index.html

<!DOCTYPE html>
<html lang="en">
<head>
    <meta charset="UTF-8">
    <meta name="viewport" content="width=device-width, initial-scale=1.0">
    <title>Hexagon Ecosystem Evolution</title>
    <style>
        body { margin: 0; background-color: #282c34; color: white; font-family: Arial; overflow: hidden; }
        #gameContainer { display: flex; height: 100vh; }
        #sidebar { width: 300px; padding: 10px; text-align: left; background-color: #1e1e1e; overflow-y: auto; }
        canvas { flex-grow: 1; background-color: #1e1e1e; cursor: pointer; height: 100%; }
        #timer, #counts, #selection { font-size: 18px; margin: 10px 0; }
        button { margin: 3px; padding: 8px; font-size: 14px; cursor: pointer; width: 50px; }
        .category { margin-top: 15px; font-weight: bold; }
    </style>
</head>
<body>
    <div id="gameContainer">
        <div id="sidebar">
            <div id="timer">Time Left: 5:00</div>
            <div id="counts">Counts: Loading...</div>
            <div id="selection">
                <div class="category">Plants</div>
                <div id="plantSelection"></div>
                <div class="category">Insects</div>
                <div id="insectSelection"></div>
                <div class="category">Animals</div>
                <div id="animalSelection"></div>
            </div>
        </div>
        <canvas id="gameCanvas"></canvas>
    </div>
    <script>
        const canvas = document.getElementById("gameCanvas");
        const ctx = canvas.getContext("2d");

        canvas.width = window.innerWidth - 300; // Full width minus sidebar
        canvas.height = window.innerHeight; // Full height

        const hexSize = 30;
        const hexWidth = Math.sqrt(3) * hexSize;
        const hexHeight = 2 * hexSize;
        const offsetX = hexWidth;
        const offsetY = hexHeight * 0.75;
        const rows = Math.ceil(canvas.height / offsetY) + 1;
        const cols = Math.ceil(canvas.width / offsetX) + 1;
        let hexGrid = [];
        let timer = 300;
        let selectedEntity = null;

        const entities = {
            plants: ["🌱", "🌿", "🍁", "🌺", "🌸", "🌼", "🌻", "🌾", "🌳", "🌴", "🍂", "🍃", "🍇", "🍊", "🍎", "🍑", "🍒", "🍓", "🍍", "🥕"],
            insects: ["🐝", "🦋", "🐞"],
            animals: ["🐇", "🦊", "🦌", "🐦", "🐿️"]
        };
        let resources = {};
        let counts = {};
        let animalPairs = new Map();

        function initializeEntities() {
            Object.keys(entities).forEach(category => {
                entities[category].forEach(entity => {
                    resources[entity] = 5;
                    counts[entity] = 0;
                });
            });
        }

        function generateHexGrid() {
            hexGrid = [];
            for (let row = 0; row < rows; row++) {
                for (let col = 0; col < cols; col++) {
                    let x = col * offsetX;
                    let y = row * offsetY + (col % 2 ? offsetY / 2 : 0);
                    hexGrid.push({ x, y, type: "empty", entities: [], nourishment: 0 });
                }
            }
        }

        function selectEntity(entity) {
            selectedEntity = entity;
        }

        function drawHex(hex) {
            const { x, y, type, entities } = hex;
            ctx.beginPath();
            for (let i = 0; i < 6; i++) {
                let angle = (Math.PI / 3) * i;
                let px = x + hexSize * Math.cos(angle);
                let py = y + hexSize * Math.sin(angle);
                ctx[i === 0 ? "moveTo" : "lineTo"](px, py);
            }
            ctx.closePath();
            ctx.fillStyle = type === "empty" ? "#C2B280" : "#90EE90";
            ctx.fill();
            ctx.stroke();
            ctx.fillStyle = "white";
            ctx.font = "18px Arial";
            entities.forEach((entity, index) => {
                let randX = x - 8 + (Math.random() * 16 - 8);
                let randY = y + 4 + (Math.random() * 16 - 8);
                ctx.fillText(entity, randX, randY);
            });
        }

        function getNeighbors(hexIndex) {
            const neighbors = [];
            const row = Math.floor(hexIndex / cols);
            const col = hexIndex % cols;
            const directions = [
                [-1, 0], [1, 0], [0, -1], [0, 1],
                col % 2 ? [-1, -1] : [-1, 1],
                col % 2 ? [1, -1] : [1, 1]
            ];
            directions.forEach(([dr, dc]) => {
                const newRow = row + dr;
                const newCol = col + dc;
                if (newRow >= 0 && newRow < rows && newCol >= 0 && newCol < cols) {
                    neighbors.push(newRow * cols + newCol);
                }
            });
            return neighbors;
        }

        function aStar(startIdx, goalIdx) {
            const openSet = new Set([startIdx]);
            const cameFrom = {};
            const gScore = { [startIdx]: 0 };
            const fScore = { [startIdx]: heuristic(startIdx, goalIdx) };

            while (openSet.size > 0) {
                let current = Array.from(openSet).reduce((a, b) => fScore[a] < fScore[b] ? a : b);
                if (current === goalIdx) return reconstructPath(cameFrom, current);

                openSet.delete(current);
                getNeighbors(current).forEach(neighbor => {
                    const tentativeGScore = gScore[current] + 1;
                    if (!gScore[neighbor] || tentativeGScore < gScore[neighbor]) {
                        cameFrom[neighbor] = current;
                        gScore[neighbor] = tentativeGScore;
                        fScore[neighbor] = gScore[neighbor] + heuristic(neighbor, goalIdx);
                        openSet.add(neighbor);
                    }
                });
            }
            return [];
        }

        function heuristic(a, b) {
            const rowA = Math.floor(a / cols), colA = a % cols;
            const rowB = Math.floor(b / cols), colB = b % cols;
            return Math.abs(rowA - rowB) + Math.abs(colA - colB);
        }

        function reconstructPath(cameFrom, current) {
            const path = [current];
            while (cameFrom[current] !== undefined) {
                current = cameFrom[current];
                path.unshift(current);
            }
            return path;
        }

        function pollinate() {
            hexGrid.forEach(hex => {
                if (hex.entities.some(e => entities.insects.includes(e))) {
                    hex.entities.forEach(entity => {
                        if (entities.plants.includes(entity) && Math.random() < 0.2) {
                            hex.entities.push(entity); // Plant baby in same hex
                            counts[entity]++;
                        }
                    });
                }
            });
        }

        function moveAnimals() {
            hexGrid.forEach((hex, index) => {
                let animalsToMove = [];
                hex.entities.forEach((entity, i) => {
                    if (entities.animals.includes(entity)) {
                        let nourishment = hex.nourishment;
                        const hasPlants = hex.entities.some(e => entities.plants.includes(e));
                        const hasInsects = hex.entities.some(e => entities.insects.includes(e));

                        // Eating logic
                        if (hasPlants && Math.random() < 0.3) {
                            const plantIdx = hex.entities.findIndex(e => entities.plants.includes(e));
                            hex.entities.splice(plantIdx, 1);
                            nourishment += 2;
                            counts[hex.entities[plantIdx]]--;
                        } else if (hasInsects && Math.random() < 0.5) {
                            const insectIdx = hex.entities.findIndex(e => entities.insects.includes(e));
                            hex.entities.splice(insectIdx, 1);
                            nourishment += 1;
                            counts[hex.entities[insectIdx]]--;
                        }

                        // Reproduction
                        const mateCount = hex.entities.filter(e => e === entity).length;
                        if (mateCount >= 2 && nourishment >= 2 && Math.random() < 0.1) {
                            hex.entities.push(entity); // Baby in same hex
                            counts[entity]++;
                            nourishment -= 2;
                            if (!animalPairs.has(entity + index)) {
                                animalPairs.set(entity + index, true);
                            }
                        }

                        // Movement toward food
                        const neighbors = getNeighbors(index);
                        let goalIdx = neighbors.find(n => hexGrid[n].entities.some(e => entities.plants.includes(e)));
                        if (!goalIdx) goalIdx = neighbors.find(n => hexGrid[n].entities.some(e => entities.insects.includes(e)));
                        if (!goalIdx) goalIdx = neighbors[Math.floor(Math.random() * neighbors.length)];

                        const path = aStar(index, goalIdx);
                        if (path.length > 1) {
                            animalsToMove.push({ entity, fromIdx: index, toIdx: path[1], nourishment });
                            if (animalPairs.has(entity + index)) {
                                const pairIdx = hex.entities.indexOf(entity, i + 1);
                                if (pairIdx !== -1) {
                                    animalsToMove.push({ entity, fromIdx: index, toIdx: path[1], nourishment });
                                }
                            }
                        }
                    }
                });

                animalsToMove.forEach(move => {
                    const fromHex = hexGrid[move.fromIdx];
                    const toHex = hexGrid[move.toIdx];
                    const entityIdx = fromHex.entities.indexOf(move.entity);
                    if (entityIdx !== -1) {
                        fromHex.entities.splice(entityIdx, 1);
                        toHex.entities.push(move.entity);
                        toHex.nourishment += move.nourishment;
                        fromHex.nourishment = Math.max(0, fromHex.nourishment - move.nourishment);
                        if (fromHex.entities.length === 0) fromHex.type = "empty";
                        toHex.type = "occupied";
                        if (animalPairs.has(move.entity + move.fromIdx)) {
                            animalPairs.delete(move.entity + move.fromIdx);
                            animalPairs.set(move.entity + move.toIdx, true);
                        }
                    }
                });
            });
        }

        function renderMap() {
            ctx.clearRect(0, 0, canvas.width, canvas.height);
            hexGrid.forEach(hex => drawHex(hex));
        }

        function updateGame() {
            timer--;
            document.getElementById("timer").innerText = `Time Left: ${Math.floor(timer / 60)}:${(timer % 60).toString().padStart(2, '0')}`;
            if (timer % 5 === 0) {
                pollinate();
                moveAnimals();
                updateCounts();
            }
            renderMap();
            if (timer <= 0) {
                clearInterval(gameLoop);
                alert("Game Over!");
            }
        }

        function updateCounts() {
            let countText = "Counts: ";
            Object.keys(counts).forEach(entity => {
                countText += `${entity}:${counts[entity]} `;
            });
            document.getElementById("counts").innerText = countText;
        }

        function populateSidebar() {
            ["plantSelection", "insectSelection", "animalSelection"].forEach((id, idx) => {
                const category = ["plants", "insects", "animals"][idx];
                const div = document.getElementById(id);
                entities[category].forEach(entity => {
                    const btn = document.createElement("button");
                    btn.innerText = entity;
                    btn.onclick = () => selectEntity(entity);
                    div.appendChild(btn);
                });
            });
        }

        canvas.addEventListener("click", (event) => {
            const rect = canvas.getBoundingClientRect();
            const mouseX = event.clientX - rect.left;
            const mouseY = event.clientY - rect.top;

            hexGrid.forEach(hex => {
                if (Math.hypot(hex.x - mouseX, hex.y - mouseY) < hexSize) {
                    if (selectedEntity && resources[selectedEntity] > 0 && hex.type === "empty") {
                        hex.type = "occupied";
                        hex.entities.push(selectedEntity);
                        resources[selectedEntity]--;
                        counts[selectedEntity]++;
                        updateCounts();
                    }
                }
            });
            renderMap();
        });

        window.addEventListener("resize", () => {
            canvas.width = window.innerWidth - 300;
            canvas.height = window.innerHeight;
            generateHexGrid();
            renderMap();
        });

        initializeEntities();
        generateHexGrid();
        populateSidebar();
        renderMap();
        const gameLoop = setInterval(updateGame, 1000);
    </script>
</body>
</html>