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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>Binary Tree Inorder Traversal - LeetCode 94</title>
<link rel="stylesheet" href="styles.css">
<script src="https://d3js.org/d3.v7.min.js"></script>
</head>
<body>
<div class="container">
<div class="problem-info">
<h1><span class="problem-number">#94</span> Binary Tree Inorder Traversal</h1>
<p>Return the inorder traversal of a binary tree's values (Left → Root → Right).</p>
<div class="problem-meta">
<span class="meta-tag">Tree</span>
<span class="meta-tag">Stack</span>
<span class="meta-tag">Easy</span>
</div>
<div class="file-ref">
📄 Python: <code>python/0094_binary_tree_inorder_traversal/0094_binary_tree_inorder_traversal.py</code>
</div>
</div>
<div class="explanation-panel">
<h4>🧠 How It Works (Layman's Terms)</h4>
<p>Tree traversal is like <strong>exploring a family tree</strong>:</p>
<ul>
<li><strong>Root:</strong> Start at the top node</li>
<li><strong>Recurse:</strong> Visit left and right children</li>
<li><strong>Base case:</strong> Stop at null/leaf nodes</li>
<li><strong>Combine:</strong> Build answer from subtree results</li>
</ul>
</div>
<div class="visualization-section">
<h3>🎬 Step-by-Step Visualization</h3>
<div class="controls">
<button id="stepBtn">Step</button>
<button id="autoBtn">Auto Run</button>
<button id="resetBtn">Reset</button>
</div>
<svg id="mainSvg" width="700" height="400"></svg>
<div class="status-message" id="status">Click "Step" for inorder traversal</div>
</div>
<div class="code-section">
<h3>💻 Python Solution</h3>
<div class="code-block">
<pre><span class="keyword">def</span> <span class="function">inorderTraversal</span>(root):
result, stack = [], []
current = root
<span class="keyword">while</span> current <span class="keyword">or</span> stack:
<span class="keyword">while</span> current:
stack.<span class="function">append</span>(current)
current = current.left
current = stack.<span class="function">pop</span>()
result.<span class="function">append</span>(current.val)
current = current.right
<span class="keyword">return</span> result</pre>
</div>
</div>
</div>
<script>
const tree = {
val: 1, id: 'root',
left: null,
right: { val: 2, id: 'right',
left: { val: 3, id: 'right-left', left: null, right: null },
right: null
}
};
let stack = [];
let current = tree;
let result = [];
let nodeStates = {};
let phase = 'go_left';
const width = 700, height = 400;
const svg = d3.select("#mainSvg");
let autoTimer = null, autoRunning = false;
function drawTree(node, x, y, dx, path) {
if (!node) return;
const r = 25;
const state = nodeStates[path] || 'unvisited';
if (node.left) {
svg.append("line").attr("x1", x).attr("y1", y + r)
.attr("x2", x - dx).attr("y2", y + 60 - r)
.attr("stroke", "#ccc").attr("stroke-width", 2);
drawTree(node.left, x - dx, y + 60, dx / 2, path + 'L');
}
if (node.right) {
svg.append("line").attr("x1", x).attr("y1", y + r)
.attr("x2", x + dx).attr("y2", y + 60 - r)
.attr("stroke", "#ccc").attr("stroke-width", 2);
drawTree(node.right, x + dx, y + 60, dx / 2, path + 'R');
}
let fill = "#e3f2fd", stroke = "#1976d2";
if (state === 'current') { fill = "#fef3c7"; stroke = "#f59e0b"; }
else if (state === 'instack') { fill = "#fff3e0"; stroke = "#ff9800"; }
else if (state === 'visited') { fill = "#d1fae5"; stroke = "#10b981"; }
svg.append("circle").attr("cx", x).attr("cy", y).attr("r", r)
.attr("fill", fill).attr("stroke", stroke).attr("stroke-width", 2);
svg.append("text").attr("x", x).attr("y", y + 6)
.attr("text-anchor", "middle").attr("font-size", "18px")
.attr("font-weight", "bold").text(node.val);
}
function draw() {
svg.selectAll("*").remove();
svg.append("text").attr("x", width/2).attr("y", 25)
.attr("text-anchor", "middle").attr("font-weight", "bold")
.text("Inorder Traversal: Left → Root → Right");
drawTree(tree, width/2, 70, 80, 'root');
// Stack
svg.append("text").attr("x", 30).attr("y", 250).attr("font-weight", "bold").text("Stack:");
stack.forEach((item, idx) => {
svg.append("rect").attr("x", 90 + idx * 50).attr("y", 235)
.attr("width", 45).attr("height", 30).attr("rx", 5)
.attr("fill", "#fff3e0").attr("stroke", "#ff9800");
svg.append("text").attr("x", 112 + idx * 50).attr("y", 255)
.attr("text-anchor", "middle").attr("font-weight", "bold").text(item.val);
});
// Result
svg.append("text").attr("x", 30).attr("y", 310).attr("font-weight", "bold").text("Result:");
result.forEach((val, idx) => {
svg.append("rect").attr("x", 100 + idx * 50).attr("y", 295)
.attr("width", 45).attr("height", 30).attr("rx", 5)
.attr("fill", "#d1fae5").attr("stroke", "#10b981");
svg.append("text").attr("x", 122 + idx * 50).attr("y", 315)
.attr("text-anchor", "middle").attr("font-weight", "bold").text(val);
});
// Legend
const legend = [{c: "#fef3c7", t: "Current"}, {c: "#fff3e0", t: "In Stack"}, {c: "#d1fae5", t: "Visited"}];
legend.forEach((l, i) => {
svg.append("rect").attr("x", 30 + i * 100).attr("y", 355)
.attr("width", 18).attr("height", 18).attr("fill", l.c).attr("stroke", "#999");
svg.append("text").attr("x", 55 + i * 100).attr("y", 368).attr("font-size", "12px").text(l.t);
});
}
function getPath(node, target, path = 'root') {
if (!node) return null;
if (node === target) return path;
return getPath(node.left, target, path + 'L') || getPath(node.right, target, path + 'R');
}
function step() {
if (!current && stack.length === 0) {
document.getElementById("status").textContent = `Done! Inorder: [${result.join(", ")}]`;
return false;
}
if (phase === 'go_left') {
if (current) {
const path = getPath(tree, current);
nodeStates[path] = 'instack';
stack.push(current);
document.getElementById("status").textContent = `Push ${current.val} to stack, go left`;
current = current.left;
} else {
phase = 'process';
}
} else if (phase === 'process') {
current = stack.pop();
const path = getPath(tree, current);
nodeStates[path] = 'visited';
result.push(current.val);
document.getElementById("status").textContent = `Pop and visit ${current.val}`;
current = current.right;
phase = 'go_left';
}
draw();
return current || stack.length > 0;
}
function reset() {
stack = []; current = tree; result = []; nodeStates = {}; phase = 'go_left';
if (autoTimer) clearInterval(autoTimer);
autoRunning = false;
document.getElementById("autoBtn").textContent = "Auto Run";
document.getElementById("status").textContent = 'Click "Step" for inorder traversal';
draw();
}
function autoRun() {
if (autoRunning) { clearInterval(autoTimer); autoRunning = false; document.getElementById("autoBtn").textContent = "Auto Run"; }
else {
autoRunning = true; document.getElementById("autoBtn").textContent = "Pause";
autoTimer = setInterval(() => { if (!step()) { clearInterval(autoTimer); autoRunning = false; document.getElementById("autoBtn").textContent = "Auto Run"; } }, 800);
}
}
document.getElementById("stepBtn").addEventListener("click", step);
document.getElementById("autoBtn").addEventListener("click", autoRun);
document.getElementById("resetBtn").addEventListener("click", reset);
reset();
</script>
</body>
</html>