donn/graph.swift

## graph.swift
#!/usr/bin/env quips
/*
    Requires quips - github.com/donn/quips

    yeet

    Swift
    --
    This is free and unencumbered software released into the public domain.
    Anyone is free to copy, modify, publish, use, compile, sell, or
    distribute this software, either in source code form or as a compiled
    binary, for any purpose, commercial or non-commercial, and by any
    means.
    In jurisdictions that recognize copyright laws, the author or authors
    of this software dedicate any and all copyright interest in the
    software to the public domain. We make this dedication for the benefit
    of the public at large and to the detriment of our heirs and
    successors. We intend this dedication to be an overt act of
    relinquishment in perpetuity of all present and future rights to this
    software under copyright law.
    THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
    EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
    MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
    IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
    OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
    ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
    OTHER DEALINGS IN THE SOFTWARE.
    For more information, please refer to <http://unlicense.org/>
*/
@quipgh SwiftPriorityQueue:davecom/SwiftPriorityQueue:1.3.0

struct Edge {
    let from: String
    let to: String
    let cost: Int
}

struct Node: Comparable {
    let name: String
    let cost: Int
    let path: [String]

    static func <(lhs: Node, rhs: Node) -> Bool {
        return lhs.cost < rhs.cost
    }

    static func ==(lhs: Node, rhs: Node) -> Bool {
        return lhs.cost == rhs.cost
    }
}

struct Graph {
    let edgesByNode: [String: [Edge]]

    init(_ edges: [Edge]) {
        var edgesByNode: [String: [Edge]] = [:]
        for edge in edges {
            edgesByNode[edge.from] = edgesByNode[edge.from] ?? []
            edgesByNode[edge.from]!.append(edge)
        }
        self.edgesByNode = edgesByNode
    }

    func uniformCostSearch(from start: String, to goal: String) -> (path: [String], cost: Int)? {
        var frontier: PriorityQueue<Node> = PriorityQueue(ascending: true)
        var explored: Set<String> = []

        frontier.push(Node(name: start, cost: 0, path: []))

        while true {
            guard let current = frontier.pop() else {
                return nil
            }

            print("Arrived at \(current.name)")
            explored.insert(current.name)

            let currentPath = current.path + [current.name]
            let currentCost = current.cost

            if current.name == goal {
                print("\(current.name) is the goal. Leaving...")
                return (path: currentPath, cost: currentCost)
            } else {
                print("\(current.name) is not the goal. Continuing...")
            }

            let edges = edgesByNode[current.name] ?? []
            for edge in edges {
                let totalCost = currentCost + edge.cost

                print("Found an edge from \(edge.from) to \(edge.to) with cost \(edge.cost) (Total: \(currentCost) + \(edge.cost) = \(totalCost)).")
                if explored.contains(edge.to) {
                    print("Node \(edge.to) already explored. Continuing...")
                    continue
                }

                var foundStop: Node? = nil

                for stop in frontier {
                    if stop.name == edge.to {
                        foundStop = stop
                    }
                }

                if let stop = foundStop {
                    if totalCost < stop.cost {
                        print("Found a cheaper way to \(edge.to) (\(totalCost) vs \(stop.cost)). The more expensive one will be replaced.")
                        frontier.remove(stop)
                    } else {
                        print("There is already a better way to \(edge.to) costing \(stop.cost) on the frontier.")
                        continue
                    }
                } else {
                    print("The node \(edge.to) was not explored or in the frontier, so it will be added.")
                }

                frontier.push(Node(name: edge.to, cost: totalCost, path: currentPath))

            }
        }
    }
}

let simple = false
if simple {
    let graph = Graph([
        Edge(from: "S", to: "B", cost: 5),
        Edge(from: "S", to: "D", cost: 3),
        Edge(from: "B", to: "C", cost: 1),
        Edge(from: "C", to: "E", cost: 6),
        Edge(from: "C", to: "G", cost: 8),
        Edge(from: "D", to: "E", cost: 2),
        Edge(from: "D", to: "F", cost: 2),
        Edge(from: "E", to: "B", cost: 4),
        Edge(from: "F", to: "G", cost: 3),
        Edge(from: "G", to: "E", cost: 4),
    ]) // Expected solution: SDFG, 8

    print(graph.uniformCostSearch(from: "S", to: "G") ?? "No solution.")
} else {
    let graph = Graph([
        Edge(from: "S", to: "d", cost: 3),
        Edge(from: "S", to: "e", cost: 9),
        Edge(from: "S", to: "p", cost: 1),
        Edge(from: "b", to: "a", cost: 2),
        Edge(from: "c", to: "a", cost: 2),
        Edge(from: "d", to: "b", cost: 1),
        Edge(from: "d", to: "c", cost: 8),
        Edge(from: "d", to: "e", cost: 2),
        Edge(from: "e", to: "h", cost: 1),
        Edge(from: "e", to: "r", cost: 9),
        Edge(from: "h", to: "q", cost: 4),
        Edge(from: "h", to: "p", cost: 4),
        Edge(from: "f", to: "G", cost: 5),
        Edge(from: "p", to: "q", cost: 15),
        Edge(from: "q", to: "r", cost: 3),
        Edge(from: "r", to: "f", cost: 5)
    ]) // Expected Solution: SdehqrfG, 23

    print(graph.uniformCostSearch(from: "S", to: "G") ?? "No solution.")
}
	#!/usr/bin/env quips
	/*
	Requires quips - github.com/donn/quips

	yeet

	Swift
	--
	This is free and unencumbered software released into the public domain.
	Anyone is free to copy, modify, publish, use, compile, sell, or
	distribute this software, either in source code form or as a compiled
	binary, for any purpose, commercial or non-commercial, and by any
	means.
	In jurisdictions that recognize copyright laws, the author or authors
	of this software dedicate any and all copyright interest in the
	software to the public domain. We make this dedication for the benefit
	of the public at large and to the detriment of our heirs and
	successors. We intend this dedication to be an overt act of
	relinquishment in perpetuity of all present and future rights to this
	software under copyright law.
	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
	EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
	MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
	IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
	OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
	ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
	OTHER DEALINGS IN THE SOFTWARE.
	For more information, please refer to <http://unlicense.org/>
	*/
	@quipgh SwiftPriorityQueue:davecom/SwiftPriorityQueue:1.3.0

	struct Edge {
	let from: String
	let to: String
	let cost: Int
	}

	struct Node: Comparable {
	let name: String
	let cost: Int
	let path: [String]

	static func <(lhs: Node, rhs: Node) -> Bool {
	return lhs.cost < rhs.cost
	}

	static func ==(lhs: Node, rhs: Node) -> Bool {
	return lhs.cost == rhs.cost
	}
	}

	struct Graph {
	let edgesByNode: [String: [Edge]]

	init(_ edges: [Edge]) {
	var edgesByNode: [String: [Edge]] = [:]
	for edge in edges {
	edgesByNode[edge.from] = edgesByNode[edge.from] ?? []
	edgesByNode[edge.from]!.append(edge)
	}
	self.edgesByNode = edgesByNode
	}

	func uniformCostSearch(from start: String, to goal: String) -> (path: [String], cost: Int)? {
	var frontier: PriorityQueue<Node> = PriorityQueue(ascending: true)
	var explored: Set<String> = []

	frontier.push(Node(name: start, cost: 0, path: []))

	while true {
	guard let current = frontier.pop() else {
	return nil
	}

	print("Arrived at \(current.name)")
	explored.insert(current.name)

	let currentPath = current.path + [current.name]
	let currentCost = current.cost

	if current.name == goal {
	print("\(current.name) is the goal. Leaving...")
	return (path: currentPath, cost: currentCost)
	} else {
	print("\(current.name) is not the goal. Continuing...")
	}

	let edges = edgesByNode[current.name] ?? []
	for edge in edges {
	let totalCost = currentCost + edge.cost

	print("Found an edge from \(edge.from) to \(edge.to) with cost \(edge.cost) (Total: \(currentCost) + \(edge.cost) = \(totalCost)).")
	if explored.contains(edge.to) {
	print("Node \(edge.to) already explored. Continuing...")
	continue
	}

	var foundStop: Node? = nil

	for stop in frontier {
	if stop.name == edge.to {
	foundStop = stop
	}
	}

	if let stop = foundStop {
	if totalCost < stop.cost {
	print("Found a cheaper way to \(edge.to) (\(totalCost) vs \(stop.cost)). The more expensive one will be replaced.")
	frontier.remove(stop)
	} else {
	print("There is already a better way to \(edge.to) costing \(stop.cost) on the frontier.")
	continue
	}
	} else {
	print("The node \(edge.to) was not explored or in the frontier, so it will be added.")
	}

	frontier.push(Node(name: edge.to, cost: totalCost, path: currentPath))

	}
	}
	}
	}

	let simple = false
	if simple {
	let graph = Graph([
	Edge(from: "S", to: "B", cost: 5),
	Edge(from: "S", to: "D", cost: 3),
	Edge(from: "B", to: "C", cost: 1),
	Edge(from: "C", to: "E", cost: 6),
	Edge(from: "C", to: "G", cost: 8),
	Edge(from: "D", to: "E", cost: 2),
	Edge(from: "D", to: "F", cost: 2),
	Edge(from: "E", to: "B", cost: 4),
	Edge(from: "F", to: "G", cost: 3),
	Edge(from: "G", to: "E", cost: 4),
	]) // Expected solution: SDFG, 8

	print(graph.uniformCostSearch(from: "S", to: "G") ?? "No solution.")
	} else {
	let graph = Graph([
	Edge(from: "S", to: "d", cost: 3),
	Edge(from: "S", to: "e", cost: 9),
	Edge(from: "S", to: "p", cost: 1),
	Edge(from: "b", to: "a", cost: 2),
	Edge(from: "c", to: "a", cost: 2),
	Edge(from: "d", to: "b", cost: 1),
	Edge(from: "d", to: "c", cost: 8),
	Edge(from: "d", to: "e", cost: 2),
	Edge(from: "e", to: "h", cost: 1),
	Edge(from: "e", to: "r", cost: 9),
	Edge(from: "h", to: "q", cost: 4),
	Edge(from: "h", to: "p", cost: 4),
	Edge(from: "f", to: "G", cost: 5),
	Edge(from: "p", to: "q", cost: 15),
	Edge(from: "q", to: "r", cost: 3),
	Edge(from: "r", to: "f", cost: 5)
	]) // Expected Solution: SdehqrfG, 23

	print(graph.uniformCostSearch(from: "S", to: "G") ?? "No solution.")
	}