Partial is returned if using the to/into_vec APIs)
.
Topological sorts are used to sort the nodes of a unidirectional graph. Typical applications would include anything that requires dependency based sorting. For example, it could be used to find the correct order of compilation dependencies, or it could be used to find module cycles in languages that don't allow cycles. The applications are limitless.
toml
[dependencies]
topo_sort = "0.2"
A basic example:
```rust use topo_sort::{SortResults, TopoSort};
fn main() { let mut toposort = TopoSort::withcapacity(5); // read as "C" depends on "A" and "B" toposort.insert("C", vec!["A", "B"]); toposort.insert("E", vec!["B", "C"]); toposort.insert("A", vec![]); toposort.insert("D", vec!["A", "C", "E"]); topo_sort.insert("B", vec!["A"]);
match topo_sort.into_vec() {
SortResults::Full(nodes) => assert_eq!(vec!["A", "B", "C", "E", "D"], nodes),
SortResults::Partial(_) => panic!("unexpected cycle!"),
}
} ```
...or using iteration:
```rust use topo_sort::TopoSort;
fn main() { let mut toposort = TopoSort::withcapacity(5); toposort.insert("C", vec!["A", "B"]); toposort.insert("E", vec!["B", "C"]); toposort.insert("A", vec![]); toposort.insert("D", vec!["A", "C", "E"]); topo_sort.insert("B", vec!["A"]);
let mut nodes = Vec::with_capacity(5);
for node in &topo_sort {
// We check for cycle errors before usage
match node {
Ok(node) => nodes.push(*node),
Err(_) => panic!("Unexpected cycle!"),
}
}
assert_eq!(vec!["A", "B", "C", "E", "D"], nodes);
} ```
Cycle detection:
```rust use topo_sort::TopoSort;
fn main() { let mut toposort = TopoSort::withcapacity(3); toposort.insert(1, vec![2, 3]); toposort.insert(2, vec![3]); asserteq!(vec![2, 1], toposort.tryownedvec().unwrap());
topo_sort.insert(3, vec![1]); // cycle
assert!(topo_sort.to_vec().is_err());
} ```
owned methods)Eq and Hash implemented on nodes
owned methods that require CloneVecUsing TopoSort is a basic two step process:
TopoSortVecResult so cycles can be detected every iterationto/into_vec functions - returns a SortResults enum with a Vec of
full (no cycle) or partial results (when cycle detected)try_[into]_vec functions - returns a Vec wrapped in a Result (full
or no results)This is implemented using Kahn's algorithm. While basic caution was taken not to do anything too egregious performance-wise, the author's use cases are not performance sensitive, and it has not been optimized. Still, the author tried to make reasonable trade offs and make it flexible for a variety of use cases, not just the author's.
The crate uses two tiny unsafe blocks which use the addresses of HashMap
keys in a new HashMap. This was necessary to avoid cloning inserted data on
owned iteration by self referencing the struct. Since there is no removal in
regular iteration (iter() or for loop using &), this should be safe as
there is no chance of the data moving during borrowed iteration. During
owned/consuming iteration (into_iter() or for without &), we remove the
entries as we go. If Rust's HashMap were to change and shrink during removals,
this iterator could break. If this makes you uncomfortable, simply don't use
consuming iteration.
This project is licensed optionally under either: