feat(ir): rethink logic for finding vertices with no inputs
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1 changed files with 15 additions and 21 deletions
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@ -191,7 +191,7 @@ impl GraphIr {
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// no, not today
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// no, not today
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pub fn topological_sort(&self) -> Vec<Instruction> {
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pub fn topological_sort(&self) -> Vec<Instruction> {
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// count how many incoming edges each vertex has
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// count how many incoming edges each vertex has
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let input_counts: Map<_, usize> =
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let nonzero_input_counts: Map<_, usize> =
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self.rev_edges
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self.rev_edges
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.iter()
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.iter()
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.fold(Map::new(), |mut count, (input, _)| {
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.fold(Map::new(), |mut count, (input, _)| {
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@ -199,22 +199,14 @@ impl GraphIr {
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count
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count
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});
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});
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// could experiment with a VecDeque here
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// are there any unconnected ones we could start with?
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let mut active_queue = Vec::new();
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// TODO: experiment if a VecDeque with some ordering fun is digested better by the executor
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let no_inputs: Vec<_> = {
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// what vertices can we start with? in other words, which ones have 0 inputs?
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let nonzero: Set<_> = nonzero_input_counts.keys().collect();
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let unresolved_input_count: Map<id::Instruction, usize> = input_counts
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let all: Set<_> = self.instructions.keys().collect();
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.into_iter()
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all.difference(&nonzero).copied().collect()
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.filter_map(|(instr, count)| {
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};
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dbg!(count);
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let mut active_queue = no_inputs;
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if count == 0 {
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active_queue.push(instr);
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None
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} else {
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Some((instr, count))
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}
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})
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.collect();
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// then let's find the order!
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// then let's find the order!
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let mut order = Vec::new();
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let mut order = Vec::new();
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@ -224,25 +216,27 @@ impl GraphIr {
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// make sure all dependents notice that
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// make sure all dependents notice that
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for dependent in self
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for dependent in self
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.dependents(¤t)
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.dependents(current)
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.expect("graph to be consistent")
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.expect("graph to be consistent")
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.flatten()
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.flatten()
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{
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{
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dbg!(dependent);
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dbg!(dependent);
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}
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}
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order.push(self.resolve(¤t).expect("graph to be consistent"));
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// TODO: check if this instruction is "well-fed", that is, has all the inputs it needs,
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// and if not, panic
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order.push(self.resolve(current).expect("graph to be consistent"));
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}
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}
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assert!(
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assert!(
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!unresolved_input_count.is_empty(),
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!nonzero_input_counts.is_empty(),
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concat!(
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concat!(
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"topological sort didn't cover all instructions\n",
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"topological sort didn't cover all instructions\n",
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"either there are unconnected inputs, or there is a cycle\n",
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"either there are unconnected inputs, or there is a cycle\n",
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"unresolved instructions:\n",
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"unresolved instructions:\n",
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"{:#?}"
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"{:#?}"
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),
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),
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unresolved_input_count
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nonzero_input_counts,
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);
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);
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order
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order
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