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updates solver.rs

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artus
2018-12-24 14:17:48 +01:00
parent c6642268b5
commit 8bdf7bb3b7
1 changed files with 16 additions and 17 deletions
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33
planner/src/solver.rs
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@@ -19,19 +19,21 @@ impl<V: fmt::Debug> fmt::Debug for Domain<V> {
} }
} }
type AssignMap<'a, V> = HashMap<String, Option<&'a V>>; type Variables<'a, V> = HashMap<String, Option<&'a V>>;
/// Returns all possible Updates for next assignements. /// Returns all possible Updates for next assignements, prepended with
/// They are added to the stack, just after a Clear for the next variable /// a Clear to ensure the variable is unset before when leaving the branch.
fn assign_next<'a,'b, V>(assign: &'b AssignMap<'a, V>, domain: &'a Domain<V>) fn assign_next<'a,'b, V>(assign: &'b Variables<'a, V>, domain: &'a Domain<V>)
-> Option<Vec<Assignment<'a, V>>> -> Option<Vec<Assignment<'a, V>>>
where V: fmt::Debug where V: fmt::Debug
{ {
// Panics on empty domain // Panics on empty domain
if domain.values.is_empty() { panic!("No values in domain : {:?}", domain); }; if domain.values.is_empty() { panic!("No values in domain : {:?}", domain); };
// TODO: should be able to inject a choosing strategy
if let Some((key,_)) = assign.iter().find(|(_, val)| val.is_none()) { if let Some((key,_)) = assign.iter().find(|(_, val)| val.is_none()) {
let mut updates = vec![Assignment::Clear(key.clone())]; let mut updates = vec![Assignment::Clear(key.clone())];
// TODO: should be able to filter domain values (inference, pertinence)
for value in domain.values.iter() { for value in domain.values.iter() {
updates.push(Assignment::Update(key.clone(), value)); updates.push(Assignment::Update(key.clone(), value));
} }
@@ -42,7 +44,7 @@ fn assign_next<'a,'b, V>(assign: &'b AssignMap<'a, V>, domain: &'a Domain<V>)
} }
/// Check if any constraint is violated /// Check if any constraint is violated
fn check_consistency<'a, V>(assign: &'a AssignMap<'a, V>, constraint: fn(&AssignMap<'a,V>) -> bool) -> bool { fn check_consistency<'a, V>(assign: &'a Variables<'a, V>, constraint: fn(&Variables<'a,V>) -> bool) -> bool {
constraint(assign) constraint(assign)
} }
@@ -53,15 +55,10 @@ enum Assignment<'a, V> {
/// Visit all possible solutions, using a stack. /// Visit all possible solutions, using a stack.
/// A single mutable map is used to lay out every outcome. fn solve_all<'a, V: Clone + fmt::Debug>(mut assign: Variables<'a, V>, domain: &'a Domain<V>, is_valid: fn(&Variables<'a,V>) -> bool)
/// Using the stack to Update or Clear values : -> Vec<Variables<'a, V>>
/// - After an Update : run assign_next to stack next updates. If there are none,
/// check for consistency, store in solutions if valid and close the branch (Clear)
/// - After a Clear : simply visit the next node on the stack.
fn solve_all<'a, V: Clone + fmt::Debug>(mut assign: AssignMap<'a, V>, domain: &'a Domain<V>, is_valid: fn(&AssignMap<'a,V>) -> bool)
-> Vec<AssignMap<'a, V>>
{ {
let mut solutions: Vec<AssignMap<V>> = vec![]; let mut solutions: Vec<Variables<V>> = vec![];
let mut stack: Vec<Assignment<'a, V>> = vec![]; let mut stack: Vec<Assignment<'a, V>> = vec![];
stack.append(&mut assign_next(&assign,domain).unwrap()); stack.append(&mut assign_next(&assign,domain).unwrap());
loop { loop {
@@ -69,18 +66,20 @@ fn solve_all<'a, V: Clone + fmt::Debug>(mut assign: AssignMap<'a, V>, domain: &'
if node.is_none() { break; }; if node.is_none() { break; };
match node.unwrap() { match node.unwrap() {
Assignment::Update(key, val) => { Assignment::Update(key, val) => {
// Assign the variable and open new branches, if any.
*assign.get_mut(&key).unwrap() = Some(val); *assign.get_mut(&key).unwrap() = Some(val);
// Search for next assignments
// TODO: handle case of empty domain.values // TODO: handle case of empty domain.values
if let Some(mut nodes) = assign_next(&assign, domain) { if let Some(mut nodes) = assign_next(&assign, domain) {
stack.append(&mut nodes); stack.append(&mut nodes);
} else { } else {
// Assignements are completed
if is_valid(&assign) { if is_valid(&assign) {
solutions.push(assign.clone()); solutions.push(assign.clone());
}; };
}; };
}, },
Assignment::Clear(key) => { Assignment::Clear(key) => {
// We are closing this branch, unset the variable
*assign.get_mut(&key).unwrap() = None; *assign.get_mut(&key).unwrap() = None;
}, },
}; };
@@ -95,15 +94,15 @@ mod tests {
fn test_solver_find_pairs() { fn test_solver_find_pairs() {
use super::*; use super::*;
// Find all pairs of two differents // Find all pairs of two differents
let assign: AssignMap<i32> = [ let assign: Variables<i32> = [
("Left".to_string(), None), ("Left".to_string(), None),
("Right".to_string(), None), ("Right".to_string(), None),
].iter().cloned().collect(); ].iter().cloned().collect();
let domain = Domain::new(vec![1,2,3]); let domain = Domain::new(vec![1,2,3]);
let constraint = |assign: &AssignMap<i32>| { let constraint = |assign: &Variables<i32>| {
assign.get("Left").unwrap() == assign.get("Right").unwrap() assign.get("Left").unwrap() == assign.get("Right").unwrap()
}; };
let solutions: Vec<AssignMap<i32>> = vec![ let solutions: Vec<Variables<i32>> = vec![
[("Left".to_string(), Some(&3)), ("Right".to_string(), Some(&3)),].iter().cloned().collect(), [("Left".to_string(), Some(&3)), ("Right".to_string(), Some(&3)),].iter().cloned().collect(),
[("Left".to_string(), Some(&2)), ("Right".to_string(), Some(&2)),].iter().cloned().collect(), [("Left".to_string(), Some(&2)), ("Right".to_string(), Some(&2)),].iter().cloned().collect(),
[("Left".to_string(), Some(&1)), ("Right".to_string(), Some(&1)),].iter().cloned().collect(), [("Left".to_string(), Some(&1)), ("Right".to_string(), Some(&1)),].iter().cloned().collect(),