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// Given a node in a tree, return all of the peer dependency sets that // it is a part of, with the entry (top or non-peer) edges into the sets // identified. // // With this information, we can determine whether it is appropriate to // replace the entire peer set with another (and remove the old one), // push the set deeper into the tree, and so on. // // Returns a Map of { edge => Set(peerNodes) }, const peerEntrySets = node => { // this is the union of all peer groups that the node is a part of // later, we identify all of the entry edges, and create a set of // 1 or more overlapping sets that this node is a part of. const unionSet = new Set([node]) for (const node of unionSet) { for (const edge of node.edgesOut.values()) { if (edge.valid && edge.peer && edge.to) { unionSet.add(edge.to) } } for (const edge of node.edgesIn) { if (edge.valid && edge.peer) { unionSet.add(edge.from) } } } const entrySets = new Map() for (const peer of unionSet) { for (const edge of peer.edgesIn) { // if not valid, it doesn't matter anyway. either it's been previously // peerConflicted, or it's the thing we're interested in replacing. if (!edge.valid) { continue } // this is the entry point into the peer set if (!edge.peer || edge.from.isTop) { // get the subset of peer brought in by this peer entry edge const sub = new Set([peer]) for (const peer of sub) { for (const edge of peer.edgesOut.values()) { if (edge.valid && edge.peer && edge.to) { sub.add(edge.to) } } } // if this subset does not include the node we are focused on, // then it is not relevant for our purposes. Example: // // a -> (b, c, d) // b -> PEER(d) b -> d -> e -> f <-> g // c -> PEER(f, h) c -> (f <-> g, h -> g) // d -> PEER(e) d -> e -> f <-> g // e -> PEER(f) // f -> PEER(g) // g -> PEER(f) // h -> PEER(g) // // The unionSet(e) will include c, but we don't actually care about // it. We only expanded to the edge of the peer nodes in order to // find the entry edges that caused the inclusion of peer sets // including (e), so we want: // Map{ // Edge(a->b) => Set(b, d, e, f, g) // Edge(a->d) => Set(d, e, f, g) // } if (sub.has(node)) { entrySets.set(edge, sub) } } } } return entrySets } module.exports = peerEntrySets