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import XCTest
@testable import SwiftChessNeo

final class Sage2Tests: XCTestCase {
    
    func testBoardInitializer() {
        XCTAssertEqual(Board(variant: .standard), Board())
        XCTAssertNotEqual(Board(variant: nil), Board())
    }
    
    func testBoardEquality() {
        XCTAssertEqual(Board(), Board())
        XCTAssertEqual(Board(variant: nil), Board(variant: nil))
        XCTAssertNotEqual(Board(), Board(variant: nil))
        var board = Board(variant: .standard)
        board.removePiece(at: .a1)
        XCTAssertNotEqual(Board(), board)
    }
    
    func testBoardPopulate() {
         let board = Board()
         XCTAssertEqual(board.pieces.count, 32)
         XCTAssertEqual(board.whitePieces.count, 16)
         XCTAssertEqual(board.blackPieces.count, 16)
         for file in File.all { for rank in Rank.all {
             if let piece = board[(file, rank)] {
                 let color = piece.color
                 XCTAssertTrue((color.isWhite ? [1, 2] : [7, 8]).contains(rank))
                 if piece.kind.isPawn {
                     XCTAssertTrue([2, 7].contains(rank))
                 } else {
                     XCTAssertTrue([1, 8].contains(rank))
                 }
                     switch piece.kind {
                     case .pawn:
                         break
                     case .knight:
                         XCTAssertTrue([.b, .g].contains(file))
                     case .bishop:
                         XCTAssertTrue([.c, .f].contains(file))
                     case .rook:
                         XCTAssertTrue([.a, .h].contains(file))
                     case .queen:
                         XCTAssertEqual(file, File.d)
                     case .king:
                         XCTAssertEqual(file, File.e)
                     }
             } else {
                 XCTAssertTrue([3, 4, 5, 6].contains(rank))
             }
         } }
         XCTAssertTrue(Board(variant: nil).pieces.isEmpty)
     }

     func testBoardFromCharacters() {
         let board = Board(pieces: [["r", "n", "b", "q", "k", "b", "n", "r"],
                                    ["p", "p", "p", "p", "p", "p", "p", "p"],
                                    [" ", " ", " ", " ", " ", " ", " ", " "],
                                    [" ", " ", " ", " ", " ", " ", " ", " "],
                                    [" ", " ", " ", " ", " ", " ", " ", " "],
                                    [" ", " ", " ", " ", " ", " ", " ", " "],
                                    ["P", "P", "P", "P", "P", "P", "P", "P"],
                                    ["R", "N", "B", "Q", "K", "B", "N", "R"]])
         XCTAssertEqual(board, Board())
     }

     func testBoardSequence() {
         let board = Board()
         let spaces = Array(board)
         let pieces = spaces.compactMap({ $0.piece })
         let whitePieces = pieces.filter({ $0.color.isWhite })
         let blackPieces = pieces.filter({ $0.color.isBlack })
         XCTAssertEqual(spaces.count, 64)
         XCTAssertEqual(pieces.count, 32)
         XCTAssertEqual(whitePieces.count, 16)
         XCTAssertEqual(blackPieces.count, 16)
     }

     func testBoardSubscript() {
         var board = Board()
         #if swift(>=3)
             XCTAssertEqual(Piece(pawn: .white), board[.a2])
             XCTAssertEqual(Piece(king: .black), board[.e8])
             let piece = Piece(pawn: .black)
         #else
             XCTAssertEqual(Piece(pawn: .White), board[.A2])
             XCTAssertEqual(Piece(king: .Black), board[.E8])
             let piece = Piece(pawn: .Black)
         #endif
         let location = ("A", 3) as Location
         XCTAssertNil(board[location])
         board[location] = piece
         XCTAssertEqual(board[location], piece)
         board[location] = nil
         XCTAssertNil(board[location])
     }

     func testBoardSwap() {
         let start = Board()
         var board = start
         let location1 = ("D", 1) as Location
         let location2 = ("F", 2) as Location
         board.swap(location1, location2)
         XCTAssertEqual(start[location1], board[location2])
         XCTAssertEqual(start[location2], board[location1])
     }

     func testAllFiles() {
         XCTAssertEqual(File.all, ["a", "b", "c", "d", "e", "f", "g", "h"])
     }

     func testAllRanks() {
         XCTAssertEqual(Rank.all, [1, 2, 3, 4, 5, 6, 7, 8])
     }

     func testFileOpposite() {
         let all = File.all
         #if swift(>=3)
             let reversed = all.reversed()
         #else
             let reversed = all.reverse()
         #endif
         for (a, b) in zip(all, reversed) {
             XCTAssertEqual(a.opposite(), b)
         }
     }

     func testRankOpposite() {
         let all = Rank.all
         #if swift(>=3)
             let reversed = all.reversed()
         #else
             let reversed = all.reverse()
         #endif
         for (a, b) in zip(all, reversed) {
             XCTAssertEqual(a.opposite(), b)
         }
     }

     func testFileTo() {
         #if swift(>=3)
             XCTAssertEqual(File.a.to(.h), File.all)
             XCTAssertEqual(File.a.to(.a), [File.a])
         #else
             XCTAssertEqual(File.A.to(.H), File.all)
             XCTAssertEqual(File.A.to(.A), [File.A])
         #endif
     }

     func testRankTo() {
         #if swift(>=3)
             XCTAssertEqual(Rank.one.to(.eight), Rank.all)
             XCTAssertEqual(Rank.one.to(.one), [Rank.one])
         #else
             XCTAssertEqual(Rank.One.to(.Eight), Rank.all)
             XCTAssertEqual(Rank.One.to(.One), [Rank.One])
         #endif
     }

     func testFileBetween() {
         #if swift(>=3)
             XCTAssertEqual(File.c.between(.f), [.d, .e])
             XCTAssertEqual(File.c.between(.d), [])
             XCTAssertEqual(File.c.between(.c), [])
         #else
             XCTAssertEqual(File.C.between(.F), [.D, .E])
             XCTAssertEqual(File.C.between(.D), [])
             XCTAssertEqual(File.C.between(.C), [])
         #endif
     }

     func testRankBetween() {
         #if swift(>=3)
             XCTAssertEqual(Rank.two.between(.five), [.three, .four])
             XCTAssertEqual(Rank.two.between(.three), [])
             XCTAssertEqual(Rank.two.between(.two), [])
         #else
             XCTAssertEqual(Rank.Two.between(.Five), [.Three, .Four])
             XCTAssertEqual(Rank.Two.between(.Three), [])
             XCTAssertEqual(Rank.Two.between(.Two), [])
         #endif
     }

     func testFileFromCharacter() {
         for u in 65...72 {
             #if swift(>=3)
                 let scalar = UnicodeScalar(u)!
             #else
                 let scalar = UnicodeScalar(u)
             #endif
             XCTAssertNotNil(File(Character(scalar)))
         }
         for u in 97...104 {
             #if swift(>=3)
                 let scalar = UnicodeScalar(u)!
             #else
                 let scalar = UnicodeScalar(u)
             #endif
             XCTAssertNotNil(File(Character(scalar)))
         }
     }

     func testRankFromNumber() {
         for n in 1...8 {
             XCTAssertNotNil(Rank(n))
         }
     }

     func testMoveEquality() {
         #if swift(>=3)
             let move = Move(start: .a1, end: .c3)
             XCTAssertEqual(move, move)
             XCTAssertEqual(move, Move(start: .a1, end: .c3))
             XCTAssertNotEqual(move, Move(start: .a1, end: .b1))
         #else
             let move = Move(start: .A1, end: .C3)
             XCTAssertEqual(move, move)
             XCTAssertEqual(move, Move(start: .A1, end: .C3))
             XCTAssertNotEqual(move, Move(start: .A1, end: .B1))
         #endif
     }

     func testMoveRotation() {
         #if swift(>=3)
             let move = Move(start: .a1, end: .c6)
             let rotated = move.rotated()
             XCTAssertEqual(rotated.start, Square.h8)
             XCTAssertEqual(rotated.end, Square.f3)
         #else
             let move = Move(start: .A1, end: .C6)
             let rotated = move.rotated()
             XCTAssertEqual(rotated.start, Square.H8)
             XCTAssertEqual(rotated.end, Square.F3)
         #endif
     }

     func testMoveOperator() {
         for file in File.all { for rank in Rank.all {
             let start = Square(file: file, rank: rank)
             let end = Square(file: file.opposite(), rank: rank.opposite())
             XCTAssertEqual(Move(start: start, end: end), start >>> end)
         } }
     }

     func testGameRandomMoves() throws {
         let game = Game()
         while let move = game.availableMoves().random() {
             let enemyColor = game.playerTurn.inverse()
             let enemyKingSpace = game.board.squareForKing(for: enemyColor)
             guard move.end != enemyKingSpace else {
                 let error = "Attempted attack to king for \(enemyColor): \(move.formatted())"
                     + "\nPosition: " + game.position.fen().debugDescription
                     + "\nMoves: \(game.playedMoves.formatted())"
                 XCTFail(error)
                 return
             }
             try game.execute(move: move)
         }
         guard let outcome = game.outcome else {
             XCTFail("Expected outcome for complete game")
             return
         }
         if let color = outcome.winColor {
             guard game.kingIsChecked && game.board.kingIsChecked(for: color.inverse()) else {
                 XCTFail("\(color.inverse()) should be in check if \(color) wins")
                 return
             }
         }
     }

     func testGameFromMoves() throws {
         let game = Game()
         while let move = game.availableMoves().random() {
             try game.execute(uncheckedMove: move)
         }
         do {
             let moves = game.playedMoves
             let other = try Game(moves: moves)
             XCTAssertEqual(other.board, game.board)
             XCTAssertEqual(other.playedMoves, moves)
         } catch {
             #if swift(>=3)
                 let str = String(describing: error)
             #else
                 let str = String(error)
             #endif
             XCTFail(str)
         }
     }

     func testGameDoubleStep() throws {
         let game = Game()
         for file in File.all {
             let move = Move(start: Square(location: (file, 2)), end: Square(location: (file, 5)))
             XCTAssertThrowsError(try game.execute(move: move)) { error in
                 #if swift(>=3)
                     guard case Game.ExecutionError.illegalMove = error else {
                         XCTFail("Expected MoveExecutionError.IllegalMove, got \(error)")
                         return
                     }
                 #else
                     guard case Game.ExecutionError.IllegalMove = error else {
                         XCTFail("Expected MoveExecutionError.IllegalMove, got \(error)")
                         return
                     }
                 #endif
             }
         }
         for file in File.all {
             try game.execute(move: Move(start: Square(location: (file, 2)), end: Square(location: (file, 4))))
             try game.execute(move: Move(start: Square(location: (file, 7)), end: Square(location: (file, 5))))
         }
     }

     func testGameEnPassant() {
         let game = Game()
         do {
             #if swift(>=3)
                 try game.execute(move: Move(start: .c2, end: .c4))
                 try game.execute(move: Move(start: .c7, end: .c6))
                 try game.execute(move: Move(start: .c4, end: .c5))
                 try game.execute(move: Move(start: .d7, end: .d5))
                 try game.execute(move: Move(start: .c5, end: .d6))
             #else
                 try game.execute(move: Move(start: .C2, end: .C4))
                 try game.execute(move: Move(start: .C7, end: .C6))
                 try game.execute(move: Move(start: .C4, end: .C5))
                 try game.execute(move: Move(start: .D7, end: .D5))
                 try game.execute(move: Move(start: .C5, end: .D6))
             #endif
         } catch {
             #if swift(>=3)
                 let str = String(describing: error)
             #else
                 let str = String(error)
             #endif
             XCTFail(str)
         }
     }

     func testGameWhiteKingSideCastlingRightsAfterRookCapture() {
         let startFen = "r3k2r/8/8/8/8/8/8/R3K2R b KQkq - 0 1"
         let startPosition = Game.Position(fen: startFen)!
         let game = try! Game(position: startPosition)
         #if swift(>=3)
             let move = Move(start: .h8, end: .h1)
         #else
             let move = Move(start: .H8, end: .H1)
         #endif
         try! game.execute(move: move)
         #if swift(>=3)
             XCTAssertFalse(game.castlingRights.contains(.whiteKingside))
         #else
             XCTAssertFalse(game.castlingRights.contains(.WhiteKingside))
         #endif
     }

     func testGameWhiteQueenSideCastlingRightsAfterRookCapture() {
         let startFen = "r3k2r/8/8/8/8/8/8/R3K2R b KQkq - 0 1"
         let startPosition = Game.Position(fen: startFen)!
         let game = try! Game(position: startPosition)
         #if swift(>=3)
             let move = Move(start: .a8, end: .a1)
         #else
             let move = Move(start: .A8, end: .A1)
         #endif
         try! game.execute(move: move)
         #if swift(>=3)
             XCTAssertFalse(game.castlingRights.contains(.whiteQueenside))
         #else
             XCTAssertFalse(game.castlingRights.contains(.WhiteQueenside))
         #endif
     }

     func testGameBlackKingSideCastlingRightsAfterRookCapture() {
         let startFen = "r3k2r/8/8/8/8/8/8/R3K2R w KQkq - 0 1"
         let startPosition = Game.Position(fen: startFen)!
         let game = try! Game(position: startPosition)
         #if swift(>=3)
             let move = Move(start: .h1, end: .h8)
         #else
             let move = Move(start: .H1, end: .H8)
         #endif
         try! game.execute(move: move)
         #if swift(>=3)
             XCTAssertFalse(game.castlingRights.contains(.blackKingside))
         #else
             XCTAssertFalse(game.castlingRights.contains(.BlackKingside))
         #endif
     }

     func testGameBlackQueenSideCastlingRightsAfterRookCapture() {
         let startFen = "r3k2r/8/8/8/8/8/8/R3K2R w KQkq - 0 1"
         let startPosition = Game.Position(fen: startFen)!
         let game = try! Game(position: startPosition)
         #if swift(>=3)
             let move = Move(start: .a1, end: .a8)
         #else
             let move = Move(start: .A1, end: .A8)
         #endif
         try! game.execute(move: move)
         #if swift(>=3)
             XCTAssertFalse(game.castlingRights.contains(.blackQueenside))
         #else
             XCTAssertFalse(game.castlingRights.contains(.BlackQueenside))
         #endif
     }

     func testGameUndoAndRedo() throws {
         let game = Game()
         let startBoard = game.board
         var endBoard = startBoard
         var moves = [Move]()

         while let move = game.availableMoves().random() {
             try game.execute(uncheckedMove: move)
             moves.append(move)
             endBoard = game.board
         }
         #if swift(>=3)
             var redoMoves = moves.reversed() as [Move]
         #else
             var redoMoves = moves.reverse() as [Move]
         #endif

         while let move = game.moveToUndo() {
             XCTAssertEqual(move, game.undoMove())
             XCTAssertEqual(move, moves.popLast())
         }
         XCTAssert(moves.isEmpty)
         XCTAssertEqual(game.board, startBoard)

         while let move = game.moveToRedo() {
             XCTAssertEqual(move, game.redoMove())
             XCTAssertEqual(move, redoMoves.popLast())
         }
         XCTAssertEqual(game.board, endBoard)
     }

     func testPGNParsingAndExporting() throws {
         let immortalGame = String()
             + "[Event \"London\"]\n"
             + "[Site \"London\"]\n"
             + "[Date \"1851.??.??\"]\n"
             + "[EventDate \"?\"]\n"
             + "[Round \"?\"]\n"
             + "[Result \"1-0\"]\n"
             + "[White \"Adolf Anderssen\"]\n"
             + "[Black \"Kieseritzky\"]\n"
             + "[ECO \"C33\"]\n"
             + "[WhiteElo \"?\"]\n"
             + "[BlackElo \"?\"]\n"
             + "[PlyCount \"45\"]\n"
             + "\n"
             + "1.e4 e5 2.f4 exf4 3.Bc4 Qh4+ 4.Kf1 b5 5.Bxb5 Nf6 6.Nf3 Qh6 7.d3 Nh5 8.Nh4 Qg5\n"
             + "9.Nf5 c6 10.g4 Nf6 11.Rg1 cxb5 12.h4 Qg6 13.h5 Qg5 14.Qf3 Ng8 15.Bxf4 Qf6\n"
             + "16.Nc3 Bc5 17.Nd5 Qxb2 18.Bd6 Bxg1 19. e5 Qxa1+ 20. Ke2 Na6 21.Nxg7+ Kd8\n"
             + "22.Qf6+ Nxf6 23.Be7# 1-0\n"

         let returnGame = String()
             + "[Event \"F/S Return Match\"]\n"
             + "[Site \"Belgrade, Serbia Yugoslavia|JUG\"]\n"
             + "[Date \"1992.11.04\"]\n"
             + "[Round \"29\"]\n"
             + "[White \"Fischer, Robert J.\"]\n"
             + "[Black \"Spassky, Boris V.\"]\n"
             + "[Result \"1/2-1/2\"]\n"
             + "\n"
             + "1. e4 e5 2. Nf3 Nc6 3. Bb5 a6 {This opening is called the Ruy Lopez.}\n"
             + "4. Ba4 Nf6 5. O-O Be7 6. Re1 b5 7. Bb3 d6 8. c3 O-O 9. h3 Nb8  10. d4 Nbd7\n"
             + "11. c4 c6 12. cxb5 axb5 13. Nc3 Bb7 14. Bg5 b4 15. Nb1 h6 16. Bh4 c5 17. dxe5\n"
             + "Nxe4 18. Bxe7 Qxe7 19. exd6 Qf6 20. Nbd2 Nxd6 21. Nc4 Nxc4 22. Bxc4 Nb6\n"
             + "23. Ne5 Rae8 24. Bxf7+ Rxf7 25. Nxf7 Rxe1+ 26. Qxe1 Kxf7 27. Qe3 Qg5 28. Qxg5\n"
             + "hxg5 29. b3 Ke6 30. a3 Kd6 31. axb4 cxb4 32. Ra5 Nd5 33. f3 Bc8 34. Kf2 Bf5\n"
             + "35. Ra7 g6 36. Ra6+ Kc5 37. Ke1 Nf4 38. g3 Nxh3 39. Kd2 Kb5 40. Rd6 Kc5 41. Ra6\n"
             + "Nf2 42. g4 Bd3 43. Re6 1/2-1/2\n"

         let immortalGamePGN = try PGN(parse: immortalGame)
         XCTAssertEqual(immortalGamePGN.moves.count, 45)
         XCTAssertEqual(immortalGamePGN.outcome, Game.Outcome._win(._white))
         let returnGamePGN = try PGN(parse: returnGame)
         XCTAssertEqual(returnGamePGN.moves.count, 85)
         XCTAssertEqual(returnGamePGN.outcome, Game.Outcome._draw)

         let immortalGameExportedPGN = try PGN(parse: immortalGamePGN.exported())
         let returnGameExportedPGN = try PGN(parse: returnGamePGN.exported())
         XCTAssertEqual(immortalGameExportedPGN, immortalGamePGN)
         XCTAssertEqual(returnGameExportedPGN, returnGamePGN)
         XCTAssertNotEqual(immortalGameExportedPGN, returnGamePGN)
         XCTAssertNotEqual(returnGameExportedPGN, immortalGamePGN)
     }

 }

 extension Int {

     static func random(from value: Int) -> Int {
         #if os(OSX) || os(iOS) || os(watchOS) || os(tvOS)
             return Int(arc4random_uniform(UInt32(value)))
         #elseif os(Linux)
             srand(.init(time(nil)))
             return Int(rand() % .init(value))
         #else
             fatalError("Unknown OS")
         #endif
     }

 }

 extension Array {

     func random() -> Element? {
         return !self.isEmpty ? self[.random(from: count)] : nil
     }

 }

 extension Move {

     func formatted() -> String {
         let result = ".\(start) >>> .\(end)"
         #if swift(>=3)
             return result.lowercased()
         #else
             return result.uppercaseString
         #endif
     }

 }

 extension Sequence where Iterator.Element == Move {

     func formatted() -> String {
         let values = map { $0.formatted() }
         let string = values.joined(separator: ", ")
         return "[" + string + "]"
     }

 }