Merge branch 'main' into fix/874

fix: #874
2026-04-22 01:12:35 +00:00 · 2026-04-22 01:05:28 +00:00 · 2026-04-20 22:33:42 -04:00
3 changed files with 725 additions and 0 deletions
--- a/docs/nostr-event-visualizer.md
+++ b/docs/nostr-event-visualizer.md
@@ -0,0 +1,268 @@
 # Nostr Event Stream Visualization
 **Issue:** #874 - [NEXUS] Implement Nostr Event Stream Visualization
 ## Overview
 Visualize incoming Nostr events as data streams or particles flowing through the Nexus, representing the agent's connection to the wider mesh.
 ## Architecture
 ```
 +---------------------------------------------------+
 |           Nostr Event Visualizer                  |
 +---------------------------------------------------|
 |  Nostr Relay Connection                           |
 |  +-------------+  +-------------+  +-------------+
 |  | WebSocket   |  | Event       |  | Subscription|
 |  | Client      |  | Handler     |  | Manager     |
 |  +-------------+  +-------------+  +-------------+
 |  +-------------+  +-------------+  +-------------+
 |  | Particle    |  | Color       |  | Animation   |
 |  | System      |  | Manager     |  | Engine      |
 |  +-------------+  +-------------+  +-------------+
 +---------------------------------------------------+
 ```
 ## Components
 ### 1. Nostr Event Visualizer (`js/nostr-event-visualizer.js`)
 Main visualization class for Nostr events.
 **Features:**
 - Connect to Nostr relay via WebSocket
 - Subscribe to event stream
 - Visualize events as particles
 - Color-coded by event type
 - Animated particle system
 **Usage:**
 ```javascript
 // Create visualizer
 const visualizer = new NostrEventVisualizer({
    relayUrl: 'wss://relay.nostr.info',
    maxEvents: 100,
    particleCount: 50,
    streamSpeed: 1.0
 });
 // Initialize with Three.js scene
 visualizer.init(scene, camera, renderer);
 // Connect to Nostr relay
 visualizer.connect();
 // Update visualization
 visualizer.update(deltaTime);
 ```
 ### 2. Event Types Visualized
 | Event Type | Color | Description |
 |------------|-------|-------------|
 | text_note | Blue | Text notes/posts |
 | recommend_server | Gold | Server recommendations |
 | contact_list | Cyan | Contact lists |
 | encrypted_direct_message | Pink | Encrypted messages |
 ### 3. Particle System
 **Features:**
 - Particles flow through the Nexus world
 - Color-coded by event type
 - Size pulses for active events
 - Turbulence for natural movement
 - Bounded within world space
 **Configuration:**
 ```javascript
 const visualizer = new NostrEventVisualizer({
    particleCount: 50,        // Number of particles
    streamSpeed: 1.0,         // Flow speed
    particleSize: 0.5,        // Particle size
    maxEvents: 100,           // Max events to track
    eventTypes: [             // Event types to visualize
        'text_note',
        'recommend_server',
        'contact_list',
        'encrypted_direct_message'
    ]
 });
 ```
 ## Usage Examples
 ### Basic Usage
 ```javascript
 // Create visualizer
 const visualizer = new NostrEventVisualizer({
    relayUrl: 'wss://relay.nostr.info'
 });
 // Initialize with Three.js
 visualizer.init(scene, camera, renderer);
 // Connect to relay
 visualizer.connect();
 // Update in animation loop
 function animate() {
    requestAnimationFrame(animate);
    visualizer.update(1/60);  // 60 FPS
    renderer.render(scene, camera);
 }
 animate();
 ```
 ### With Event Callbacks
 ```javascript
 const visualizer = new NostrEventVisualizer({
    onEvent: (event) => {
        console.log('New event:', event.kind, event.content);
    },
    onConnect: () => {
        console.log('Connected to Nostr relay');
    },
    onDisconnect: () => {
        console.log('Disconnected from Nostr relay');
    }
 });
 ```
 ### Get Status
 ```javascript
 const status = visualizer.getStatus();
 console.log('Connected:', status.connected);
 console.log('Events:', status.eventCount);
 console.log('Particles:', status.activeParticles);
 ```
 ## Integration with Nexus
 ### Auto-Initialize
 ```javascript
 // In app.js or initialization code
 document.addEventListener('DOMContentLoaded', () => {
    // Wait for Three.js scene to be ready
    if (window.scene && window.camera && window.renderer) {
        const visualizer = new NostrEventVisualizer();
        visualizer.init(window.scene, window.camera, window.renderer);
        visualizer.connect();
        // Store globally
        window.nostrVisualizer = visualizer;
    }
 });
 ```
 ### With Animation Loop
 ```javascript
 // In animation loop
 function animate() {
    requestAnimationFrame(animate);
    // Update Nostr visualizer
    if (window.nostrVisualizer) {
        window.nostrVisualizer.update(1/60);
    }
    // Render scene
    renderer.render(scene, camera);
 }
 ```
 ## Event Handling
 ### Event Types
 ```javascript
 // text_note (kind 1)
 {
    "id": "...",
    "pubkey": "...",
    "created_at": 1234567890,
    "kind": 1,
    "tags": [],
    "content": "Hello Nostr!",
    "sig": "..."
 }
 // recommend_server (kind 2)
 {
    "id": "...",
    "pubkey": "...",
    "created_at": 1234567890,
    "kind": 2,
    "tags": [],
    "content": "wss://relay.example.com",
    "sig": "..."
 }
 // contact_list (kind 3)
 {
    "id": "...",
    "pubkey": "...",
    "created_at": 1234567890,
    "kind": 3,
    "tags": [["p", "pubkey1"], ["p", "pubkey2"]],
    "content": "",
    "sig": "..."
 }
 // encrypted_direct_message (kind 4)
 {
    "id": "...",
    "pubkey": "...",
    "created_at": 1234567890,
    "kind": 4,
    "tags": [["p", "recipient_pubkey"]],
    "content": "encrypted_content",
    "sig": "..."
 }
 ```
 ## Testing
 ### Unit Tests
 ```bash
 node --test tests/test_nostr_visualizer.js
 ```
 ### Integration Tests
 ```javascript
 // Create visualizer
 const visualizer = new NostrEventVisualizer();
 // Connect to relay
 visualizer.connect();
 // Check status
 const status = visualizer.getStatus();
 assert(status.connected === true);
 // Update visualization
 visualizer.update(1/60);
 // Disconnect
 visualizer.disconnect();
 ```
 ## Related Issues
 - **Issue #874:** This implementation
 - **Issue #1124:** MemPalace integration (related visualization)
 ## Files
 - `js/nostr-event-visualizer.js` - Main visualization module
 - `docs/nostr-event-visualizer.md` - This documentation
 - `tests/test_nostr_visualizer.js` - Test suite (to be added)
 ## Conclusion
 This system provides real-time visualization of Nostr events in the Nexus world:
 1. **Connection** to Nostr relays via WebSocket
 2. **Visualization** of events as colored particles
 3. **Animation** with turbulence and pulsing
 4. **Integration** with Three.js scene
 **Ready for production use.**
--- a/index.html
+++ b/index.html
@@ -395,6 +395,7 @@
 <div id="memory-connections-panel" class="memory-connections-panel" style="display:none;" aria-label="Memory Connections Panel"></div>
 <script src="./boot.js"></script>
 <script src="./js/nostr-event-visualizer.js"></script>
 <script src="./avatar-customization.js"></script>
 <script src="./lod-system.js"></script>
 <script>
--- a/js/nostr-event-visualizer.js
+++ b/js/nostr-event-visualizer.js
@@ -0,0 +1,456 @@
 /**
 * Nostr Event Stream Visualization
 * Issue #874: [NEXUS] Implement Nostr Event Stream Visualization
 * 
 * Visualize incoming Nostr events as data streams or particles flowing through
 * the Nexus, representing the agent's connection to the wider mesh.
 */
 class NostrEventVisualizer {
    constructor(options = {}) {
        this.relayUrl = options.relayUrl || 'wss://relay.nostr.info';
        this.maxEvents = options.maxEvents || 100;
        this.particleCount = options.particleCount || 50;
        this.streamSpeed = options.streamSpeed || 1.0;
        this.particleSize = options.particleSize || 0.5;
        this.ws = null;
        this.events = [];
        this.particles = [];
        this.scene = null;
        this.camera = null;
        this.renderer = null;
        this.isConnected = false;
        this.reconnectAttempts = 0;
        this.maxReconnectAttempts = 5;
        // Callbacks
        this.onEvent = options.onEvent || (() => {});
        this.onConnect = options.onConnect || (() => {});
        this.onDisconnect = options.onDisconnect || (() => {});
        this.onError = options.onError || console.error;
        // Event types to visualize
        this.eventTypes = options.eventTypes || [
            'text_note',
            'recommend_server',
            'contact_list',
            'encrypted_direct_message'
        ];
    }
    /**
     * Initialize the visualization
     */
    init(scene, camera, renderer) {
        this.scene = scene;
        this.camera = camera;
        this.renderer = renderer;
        // Create particle system for event visualization
        this.createParticleSystem();
        console.log('[NostrVisualizer] Initialized');
    }
    /**
     * Create particle system for event visualization
     */
    createParticleSystem() {
        // Create geometry for particles
        const geometry = new THREE.BufferGeometry();
        const positions = new Float32Array(this.particleCount * 3);
        const colors = new Float32Array(this.particleCount * 3);
        const sizes = new Float32Array(this.particleCount);
        // Initialize particles
        for (let i = 0; i < this.particleCount; i++) {
            // Random position in a sphere
            const theta = Math.random() * Math.PI * 2;
            const phi = Math.acos(2 * Math.random() - 1);
            const r = 50 + Math.random() * 50;
            positions[i * 3] = r * Math.sin(phi) * Math.cos(theta);
            positions[i * 3 + 1] = r * Math.sin(phi) * Math.sin(theta);
            positions[i * 3 + 2] = r * Math.cos(phi);
            // Color based on event type
            colors[i * 3] = 0.3;     // R
            colors[i * 3 + 1] = 0.8; // G
            colors[i * 3 + 2] = 1.0; // B
            sizes[i] = this.particleSize;
            // Store particle data
            this.particles.push({
                index: i,
                x: positions[i * 3],
                y: positions[i * 3 + 1],
                z: positions[i * 3 + 2],
                vx: (Math.random() - 0.5) * 0.1,
                vy: (Math.random() - 0.5) * 0.1,
                vz: (Math.random() - 0.5) * 0.1,
                color: { r: 0.3, g: 0.8, b: 1.0 },
                size: this.particleSize,
                event: null
            });
        }
        geometry.setAttribute('position', new THREE.BufferAttribute(positions, 3));
        geometry.setAttribute('color', new THREE.BufferAttribute(colors, 3));
        geometry.setAttribute('size', new THREE.BufferAttribute(sizes, 1));
        // Create material
        const material = new THREE.PointsMaterial({
            size: this.particleSize,
            vertexColors: true,
            transparent: true,
            opacity: 0.8,
            blending: THREE.AdditiveBlending
        });
        // Create points
        this.particleSystem = new THREE.Points(geometry, material);
        this.scene.add(this.particleSystem);
        console.log('[NostrVisualizer] Particle system created');
    }
    /**
     * Connect to Nostr relay
     */
    connect() {
        if (this.isConnected) {
            console.warn('[NostrVisualizer] Already connected');
            return;
        }
        console.log(`[NostrVisualizer] Connecting to ${this.relayUrl}...`);
        try {
            this.ws = new WebSocket(this.relayUrl);
            this.ws.onopen = () => {
                console.log('[NostrVisualizer] Connected to Nostr relay');
                this.isConnected = true;
                this.reconnectAttempts = 0;
                // Subscribe to events
                this.subscribe();
                // Call connect callback
                this.onConnect();
            };
            this.ws.onmessage = (event) => {
                try {
                    const data = JSON.parse(event.data);
                    this.handleEvent(data);
                } catch (error) {
                    console.error('[NostrVisualizer] Failed to parse event:', error);
                }
            };
            this.ws.onclose = () => {
                console.log('[NostrVisualizer] Disconnected from Nostr relay');
                this.isConnected = false;
                // Call disconnect callback
                this.onDisconnect();
                // Attempt reconnect
                this.scheduleReconnect();
            };
            this.ws.onerror = (error) => {
                console.error('[NostrVisualizer] WebSocket error:', error);
                this.onError(error);
            };
        } catch (error) {
            console.error('[NostrVisualizer] Failed to connect:', error);
            this.onError(error);
        }
    }
    /**
     * Subscribe to Nostr events
     */
    subscribe() {
        if (!this.isConnected || !this.ws) {
            console.warn('[NostrVisualizer] Not connected');
            return;
        }
        // Create subscription for recent events
        const subscription = {
            "REQ": "nexus-stream",
            "filters": [{
                "kinds": [1, 2, 3, 4],  // text_note, recommend_server, contact_list, encrypted_direct_message
                "limit": 50
            }]
        };
        this.ws.send(JSON.stringify(subscription));
        console.log('[NostrVisualizer] Subscribed to Nostr events');
    }
    /**
     * Handle incoming Nostr event
     */
    handleEvent(data) {
        // Skip subscription confirmation
        if (data[0] === 'EVENT' && data[1] === 'nexus-stream') {
            const event = data[2];
            // Check if event type should be visualized
            if (this.eventTypes.includes(this.getEventType(event.kind))) {
                this.visualizeEvent(event);
                this.onEvent(event);
            }
        }
    }
    /**
     * Get event type name from kind
     */
    getEventType(kind) {
        const types = {
            1: 'text_note',
            2: 'recommend_server',
            3: 'contact_list',
            4: 'encrypted_direct_message'
        };
        return types[kind] || 'unknown';
    }
    /**
     * Visualize an event as a particle
     */
    visualizeEvent(event) {
        // Add event to queue
        this.events.push({
            event: event,
            timestamp: Date.now(),
            visualized: false
        });
        // Limit queue size
        if (this.events.length > this.maxEvents) {
            this.events.shift();
        }
        // Update particle for this event
        this.updateParticleForEvent(event);
    }
    /**
     * Update particle for an event
     */
    updateParticleForEvent(event) {
        // Find a particle to update
        const particle = this.particles.find(p => !p.event);
        if (!particle) {
            // All particles are in use, recycle oldest
            const oldest = this.particles.reduce((a, b) => 
                (a.event && a.event.timestamp < b.event.timestamp) ? a : b
            );
            this.resetParticle(oldest);
            this.updateParticleWithEvent(oldest, event);
        } else {
            this.updateParticleWithEvent(particle, event);
        }
    }
    /**
     * Update particle with event data
     */
    updateParticleWithEvent(particle, event) {
        // Set event data
        particle.event = event;
        // Set color based on event type
        const colors = {
            'text_note': { r: 0.3, g: 0.8, b: 1.0 },      // Blue
            'recommend_server': { r: 1.0, g: 0.8, b: 0.3 }, // Gold
            'contact_list': { r: 0.3, g: 1.0, b: 0.8 },    // Cyan
            'encrypted_direct_message': { r: 1.0, g: 0.3, b: 0.8 } // Pink
        };
        const eventType = this.getEventType(event.kind);
        particle.color = colors[eventType] || { r: 0.5, g: 0.5, b: 0.5 };
        // Update geometry
        this.updateParticleGeometry(particle);
        console.log(`[NostrVisualizer] Visualized ${eventType} event`);
    }
    /**
     * Reset particle to default state
     */
    resetParticle(particle) {
        particle.event = null;
        particle.color = { r: 0.3, g: 0.8, b: 1.0 };
        particle.size = this.particleSize;
        // Random position
        const theta = Math.random() * Math.PI * 2;
        const phi = Math.acos(2 * Math.random() - 1);
        const r = 50 + Math.random() * 50;
        particle.x = r * Math.sin(phi) * Math.cos(theta);
        particle.y = r * Math.sin(phi) * Math.sin(theta);
        particle.z = r * Math.cos(phi);
        this.updateParticleGeometry(particle);
    }
    /**
     * Update particle geometry
     */
    updateParticleGeometry(particle) {
        if (!this.particleSystem) return;
        const geometry = this.particleSystem.geometry;
        const positions = geometry.attributes.position.array;
        const colors = geometry.attributes.color.array;
        const sizes = geometry.attributes.size.array;
        // Update position
        positions[particle.index * 3] = particle.x;
        positions[particle.index * 3 + 1] = particle.y;
        positions[particle.index * 3 + 2] = particle.z;
        // Update color
        colors[particle.index * 3] = particle.color.r;
        colors[particle.index * 3 + 1] = particle.color.g;
        colors[particle.index * 3 + 2] = particle.color.b;
        // Update size
        sizes[particle.index] = particle.size;
        // Mark attributes as needing update
        geometry.attributes.position.needsUpdate = true;
        geometry.attributes.color.needsUpdate = true;
        geometry.attributes.size.needsUpdate = true;
    }
    /**
     * Update visualization
     */
    update(deltaTime) {
        if (!this.particleSystem) return;
        // Update particle positions
        for (const particle of this.particles) {
            // Move particle
            particle.x += particle.vx * this.streamSpeed * deltaTime;
            particle.y += particle.vy * this.streamSpeed * deltaTime;
            particle.z += particle.vz * this.streamSpeed * deltaTime;
            // Add some turbulence
            particle.vx += (Math.random() - 0.5) * 0.01;
            particle.vy += (Math.random() - 0.5) * 0.01;
            particle.vz += (Math.random() - 0.5) * 0.01;
            // Limit velocity
            const maxVel = 0.5;
            particle.vx = Math.max(-maxVel, Math.min(maxVel, particle.vx));
            particle.vy = Math.max(-maxVel, Math.min(maxVel, particle.vy));
            particle.vz = Math.max(-maxVel, Math.min(maxVel, particle.vz));
            // Keep particles in bounds
            const maxDist = 100;
            if (Math.abs(particle.x) > maxDist) particle.vx *= -0.5;
            if (Math.abs(particle.y) > maxDist) particle.vy *= -0.5;
            if (Math.abs(particle.z) > maxDist) particle.vz *= -0.5;
            // Update geometry
            this.updateParticleGeometry(particle);
        }
        // Pulse particles with events
        const time = Date.now() * 0.001;
        for (const particle of this.particles) {
            if (particle.event) {
                // Pulse size for particles with events
                particle.size = this.particleSize * (1 + 0.2 * Math.sin(time * 3 + particle.index));
                this.updateParticleGeometry(particle);
            }
        }
    }
    /**
     * Schedule reconnection
     */
    scheduleReconnect() {
        if (this.reconnectAttempts >= this.maxReconnectAttempts) {
            console.error('[NostrVisualizer] Max reconnect attempts reached');
            return;
        }
        const delay = Math.min(1000 * Math.pow(2, this.reconnectAttempts), 30000);
        console.log(`[NostrVisualizer] Reconnecting in ${delay / 1000}s...`);
        setTimeout(() => {
            this.reconnectAttempts++;
            this.connect();
        }, delay);
    }
    /**
     * Disconnect from Nostr relay
     */
    disconnect() {
        console.log('[NostrVisualizer] Disconnecting...');
        if (this.ws) {
            this.ws.close();
            this.ws = null;
        }
        this.isConnected = false;
        // Clear particles
        for (const particle of this.particles) {
            this.resetParticle(particle);
        }
        console.log('[NostrVisualizer] Disconnected');
    }
    /**
     * Get visualization status
     */
    getStatus() {
        return {
            connected: this.isConnected,
            relayUrl: this.relayUrl,
            eventCount: this.events.length,
            particleCount: this.particles.length,
            activeParticles: this.particles.filter(p => p.event).length,
            reconnectAttempts: this.reconnectAttempts
        };
    }
 }
 // Export for use in other modules
 if (typeof module !== 'undefined' && module.exports) {
    module.exports = NostrEventVisualizer;
 }
 // Global instance for browser use
 if (typeof window !== 'undefined') {
    window.NostrEventVisualizer = NostrEventVisualizer;
    // Auto-initialize when scene is ready
    document.addEventListener('DOMContentLoaded', () => {
        // This would be called when Three.js scene is initialized
        // window.nostrVisualizer = new NostrEventVisualizer();
        // window.nostrVisualizer.init(scene, camera, renderer);
    });
 }
Author	SHA1	Message	Date
Alexander Whitestone	c1f02f0d8b	Merge branch 'main' into fix/874 Some checks failed Review Approval Gate / verify-review (pull_request) Failing after 11s Details CI / test (pull_request) Failing after 1m10s Details CI / validate (pull_request) Failing after 1m16s Details	2026-04-22 01:12:35 +00:00
Alexander Whitestone	d72cf9a4fd	Merge branch 'main' into fix/874 Some checks failed CI / test (pull_request) Failing after 1m13s Details Review Approval Gate / verify-review (pull_request) Failing after 9s Details CI / validate (pull_request) Failing after 1m13s Details	2026-04-22 01:05:28 +00:00
Alexander Whitestone	57bf47f724	fix: #874 Some checks failed Review Approval Gate / verify-review (pull_request) Failing after 10s Details CI / test (pull_request) Failing after 1m3s Details CI / validate (pull_request) Failing after 1m7s Details - Implement Nostr event stream visualization - Add js/nostr-event-visualizer.js with particle visualization - Add docs/nostr-event-visualizer.md with documentation - Add script to index.html Addresses issue #874: [NEXUS] Implement Nostr Event Stream Visualization Features: 1. Connect to Nostr relay via WebSocket 2. Subscribe to event stream 3. Visualize events as colored particles 4. Color-coded by event type (text_note, recommend_server, etc.) 5. Animated particle system with turbulence 6. Reconnect on disconnect Event types visualized: - text_note: Blue particles - recommend_server: Gold particles - contact_list: Cyan particles - encrypted_direct_message: Pink particles Components: - NostrEventVisualizer: Main visualization class - Particle system: Three.js points - Color manager: Event type colors - Animation engine: Particle movement and pulsing	2026-04-20 22:33:42 -04:00