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const STAGES = [
{
id: 'reflect',
label: 'Reflect',
region: 'Prefrontal Cortex',
desc: 'Sets cognitive direction, interprets intent',
phases: ['perception'],
color: '#d4a853', /* amber */
},
{
id: 'retrieve',
label: 'Retrieve',
region: 'Hippocampus',
desc: 'Searches sensory, semantic & episodic stores',
phases: ['recall', 'association'],
color: '#4ecdc4', /* teal */
},
{
id: 'synthesize',
label: 'Synthesize',
region: 'Neocortex',
desc: 'Weaves memories into language & response',
phases: ['synthesis', 'reasoning'],
color: '#e07a38', /* fire */
},
];
const MEMORY_LAYERS = [
{ id: 'sensory', label: 'Sensory', tech: 'ChromaDB', detail: 'Vector embeddings', key: 'sensoryDocuments', color: '#4ecdc4' },
{ id: 'semantic', label: 'Semantic', tech: 'Neo4j', detail: 'Knowledge graph', key: 'graphRelations', color: '#a87ecf' },
{ id: 'episodic', label: 'Episodic', tech: 'SQLite', detail: 'Temporal log', key: null, color: '#d4a853' },
{ id: 'working', label: 'Working', tech: 'Context', detail: 'Active buffer', key: 'workingMemory', color: '#e07a38' },
];
function getActiveStage(traces, isLoading) {
if (!isLoading || !traces?.length) return null;
const last = traces[traces.length - 1];
for (const s of STAGES) {
if (s.phases.includes(last?.phase)) return s.id;
}
return null;
}
// 3D card tilt on mouse move
function tiltCard(e) {
const el = e.currentTarget;
const r = el.getBoundingClientRect();
const dx = (e.clientX - (r.left + r.width / 2)) / (r.width / 2);
const dy = (e.clientY - (r.top + r.height / 2)) / (r.height / 2);
el.style.setProperty('--tx', `${dy * -7}deg`);
el.style.setProperty('--ty', `${dx * 7}deg`);
}
function resetTilt(e) {
e.currentTarget.style.setProperty('--tx', '0deg');
e.currentTarget.style.setProperty('--ty', '0deg');
}
function BrainProcess({ brainState, messageCount = 0 }) {
const isActive = brainState.isLoading;
const activeId = getActiveStage(brainState.traces, isActive);
const traces = (brainState.traces || []).slice(-6);
const hasSparks = brainState.sparks?.length > 0;
const showIdle = !isActive && traces.length === 0 && !brainState.reflection && !hasSparks;
return (
<div className="bp">
{/* ββ Section: Pipeline ββ */}
<section className="bp-section">
<h3 className="bp-sh t-display">Neural Pipeline</h3>
<div className={`bp-pipeline ${isActive ? 'running' : ''}`}>
{STAGES.map((stage, i) => {
const isThis = activeId === stage.id;
const isDone = activeId && STAGES.findIndex(s => s.id === activeId) > i && isActive;
return (
<div key={stage.id} className="bp-stage-wrap">
<div
className={`bp-stage ${isThis ? 'active' : ''} ${isDone ? 'done' : ''} ${isActive && !isThis ? 'dim' : ''}`}
style={{ '--clr': stage.color }}
>
{isThis && <div className="bp-stage-aura" />}
<div className="bp-stage-badge" style={{ background: stage.color }}>
{String(i + 1).padStart(2, '0')}
</div>
<div className="bp-stage-body">
<div className="bp-stage-name">{stage.label}</div>
<div className="bp-stage-region t-label">{stage.region}</div>
<p className="bp-stage-desc">{stage.desc}</p>
</div>
{isDone && <div className="bp-stage-done">β</div>}
</div>
{i < STAGES.length - 1 && (
<div className={`bp-arrow ${isActive ? 'pulse' : ''}`}>
<div className="bp-arrow-line" style={{ background: isActive ? STAGES[i].color : undefined }} />
<div className="bp-arrow-head" />
</div>
)}
</div>
);
})}
</div>
</section>
{/* ββ Section: Memory Architecture ββ */}
<section className="bp-section">
<h3 className="bp-sh t-display">Memory Architecture</h3>
<div className="bp-mem-grid scene-3d">
{MEMORY_LAYERS.map(layer => (
<div
key={layer.id}
className="bp-mem-card noisy"
data-layer={layer.id}
style={{ '--clr': layer.color }}
onMouseMove={tiltCard}
onMouseLeave={resetTilt}
>
<div className="bp-mem-shine" />
<div className="bp-mem-top">
<span className="bp-mem-name">{layer.label}</span>
<span className="bp-mem-count" style={{ color: layer.color }}>
{layer.key
? (brainState[layer.key] ?? 0)
: layer.id === 'episodic'
? messageCount
: 'β'}
</span>
</div>
<div className="bp-mem-tech t-label">{layer.tech}</div>
<div className="bp-mem-detail">{layer.detail}</div>
<div className="bp-mem-bar" style={{ background: layer.color }} />
</div>
))}
</div>
</section>
{/* ββ Section: Internal monologue ββ */}
{brainState.reflection && (
<section className="bp-section">
<h3 className="bp-sh t-display">Internal Monologue</h3>
<div className="bp-reflection">
<span className="bp-ref-mark">"</span>
<p>{brainState.reflection}</p>
</div>
</section>
)}
{/* ββ Section: Live Trace ββ */}
{traces.length > 0 && (
<section className="bp-section">
<h3 className="bp-sh t-display">Cognitive Trace</h3>
<div className="bp-traces">
{traces.map((tr, i) => (
<div key={i} className={`bp-trace ${tr.phase || ''}`}>
<span className="bp-trace-ph t-label">{tr.phase || 'info'}</span>
<span className="bp-trace-msg">{tr.message}</span>
</div>
))}
</div>
</section>
)}
{/* ββ Section: Neural Sparks ββ */}
{hasSparks && (
<section className="bp-section">
<h3 className="bp-sh t-display">Neural Sparks</h3>
<p className="bp-spark-sub t-label">Background dreaming β spontaneous associations</p>
<div className="bp-sparks">
{brainState.sparks.slice(0, 3).map((s, i) => (
<div key={i} className="bp-spark">
<div className="bp-spark-tags">
{s.entities?.map(e => <span key={e} className="bp-spark-tag t-label">#{e}</span>)}
</div>
<p>{s.content}</p>
</div>
))}
</div>
</section>
)}
{/* ββ Idle state ββ */}
{showIdle && (
<div className="bp-idle">
<div className="bp-idle-fig">
<div className="bp-idle-r1" />
<div className="bp-idle-r2" />
<div className="bp-idle-r3" />
<div className="bp-idle-dot" />
</div>
<p className="bp-idle-text">
Send a message to watch <br />
the cognitive process unfold live.
</p>
<div className="bp-idle-key">
{STAGES.map(s => (
<div key={s.id} className="bp-idle-row">
<span className="bp-idle-pip" style={{ background: s.color }} />
<span className="bp-idle-lbl t-label">{s.label} β {s.region}</span>
</div>
))}
</div>
</div>
)}
</div>
);
}
export default BrainProcess;
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