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document.addEventListener('DOMContentLoaded', () => {
// Components data structure
const components = {
magnets: [],
coils: [],
cores: [],
wires: [],
batteries: [],
switches: []
};
let selectedComponent = null;
let isDrawingWire = false;
let wireStartPoint = null;
let currentWirePoints = [];
const canvas = document.getElementById('fieldCanvas');
if (!canvas) return;
const ctx = canvas.getContext('2d');
const overlay = document.getElementById('component-overlay');
// Set canvas to full size of container
function resizeCanvas() {
const container = document.getElementById('visualization-container');
canvas.width = container.clientWidth;
canvas.height = container.clientHeight;
drawField();
}
// Initial resize
resizeCanvas();
window.addEventListener('resize', resizeCanvas);
// Draw magnetic field lines and components
function drawField() {
ctx.clearRect(0, 0, canvas.width, canvas.height);
// Draw wires first (background)
components.wires.forEach(wire => {
if (wire.points.length < 2) return;
ctx.strokeStyle = '#3b82f6';
ctx.lineWidth = 3;
ctx.beginPath();
ctx.moveTo(wire.points[0].x, wire.points[0].y);
for (let i = 1; i < wire.points.length; i++) {
ctx.lineTo(wire.points[i].x, wire.points[i].y);
}
ctx.stroke();
});
// Draw other components
[...components.magnets, ...components.coils, ...components.cores,
...components.batteries, ...components.switches].forEach(comp => {
const x = comp.x * canvas.width;
const y = comp.y * canvas.height;
const radius = 20 + (comp.strength || 0.5) * 30;
// Highlight selected component
if (selectedComponent === comp) {
ctx.strokeStyle = '#f59e0b';
ctx.lineWidth = 3;
ctx.beginPath();
ctx.arc(x, y, radius + 5, 0, Math.PI * 2);
ctx.stroke();
}
// Component body
ctx.fillStyle = getComponentColor(comp.type, comp);
ctx.beginPath();
if (comp.type === 'magnet') {
ctx.arc(x, y, radius, 0, Math.PI * 2);
// Polarity indicator
ctx.fillStyle = '#ffffff';
ctx.font = 'bold 16px Arial';
ctx.textAlign = 'center';
ctx.textBaseline = 'middle';
ctx.fillText(comp.polarity > 0 ? 'N' : 'S', x, y);
} else if (comp.type === 'coil') {
// Draw coil as concentric circles
for (let i = 0; i < 3; i++) {
ctx.beginPath();
ctx.arc(x, y, radius - i*5, 0, Math.PI * 2);
ctx.stroke();
}
} else {
// Default rectangular component
ctx.roundRect(x - radius, y - radius, radius*2, radius*2, 5);
}
ctx.fill();
});
// Draw field lines
ctx.strokeStyle = 'rgba(16, 185, 129, 0.7)';
ctx.lineWidth = 2;
const steps = 36;
const lineSteps = 100;
const stepSize = 5;
for (let i = 0; i < steps; i++) {
const angle = (i / steps) * Math.PI * 2;
components.magnets.forEach(magnet => {
let x = magnet.x * canvas.width + Math.cos(angle) * 30;
let y = magnet.y * canvas.height + Math.sin(angle) * 30;
ctx.beginPath();
ctx.moveTo(x, y);
for (let j = 0; j < lineSteps; j++) {
// Calculate field direction at this point
let fx = 0, fy = 0;
components.magnets.forEach(m => {
const dx = x - m.x * canvas.width;
const dy = y - m.y * canvas.height;
const distSq = dx * dx + dy * dy;
const dist = Math.sqrt(distSq);
const force = m.strength * 1000 * m.polarity / (distSq + 100);
fx += force * dx / dist;
fy += force * dy / dist;
});
// Normalize direction
const len = Math.sqrt(fx * fx + fy * fy);
if (len > 0) {
fx = fx / len * stepSize;
fy = fy / len * stepSize;
}
x += fx;
y += fy;
ctx.lineTo(x, y);
// Stop if out of bounds
if (x < 0 || x > canvas.width || y < 0 || y > canvas.height) break;
}
ctx.stroke();
});
}
}
// Initial draw
window.requestAnimationFrame(drawField);
function getComponentColor(type, component) {
const colors = {
magnet: component.polarity > 0 ? '#ef4444' : '#3b82f6',
coil: '#f59e0b',
core: '#6b7280',
battery: '#10b981',
switch: '#8b5cf6'
};
return colors[type] || '#ffffff';
}
// Handle component creation from palette
document.addEventListener('component-selected', (e) => {
if (e.detail.type === 'wire') {
isDrawingWire = true;
overlay.style.cursor = 'crosshair';
return;
}
const newComponent = {
type: e.detail.type,
x: 0.5, // Center of canvas
y: 0.5,
strength: 0.5,
polarity: 1,
turns: e.detail.type === 'coil' ? 5 : 0,
isBeingDragged: true // Flag for new component being dragged
};
components[e.detail.type + 's'].push(newComponent);
selectedComponent = newComponent;
drawField();
updateComponentDetails();
// Set up initial drag for newly created component
const handleMouseMove = (moveEvent) => {
const rect = canvas.getBoundingClientRect();
const x = moveEvent.clientX - rect.left;
const y = moveEvent.clientY - rect.top;
selectedComponent.x = x / canvas.width;
selectedComponent.y = y / canvas.height;
drawField();
updateComponentDetails();
};
const handleMouseUp = () => {
document.removeEventListener('mousemove', handleMouseMove);
document.removeEventListener('mouseup', handleMouseUp);
selectedComponent.isBeingDragged = false;
};
document.addEventListener('mousemove', handleMouseMove);
document.addEventListener('mouseup', handleMouseUp);
});
// Handle component deletion
document.addEventListener('delete-selected', () => {
if (selectedComponent) {
const type = selectedComponent.type;
const arr = components[type + 's'];
const index = arr.indexOf(selectedComponent);
if (index > -1) {
arr.splice(index, 1);
selectedComponent = null;
drawField();
updateComponentDetails();
}
}
});
// Canvas interaction handlers
canvas.addEventListener('mousedown', (e) => {
const rect = canvas.getBoundingClientRect();
const x = e.clientX - rect.left;
const y = e.clientY - rect.top;
if (isDrawingWire) {
wireStartPoint = { x, y };
currentWirePoints = [{ x, y }];
return;
}
// Check if clicking on a component
const allComponents = [
...components.magnets,
...components.coils,
...components.cores,
...components.batteries,
...components.switches
];
selectedComponent = null;
for (const comp of allComponents) {
const compX = comp.x * canvas.width;
const compY = comp.y * canvas.height;
const radius = 20 + (comp.strength || 0.5) * 30;
if (Math.sqrt((x - compX) ** 2 + (y - compY) ** 2) < radius) {
selectedComponent = comp;
break;
}
}
if (selectedComponent) {
// Prevent text selection during drag
e.preventDefault();
// Set up drag handlers
const handleMouseMove = (moveEvent) => {
const newX = moveEvent.clientX - rect.left;
const newY = moveEvent.clientY - rect.top;
selectedComponent.x = newX / canvas.width;
selectedComponent.y = newY / canvas.height;
drawField();
updateComponentDetails();
};
const handleMouseUp = () => {
document.removeEventListener('mousemove', handleMouseMove);
document.removeEventListener('mouseup', handleMouseUp);
};
document.addEventListener('mousemove', handleMouseMove);
document.addEventListener('mouseup', handleMouseUp);
}
drawField();
updateComponentDetails();
});
canvas.addEventListener('mousemove', (e) => {
if (!isDrawingWire && !selectedComponent) return;
const rect = canvas.getBoundingClientRect();
const x = e.clientX - rect.left;
const y = e.clientY - rect.top;
if (isDrawingWire && wireStartPoint) {
currentWirePoints.push({ x, y });
drawField();
return;
}
if (selectedComponent) {
selectedComponent.x = x / canvas.width;
selectedComponent.y = y / canvas.height;
drawField();
updateComponentDetails();
}
});
canvas.addEventListener('mouseup', () => {
if (isDrawingWire && wireStartPoint && currentWirePoints.length > 1) {
components.wires.push({
type: 'wire',
points: [...currentWirePoints],
current: 0.5
});
isDrawingWire = false;
overlay.style.cursor = 'default';
wireStartPoint = null;
currentWirePoints = [];
drawField();
}
});
function updateComponentDetails() {
const detailsPanel = document.getElementById('component-details');
if (!detailsPanel) return;
if (!selectedComponent) {
detailsPanel.innerHTML = '<p class="text-gray-400">No component selected</p>';
return;
}
detailsPanel.innerHTML = `
<h3 class="font-medium mb-2">${selectedComponent.type.toUpperCase()}</h3>
<div class="grid grid-cols-2 gap-2">
<div>X:</div>
<div>${selectedComponent.x.toFixed(2)}</div>
<div>Y:</div>
<div>${selectedComponent.y.toFixed(2)}</div>
${selectedComponent.strength ? `
<div>Strength:</div>
<div>${selectedComponent.strength.toFixed(2)}</div>
` : ''}
${selectedComponent.polarity ? `
<div>Polarity:</div>
<div>${selectedComponent.polarity > 0 ? 'North' : 'South'}</div>
` : ''}
</div>
`;
}
}); |