random-stuff/tictactoe.html

<!DOCTYPE html>
<html lang="en">
    <head>
        <meta charset="utf8">
        <meta name="viewport" content="width=device-width, initial-scale=1.0">
        <title>Tic-Tac-Toe</title>
        <style>
            .row {
                width: fit-content;
                height: 4em;
            }
            .layer {
                margin: 1em;
                width: fit-content;
                border: 1px solid black;
                display: inline-block;
            }
            .cell {
                width: 4em;
                height: 4em;
                display: inline-block;
                border: 1px solid gray;
            }
            .cell-1 {
                background: blue;
            }
            .cell-2 { 
                background: red;
            }
            .highlight {
                background: yellow;
                width: 50%;
                height: 50%;
                top: 25%;
                left: 25%;
                position: relative;
            }
            .view3d .layer {
                display: block;
                margin-bottom: 0;
                margin-top: 0;
                transform: rotateX(60deg) rotateZ(-45.8deg);
                margin-left: 4em;
            }
            .view3d .layer + .layer {
                margin-top: -4em;
            }
            .control, .control button, .control select {
                border: 1px solid black;
                border-radius: 0;
                padding: 0.3em;
            }
            .control select {
                transform: translateY(-1px)
            }
            #info {
                font-size: 1.5em;
                padding: 1rem;
            }
        </style>
    </head>
    <body>
        <div id="screen"></div>
        <div id="info"></div>
        <div id="controls">
            <button id="rotate" class="control">Rotate View</button>
            <span class="control"><input type="checkbox" name="view3d" id="view3d"><label for="view3d">3D</label></span>
            <span class="control"><input type="checkbox" name="lineassist" id="lineassist"><label for="lineassist">Line Assist</label></span>
            <span class="control">
                <select id="opponent">
                    <option value="ai1">"AI" v1</option>
                    <option value="ai2">"AI" v2</option>
                    <option value="human">Local Human</option>
                </select>
                Select Opponent
            </span>
        </div>
        <script id="game-logic">
            var size = 4
            var gsize = size ** 3
            var grid = new Uint8Array(gsize)
            var range = Array(size).fill(null).map((_, index) => index)

            function packCoord([l, r, c]) {
                return l + r * size + c * size * size
            }

            function cartesianProduct(xss) {
                var prods = [[]]
                for (const xs of xss) {
                    prods = xs.flatMap(x => prods.map(p => p.concat([x])))
                }
                return prods
            }
            function rotateArray(xs, by) {
                return xs.slice(by).concat(xs.slice(0, by))
            }
            function zip(xs, ys) {
                return xs.map((x, i) => [x, ys[i]])
            }
            var inPlaneDiagonals = cartesianProduct([[zip(range, range), zip(range, range.map(x => x).reverse())], range]).map(([diag, a]) => diag.map(([b, c]) => [a, b, c]))
            var throughLayerLines = cartesianProduct([range, range]).map(withinLayerPosition => range.map(i => withinLayerPosition.concat([i]))).concat(inPlaneDiagonals)
            var winConditions = throughLayerLines.concat(throughLayerLines.map(l => l.map(c => rotateArray(c, 1))), throughLayerLines.map(l => l.map(c => rotateArray(c, 2))))

            function insertDiagonalFrom(row, cell) {
                var diagonal = []
                var dirR = row == 0 ? 1 : -1
                var dirC = cell == 0 ? 1 : -1
                for (var layer = 0; layer < size; layer++) {
                    diagonal.push([layer, row, cell])
                    row += dirR
                    cell += dirC
                }
                winConditions.push(diagonal)
            }
            insertDiagonalFrom(0, 0)
            insertDiagonalFrom(0, size - 1)
            insertDiagonalFrom(size - 1, 0)
            insertDiagonalFrom(size - 1, size - 1)
            winConditions = winConditions.map(w => w.map(packCoord))

            var lineLookup = Array(gsize).fill(null).map((_, index) => winConditions.map((w, c) => [w, c]).filter(([w, c]) => w.includes(index)).map(x => x[0]))

            function containsWin(grid, last) {
                outer: for (var winCondition of (last ? lineLookup[last] : winConditions)) {
                    var fst = grid[winCondition[0]]
                    for (var i = 1; i < winCondition.length; i++) {
                        var val = grid[winCondition[i]]
                        if (val != fst || val == 0) {
                            continue outer
                        }
                    }
                    return fst
                }
            }

            function unfilledLineLocation(grid, player, last) {
                outer: for (var winCondition of (last ? lineLookup[last] : winConditions)) {
                    var count = 0
                    var last = null
                    for (var i = 0; i < winCondition.length; i++) {
                        if (grid[winCondition[i]] === player) {
                            count++
                        } else if (grid[winCondition[i]] == 0) {
                            last = winCondition[i]
                        } else {
                            continue outer
                        }
                    }
                    if (count == size - 1) { return last }
                }
            }

            // heuristic score for minmax - rate position based on difference in uncontested lines
            function heuristicScore(grid, player) {
                var self = 0
                var other = 0
                outer: for (var winCondition of winConditions) {
                    var count = 0
                    var fst = null
                    for (var i = 0; i < winCondition.length; i++) {
                        var val = grid[winCondition[i]]
                        if (val != 0) {
                            if (!fst) {
                                fst = val
                            }
                            if (val != fst) {
                                continue outer
                            } else {
                                count++
                            }
                        }
                    }
                    if (count > 0) {
                        if (fst === player) {
                            self += 1 << count
                        } else {
                            other += 1 << count
                        }
                    }
                }
                return self - other
            }

            function possibleMoves(grid) {
                var out = []
                for (var i = 0; i < gsize; i++) {
                    if (!grid[i]) {
                        out.push(i)
                    }
                }
                return out
            }

            function set(grid, cell, val) {
                var out = new Uint8Array(grid.length)
                out.set(grid)
                out[cell] = val
                return out
            }

            function otherPlayer(p) {
                return 3 - p
            }

            function randomPick(xs) {
                return xs[Math.floor(xs.length * Math.random())]
            }

            function hash(ar, seed=0) {
                let h1 = 0xdeadbeef ^ seed, h2 = 0x41c6ce57 ^ seed
                for (let i = 0, ch; i < ar.length; i++) {
                    ch = ar[i]
                    h1 = Math.imul(h1 ^ ch, 2654435761)
                    h2 = Math.imul(h2 ^ ch, 1597334677)
                }
                h1 = Math.imul(h1 ^ (h1>>>16), 2246822507) ^ Math.imul(h2 ^ (h2>>>13), 3266489909)
                //h2 = Math.imul(h2 ^ (h2>>>16), 2246822507) ^ Math.imul(h1 ^ (h1>>>13), 3266489909)
                return /*4294967296 * (2097151 & h2) + */(h1>>>0)
            }

            function runRandomGame(grid, player) {
                var targetPlayer = player
                while (true) {
                    var moves = possibleMoves(grid)
                    if (moves.length === 0) {
                        return 0
                    }
                    var move = randomPick(moves)
                    grid = set(grid, move, player)
                    var winner = containsWin(grid, move)
                    if (winner === targetPlayer) {
                        return 1
                    } else if (winner === otherPlayer(targetPlayer) || unfilledLineLocation(grid, otherPlayer(player), move)) {
                        return -1
                    }
                    player = otherPlayer(player)
                }
            }

            function scoreGrid(grid, player) {
                let score = 0
                for (let i = 0; i < 128; i++) {
                    score += runRandomGame(grid, player)
                }
                return score
            }

            function brokenMctsPolicy(grid, player) {
                // hardcoded limited nonstupidity
                var nextLoc = unfilledLineLocation(grid, player)
                if (nextLoc != null) { return nextLoc }
                nextLoc = unfilledLineLocation(grid, otherPlayer(player))
                if (nextLoc != null) { return nextLoc }
                
                var bestscore = -Infinity
                var best = null
                var moves = possibleMoves(grid)
                for (const p of moves) {
                    var optn = scoreGrid(set(grid, p, player), player)
                    if (optn > bestscore) {
                        bestscore = optn
                        best = p
                    }
                }
                return best
            }

            function minimax(grid, depth, forPlayer, maximizingPlayer, alpha, beta, last=null) {
                var winner = containsWin(grid, last)
                if (winner) {
                    return winner === forPlayer ? 100000 : -100000
                }
                if (depth === 0) {
                    return heuristicScore(grid, forPlayer)
                }
                var moves = possibleMoves(grid)
                if (moves.length === 0) { // draw
                    return 99999
                }
                if (maximizingPlayer) {
                    var value = -Infinity
                    for (var move of moves) {
                        value = Math.max(value, minimax(set(grid, move, forPlayer), depth - 1, forPlayer, false, alpha, beta, move))
                        if (value >= beta) {
                            break
                        }
                        alpha = Math.max(alpha, value)
                    }
                    return value
                }
                else {
                    value = Infinity
                    for (var move of moves) {
                        value = Math.min(value, minimax(set(grid, move, otherPlayer(forPlayer)), depth - 1, forPlayer, true, alpha, beta, move))
                        if (value <= alpha) {
                            break
                        }
                        beta = Math.min(beta, value)
                    }
                    return value
                }
            }

            function minimaxPolicy(grid, player) {
                var best = -Infinity
                var optn = null
                for (var move of possibleMoves(grid)) {
                    var r = minimax(set(grid, move, player), 3, player, false, -Infinity, Infinity)
                    if (r > best) {
                        optn = move
                        best = r
                    }
                }
                return optn
            }

            var policies = {
                ai1: brokenMctsPolicy,
                ai2: minimaxPolicy
            }
        </script>
        <script>
            // copyright (2022 CE) © © © osmarks.net hypercomputational tetrational metahexagonal industrial - unsigned integer division
            var workerGlue = `
            onmessage = event => {
                var [policy, ...args] = event.data
                postMessage(policies[policy](...args))
            }
            `
            var highlight = new Uint8Array(gsize)
            var worker = new Worker(`data:application/javascript;base64,${btoa(document.getElementById("game-logic").innerHTML + workerGlue)}`)
            var screen = document.getElementById("screen")
            var info = document.getElementById("info")
            var rotation = 0
            document.getElementById("rotate").onclick = () => {
                rotation += 1
                rotation %= 3
                render()
            }
            
            function set3D() {
                if (document.getElementById("view3d").checked) {
                    screen.classList.add("view3d")
                } else {
                    screen.classList.remove("view3d")
                }
            }

            document.getElementById("view3d").onclick = set3D
            set3D()

            var currentPlayer = 1

            var gameOver = false

            function render() {
                var html = ""
                for (var l = 0; l < size; l++) {
                    html += '<div class="layer">'
                    for (var r = 0; r < size; r++) {
                        html += '<div class="row">'
                        for (var c = 0; c < size; c++) {
                            var coord = packCoord(rotateArray([l, r, c], rotation))
                            var hl = ""
                            if (highlight[coord]) {
                                hl = `<div class="highlight" style="background: hsl(${highlight[coord] * 20 + 40}deg, 100%, 60%)"></div>`
                            }
                            html += `<div class="cell cell-${grid[coord]}" id="cell-${coord}">${hl}</div>`
                        }
                        html += '</div>'
                    }
                    html += '</div>'
                }
                screen.innerHTML = html
                if (!gameOver) info.innerHTML = `Player ${currentPlayer}'s turn`
            }

            function reset() {
                gameOver = false
                grid = new Uint8Array(gsize)
                currentPlayer = 1
                render()
            }

            var opponent = document.querySelector("#opponent")

            function opponentIsAI() {
                return opponent.value.startsWith("ai")
            }

            function onTurn(move) {
                if (gameOver) return true
                grid[move] = currentPlayer
                currentPlayer = otherPlayer(currentPlayer)
                render()
                var winner = containsWin(grid)
                var isDraw = possibleMoves(grid).length === 0
                if (winner != null || isDraw) {
                    setTimeout(() => {
                        if (winner) {
                            info.innerHTML = `${winner} wins! Click to reset.`
                        } else {
                            info.innerHTML = "Draw! Click to reset."
                        }
                        var el = () => {
                            reset()
                            info.removeEventListener("click", el)
                        }
                        info.addEventListener("click", el)
                        gameOver = true
                    })
                    return true
                }
            }

            function findTarget(ev) {
                var target = ev.target
                if (target.classList.contains("highlight")) {
                    return target.parentNode
                } else {
                    return target
                }
            }

            worker.onmessage = event => {
                onTurn(event.data)
            }

            var holdHighlight = false

            screen.onmousemove = event => {
                var [start, coord] = findTarget(event).id.split("-")
                var coord = parseInt(coord)
                if (holdHighlight) {
                    if (event.shiftKey) {
                        holdHighlight = !holdHighlight
                    }
                    return
                }
                highlight = new Uint8Array(gsize)
                if (!isNaN(coord) && typeof coord == "number" && start == "cell" && document.getElementById("lineassist").checked) {
                    highlight = new Uint8Array(gsize)
                    for (var [line, id] of lineLookup[coord].map((x, i) => [x, i])) {
                        for (var pos of line) {
                            highlight[pos] = id + 1
                        }
                    }
                }
                if (event.shiftKey) {
                    holdHighlight = true
                }
                render()
                return
            }

            screen.onclick = event => {
                if (gameOver) return
                holdHighlight = false
                if (currentPlayer != 1 && opponentIsAI()) { return }
                var [start, coord] = findTarget(event).id.split("-")
                var coord = parseInt(coord)
                if (isNaN(coord) || typeof coord != "number" || start != "cell") { return }
                if (grid[coord]) { return }
                if (!onTurn(coord) && opponentIsAI()) {
                    worker.postMessage([opponent.value, grid, currentPlayer])
                }
            }
            render()
        </script>
    </body>
</html>
publish backlog of things 2022-02-05 14:45:04 +00:00			`<!DOCTYPE html>`
			`<html lang="en">`
			`<head>`
			`<meta charset="utf8">`
			`<meta name="viewport" content="width=device-width, initial-scale=1.0">`
			`<title>Tic-Tac-Toe</title>`
			`<style>`
			`.row {`
			`width: fit-content;`
			`height: 4em;`
			`}`
			`.layer {`
			`margin: 1em;`
			`width: fit-content;`
			`border: 1px solid black;`
			`display: inline-block;`
			`}`
			`.cell {`
			`width: 4em;`
			`height: 4em;`
			`display: inline-block;`
			`border: 1px solid gray;`
			`}`
			`.cell-1 {`
			`background: blue;`
			`}`
			`.cell-2 {`
			`background: red;`
			`}`
			`.highlight {`
			`background: yellow;`
			`width: 50%;`
			`height: 50%;`
			`top: 25%;`
			`left: 25%;`
			`position: relative;`
			`}`
			`.view3d .layer {`
			`display: block;`
			`margin-bottom: 0;`
			`margin-top: 0;`
			`transform: rotateX(60deg) rotateZ(-45.8deg);`
			`margin-left: 4em;`
			`}`
			`.view3d .layer + .layer {`
			`margin-top: -4em;`
			`}`
			`.control, .control button, .control select {`
			`border: 1px solid black;`
			`border-radius: 0;`
			`padding: 0.3em;`
			`}`
			`.control select {`
			`transform: translateY(-1px)`
			`}`
			`#info {`
			`font-size: 1.5em;`
			`padding: 1rem;`
			`}`
			`</style>`
			`</head>`
			`<body>`
			`<div id="screen"></div>`
			`<div id="info"></div>`
			`<div id="controls">`
			`<button id="rotate" class="control">Rotate View</button>`
			`<span class="control"><input type="checkbox" name="view3d" id="view3d"><label for="view3d">3D</label></span>`
			`<span class="control"><input type="checkbox" name="lineassist" id="lineassist"><label for="lineassist">Line Assist</label></span>`
			`<span class="control">`
			`<select id="opponent">`
			`<option value="ai1">"AI" v1</option>`
			`<option value="ai2">"AI" v2</option>`
			`<option value="human">Local Human</option>`
			`</select>`
			`Select Opponent`
			`</span>`
			`</div>`
			`<script id="game-logic">`
			`var size = 4`
			`var gsize = size ** 3`
			`var grid = new Uint8Array(gsize)`
			`var range = Array(size).fill(null).map((_, index) => index)`

			`function packCoord([l, r, c]) {`
			`return l + r * size + c * size * size`
			`}`

			`function cartesianProduct(xss) {`
			`var prods = [[]]`
			`for (const xs of xss) {`
			`prods = xs.flatMap(x => prods.map(p => p.concat([x])))`
			`}`
			`return prods`
			`}`
			`function rotateArray(xs, by) {`
			`return xs.slice(by).concat(xs.slice(0, by))`
			`}`
			`function zip(xs, ys) {`
			`return xs.map((x, i) => [x, ys[i]])`
			`}`
			`var inPlaneDiagonals = cartesianProduct([[zip(range, range), zip(range, range.map(x => x).reverse())], range]).map(([diag, a]) => diag.map(([b, c]) => [a, b, c]))`
			`var throughLayerLines = cartesianProduct([range, range]).map(withinLayerPosition => range.map(i => withinLayerPosition.concat([i]))).concat(inPlaneDiagonals)`
			`var winConditions = throughLayerLines.concat(throughLayerLines.map(l => l.map(c => rotateArray(c, 1))), throughLayerLines.map(l => l.map(c => rotateArray(c, 2))))`

			`function insertDiagonalFrom(row, cell) {`
			`var diagonal = []`
			`var dirR = row == 0 ? 1 : -1`
			`var dirC = cell == 0 ? 1 : -1`
			`for (var layer = 0; layer < size; layer++) {`
			`diagonal.push([layer, row, cell])`
			`row += dirR`
			`cell += dirC`
			`}`
			`winConditions.push(diagonal)`
			`}`
			`insertDiagonalFrom(0, 0)`
			`insertDiagonalFrom(0, size - 1)`
			`insertDiagonalFrom(size - 1, 0)`
			`insertDiagonalFrom(size - 1, size - 1)`
			`winConditions = winConditions.map(w => w.map(packCoord))`

			`var lineLookup = Array(gsize).fill(null).map((_, index) => winConditions.map((w, c) => [w, c]).filter(([w, c]) => w.includes(index)).map(x => x[0]))`

			`function containsWin(grid, last) {`
			`outer: for (var winCondition of (last ? lineLookup[last] : winConditions)) {`
			`var fst = grid[winCondition[0]]`
			`for (var i = 1; i < winCondition.length; i++) {`
			`var val = grid[winCondition[i]]`
			`if (val != fst \|\| val == 0) {`
			`continue outer`
			`}`
			`}`
			`return fst`
			`}`
			`}`

			`function unfilledLineLocation(grid, player, last) {`
			`outer: for (var winCondition of (last ? lineLookup[last] : winConditions)) {`
			`var count = 0`
			`var last = null`
			`for (var i = 0; i < winCondition.length; i++) {`
			`if (grid[winCondition[i]] === player) {`
			`count++`
			`} else if (grid[winCondition[i]] == 0) {`
			`last = winCondition[i]`
			`} else {`
			`continue outer`
			`}`
			`}`
			`if (count == size - 1) { return last }`
			`}`
			`}`

			`// heuristic score for minmax - rate position based on difference in uncontested lines`
			`function heuristicScore(grid, player) {`
			`var self = 0`
			`var other = 0`
			`outer: for (var winCondition of winConditions) {`
			`var count = 0`
			`var fst = null`
			`for (var i = 0; i < winCondition.length; i++) {`
			`var val = grid[winCondition[i]]`
			`if (val != 0) {`
			`if (!fst) {`
			`fst = val`
			`}`
			`if (val != fst) {`
			`continue outer`
			`} else {`
			`count++`
			`}`
			`}`
			`}`
			`if (count > 0) {`
			`if (fst === player) {`
			`self += 1 << count`
			`} else {`
			`other += 1 << count`
			`}`
			`}`
			`}`
			`return self - other`
			`}`

			`function possibleMoves(grid) {`
			`var out = []`
			`for (var i = 0; i < gsize; i++) {`
			`if (!grid[i]) {`
			`out.push(i)`
			`}`
			`}`
			`return out`
			`}`

			`function set(grid, cell, val) {`
			`var out = new Uint8Array(grid.length)`
			`out.set(grid)`
			`out[cell] = val`
			`return out`
			`}`

			`function otherPlayer(p) {`
			`return 3 - p`
			`}`

			`function randomPick(xs) {`
			`return xs[Math.floor(xs.length * Math.random())]`
			`}`

			`function hash(ar, seed=0) {`
			`let h1 = 0xdeadbeef ^ seed, h2 = 0x41c6ce57 ^ seed`
			`for (let i = 0, ch; i < ar.length; i++) {`
			`ch = ar[i]`
			`h1 = Math.imul(h1 ^ ch, 2654435761)`
			`h2 = Math.imul(h2 ^ ch, 1597334677)`
			`}`
			`h1 = Math.imul(h1 ^ (h1>>>16), 2246822507) ^ Math.imul(h2 ^ (h2>>>13), 3266489909)`
			`//h2 = Math.imul(h2 ^ (h2>>>16), 2246822507) ^ Math.imul(h1 ^ (h1>>>13), 3266489909)`
			`return /4294967296 (2097151 & h2) + */(h1>>>0)`
			`}`

			`function runRandomGame(grid, player) {`
			`var targetPlayer = player`
			`while (true) {`
			`var moves = possibleMoves(grid)`
			`if (moves.length === 0) {`
			`return 0`
			`}`
			`var move = randomPick(moves)`
			`grid = set(grid, move, player)`
			`var winner = containsWin(grid, move)`
			`if (winner === targetPlayer) {`
			`return 1`
			`} else if (winner === otherPlayer(targetPlayer) \|\| unfilledLineLocation(grid, otherPlayer(player), move)) {`
			`return -1`
			`}`
			`player = otherPlayer(player)`
			`}`
			`}`

			`function scoreGrid(grid, player) {`
			`let score = 0`
			`for (let i = 0; i < 128; i++) {`
			`score += runRandomGame(grid, player)`
			`}`
			`return score`
			`}`

			`function brokenMctsPolicy(grid, player) {`
			`// hardcoded limited nonstupidity`
			`var nextLoc = unfilledLineLocation(grid, player)`
			`if (nextLoc != null) { return nextLoc }`
			`nextLoc = unfilledLineLocation(grid, otherPlayer(player))`
			`if (nextLoc != null) { return nextLoc }`

			`var bestscore = -Infinity`
			`var best = null`
			`var moves = possibleMoves(grid)`
			`for (const p of moves) {`
			`var optn = scoreGrid(set(grid, p, player), player)`
			`if (optn > bestscore) {`
			`bestscore = optn`
			`best = p`
			`}`
			`}`
			`return best`
			`}`

			`function minimax(grid, depth, forPlayer, maximizingPlayer, alpha, beta, last=null) {`
			`var winner = containsWin(grid, last)`
			`if (winner) {`
			`return winner === forPlayer ? 100000 : -100000`
			`}`
			`if (depth === 0) {`
			`return heuristicScore(grid, forPlayer)`
			`}`
			`var moves = possibleMoves(grid)`
			`if (moves.length === 0) { // draw`
			`return 99999`
			`}`
			`if (maximizingPlayer) {`
			`var value = -Infinity`
			`for (var move of moves) {`
			`value = Math.max(value, minimax(set(grid, move, forPlayer), depth - 1, forPlayer, false, alpha, beta, move))`
			`if (value >= beta) {`
			`break`
			`}`
			`alpha = Math.max(alpha, value)`
			`}`
			`return value`
			`}`
			`else {`
			`value = Infinity`
			`for (var move of moves) {`
			`value = Math.min(value, minimax(set(grid, move, otherPlayer(forPlayer)), depth - 1, forPlayer, true, alpha, beta, move))`
			`if (value <= alpha) {`
			`break`
			`}`
			`beta = Math.min(beta, value)`
			`}`
			`return value`
			`}`
			`}`

			`function minimaxPolicy(grid, player) {`
			`var best = -Infinity`
			`var optn = null`
			`for (var move of possibleMoves(grid)) {`
			`var r = minimax(set(grid, move, player), 3, player, false, -Infinity, Infinity)`
			`if (r > best) {`
			`optn = move`
			`best = r`
			`}`
			`}`
			`return optn`
			`}`

			`var policies = {`
			`ai1: brokenMctsPolicy,`
			`ai2: minimaxPolicy`
			`}`
			`</script>`
			`<script>`
			`// copyright (2022 CE) © © © osmarks.net hypercomputational tetrational metahexagonal industrial - unsigned integer division`
			var workerGlue = `
			`onmessage = event => {`
			`var [policy, ...args] = event.data`
			`postMessage(policies[policy](...args))`
			`}`
			`
			`var highlight = new Uint8Array(gsize)`
			var worker = new Worker(`data:application/javascript;base64,${btoa(document.getElementById("game-logic").innerHTML + workerGlue)}`)
			`var screen = document.getElementById("screen")`
			`var info = document.getElementById("info")`
			`var rotation = 0`
			`document.getElementById("rotate").onclick = () => {`
			`rotation += 1`
			`rotation %= 3`
			`render()`
			`}`

			`function set3D() {`
			`if (document.getElementById("view3d").checked) {`
			`screen.classList.add("view3d")`
			`} else {`
			`screen.classList.remove("view3d")`
			`}`
			`}`

			`document.getElementById("view3d").onclick = set3D`
			`set3D()`

			`var currentPlayer = 1`

			`var gameOver = false`

			`function render() {`
			`var html = ""`
			`for (var l = 0; l < size; l++) {`
			`html += '<div class="layer">'`
			`for (var r = 0; r < size; r++) {`
			`html += '<div class="row">'`
			`for (var c = 0; c < size; c++) {`
			`var coord = packCoord(rotateArray([l, r, c], rotation))`
			`var hl = ""`
			`if (highlight[coord]) {`
			hl = `<div class="highlight" style="background: hsl(${highlight[coord] * 20 + 40}deg, 100%, 60%)"></div>`
			`}`
			html += `<div class="cell cell-${grid[coord]}" id="cell-${coord}">${hl}</div>`
			`}`
			`html += '</div>'`
			`}`
			`html += '</div>'`
			`}`
			`screen.innerHTML = html`
			if (!gameOver) info.innerHTML = `Player ${currentPlayer}'s turn`
			`}`

			`function reset() {`
			`gameOver = false`
			`grid = new Uint8Array(gsize)`
			`currentPlayer = 1`
			`render()`
			`}`

			`var opponent = document.querySelector("#opponent")`

			`function opponentIsAI() {`
			`return opponent.value.startsWith("ai")`
			`}`

			`function onTurn(move) {`
			`if (gameOver) return true`
			`grid[move] = currentPlayer`
			`currentPlayer = otherPlayer(currentPlayer)`
			`render()`
			`var winner = containsWin(grid)`
			`var isDraw = possibleMoves(grid).length === 0`
			`if (winner != null \|\| isDraw) {`
			`setTimeout(() => {`
			`if (winner) {`
			info.innerHTML = `${winner} wins! Click to reset.`
			`} else {`
			`info.innerHTML = "Draw! Click to reset."`
			`}`
			`var el = () => {`
			`reset()`
			`info.removeEventListener("click", el)`
			`}`
			`info.addEventListener("click", el)`
			`gameOver = true`
			`})`
			`return true`
			`}`
			`}`

			`function findTarget(ev) {`
			`var target = ev.target`
			`if (target.classList.contains("highlight")) {`
			`return target.parentNode`
			`} else {`
			`return target`
			`}`
			`}`

			`worker.onmessage = event => {`
			`onTurn(event.data)`
			`}`

			`var holdHighlight = false`

			`screen.onmousemove = event => {`
			`var [start, coord] = findTarget(event).id.split("-")`
			`var coord = parseInt(coord)`
			`if (holdHighlight) {`
			`if (event.shiftKey) {`
			`holdHighlight = !holdHighlight`
			`}`
			`return`
			`}`
			`highlight = new Uint8Array(gsize)`
			`if (!isNaN(coord) && typeof coord == "number" && start == "cell" && document.getElementById("lineassist").checked) {`
			`highlight = new Uint8Array(gsize)`
			`for (var [line, id] of lineLookup[coord].map((x, i) => [x, i])) {`
			`for (var pos of line) {`
			`highlight[pos] = id + 1`
			`}`
			`}`
			`}`
			`if (event.shiftKey) {`
			`holdHighlight = true`
			`}`
			`render()`
			`return`
			`}`

			`screen.onclick = event => {`
			`if (gameOver) return`
			`holdHighlight = false`
			`if (currentPlayer != 1 && opponentIsAI()) { return }`
			`var [start, coord] = findTarget(event).id.split("-")`
			`var coord = parseInt(coord)`
			`if (isNaN(coord) \|\| typeof coord != "number" \|\| start != "cell") { return }`
			`if (grid[coord]) { return }`
			`if (!onTurn(coord) && opponentIsAI()) {`
			`worker.postMessage([opponent.value, grid, currentPlayer])`
			`}`
			`}`
			`render()`
			`</script>`
			`</body>`
			`</html>`