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feat(kotlin-compose): finalize design system + apps + sync sub-repo gitlinks

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Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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Egutierrez
2026-05-11 16:30:43 +02:00
parent 42c14fae59
commit a396ee781a
18 changed files with 5285 additions and 57 deletions
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cpp/apps/shaders_lab/extracted/functional-lab.jsx
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import { useState, useMemo, useRef } from 'react';
import { X, Trash2, GripVertical } from 'lucide-react';
// ─────────────────────────────────────────────────────────────────
// Categorías morfológicas — cada una con su identidad visual
// ─────────────────────────────────────────────────────────────────
const CATEGORIES = {
gen: {
label: 'Generadores',
subtitle: 'Anamorfismos',
signature: 'seed → [a]',
color: '#7dd3fc',
},
map: {
label: 'Transformaciones',
subtitle: 'Functor · map',
signature: '(a→b) → [a]→[b]',
color: '#c4b5fd',
},
filter: {
label: 'Filtros',
subtitle: 'Refinamientos',
signature: '[a] → [a]',
color: '#fcd34d',
},
scan: {
label: 'Scans',
subtitle: 'Folds acumulativos',
signature: '[a] → [a]',
color: '#86efac',
},
fold: {
label: 'Plegados',
subtitle: 'Catamorfismos',
signature: '[a] → b',
color: '#fda4af',
},
};
// PRNG determinista para que `random` sea reproducible
function mulberry32(seed) {
let a = seed;
return function() {
a = (a + 0x6D2B79F5) | 0;
let t = a;
t = Math.imul(t ^ (t >>> 15), t | 1);
t ^= t + Math.imul(t ^ (t >>> 7), t | 61);
return ((t ^ (t >>> 14)) >>> 0) / 4294967296;
};
}
// ─────────────────────────────────────────────────────────────────
// Catálogo de funciones disponibles
// ─────────────────────────────────────────────────────────────────
const FUNCTIONS = {
// — GENERADORES (anamorfismos: producen estructura desde un seed) —
range: { cat: 'gen', symbol: 'range', sig: 'n → [1..n]', params: [{k:'n',d:20,min:1,max:120}], run: (_,p) => Array.from({length:p.n}, (_,i)=>i+1) },
linspace: { cat: 'gen', symbol: 'linspace', sig: 'n → [0..2π]', params: [{k:'n',d:60,min:2,max:200}], run: (_,p) => Array.from({length:p.n}, (_,i)=>(i/(p.n-1))*2*Math.PI) },
sine: { cat: 'gen', symbol: 'sine', sig: 'n → sin(4π·t)', params: [{k:'n',d:80,min:4,max:200}], run: (_,p) => Array.from({length:p.n}, (_,i)=>Math.sin((i/(p.n-1))*4*Math.PI)) },
noise: { cat: 'gen', symbol: 'noise', sig: 'seed → U(-1,1)', params: [{k:'n',d:50,min:2,max:200},{k:'seed',d:7,min:1,max:9999}], run: (_,p) => { const r=mulberry32(p.seed); return Array.from({length:p.n}, ()=>r()*2-1); } },
fib: { cat: 'gen', symbol: 'fib', sig: 'n → Fibₙ', params: [{k:'n',d:12,min:2,max:25}], run: (_,p) => { const r=[1,1]; while(r.length<p.n) r.push(r[r.length-1]+r[r.length-2]); return r.slice(0,p.n); } },
// MAPS (functor f: ab aplicado punto-a-punto)
double: { cat: 'map', symbol: '·2', sig: 'x 2x', run: (a) => a.map(x=>x*2) },
square: { cat: 'map', symbol: 'x²', sig: 'x ↦ x²', run: (a) => a.map(x=>x*x) },
negate: { cat: 'map', symbol: '-x', sig: 'x ↦ -x', run: (a) => a.map(x=>-x) },
abs: { cat: 'map', symbol: '|x|', sig: 'x ↦ |x|', run: (a) => a.map(x=>Math.abs(x)) },
sqrt: { cat: 'map', symbol: '√', sig: 'x ↦ √|x|', run: (a) => a.map(x=>Math.sqrt(Math.abs(x))) },
sin: { cat: 'map', symbol: 'sin', sig: 'x ↦ sin x', run: (a) => a.map(x=>Math.sin(x)) },
log: { cat: 'map', symbol: 'ln', sig: 'x ↦ ln(1+|x|)', run: (a) => a.map(x=>Math.log(1+Math.abs(x))) },
// — FILTROS (refinamiento) —
positive: { cat: 'filter', symbol: '>0', sig: 'x > 0', run: (a) => a.filter(x=>x>0) },
even: { cat: 'filter', symbol: 'par', sig: 'x even', run: (a) => a.filter(x=>Math.round(x)%2===0) },
gt: { cat: 'filter', symbol: '>t', sig: 'x > t', params: [{k:'t',d:0,min:-50,max:50,step:0.5}], run: (a,p) => a.filter(x=>x>p.t) },
// — SCANS (folds acumulativos: dejan rastro) —
cumsum: { cat: 'scan', symbol: 'Σ*', sig: 'Σ prefix', run: (a) => { let s=0; return a.map(x=>s+=x); } },
cummax: { cat: 'scan', symbol: 'max*', sig: 'max prefix', run: (a) => { let m=-Infinity; return a.map(x=>{m=Math.max(m,x); return m;}); } },
diff: { cat: 'scan', symbol: 'Δ', sig: 'xₙ - xₙ₋₁', run: (a) => a.map((x,i)=>i===0?0:x-a[i-1]) },
mavg: { cat: 'scan', symbol: 'μ_k', sig: 'media móvil k', params: [{k:'k',d:3,min:1,max:15}], run: (a,p) => a.map((_,i)=>{ const s=Math.max(0,i-p.k+1); const sl=a.slice(s,i+1); return sl.reduce((t,v)=>t+v,0)/sl.length; }) },
// — FOLDS (catamorfismos: colapsan a escalar · terminales) —
sum: { cat: 'fold', symbol: 'Σ', sig: '[a] → Σa', run: (a) => a.reduce((s,x)=>s+x, 0) },
product: { cat: 'fold', symbol: '∏', sig: '[a] → ∏a', run: (a) => a.reduce((s,x)=>s*x, 1) },
max: { cat: 'fold', symbol: 'max', sig: '[a] → max', run: (a) => a.length ? Math.max(...a) : 0 },
min: { cat: 'fold', symbol: 'min', sig: '[a] → min', run: (a) => a.length ? Math.min(...a) : 0 },
mean: { cat: 'fold', symbol: 'μ', sig: '[a] → μ', run: (a) => a.length ? a.reduce((s,x)=>s+x,0)/a.length : 0 },
count: { cat: 'fold', symbol: '#', sig: '[a] → ', run: (a) => a.length },
};
const BY_CATEGORY = Object.entries(CATEGORIES).map(([catKey, catMeta]) => ({
...catMeta,
key: catKey,
items: Object.entries(FUNCTIONS).filter(([, f]) => f.cat === catKey).map(([name, f]) => ({ name, ...f })),
}));
// ─────────────────────────────────────────────────────────────────
// Ejecutor: aplica el pipeline y conserva salidas intermedias
// ─────────────────────────────────────────────────────────────────
function executePipeline(pipeline) {
const steps = [];
let current = Array.from({length: 10}, (_, i) => i + 1); // semilla si no hay generador
let terminated = false;
for (const item of pipeline) {
const def = FUNCTIONS[item.name];
if (!def) continue;
if (terminated) { steps.push({ ...item, def, unreachable: true }); continue; }
try {
const value = def.run(current, item.params || {});
steps.push({ ...item, def, value });
if (def.cat === 'fold') terminated = true;
else current = value;
} catch (e) {
steps.push({ ...item, def, error: e.message });
terminated = true;
}
}
return { steps, terminated };
}
// ─────────────────────────────────────────────────────────────────
// Helpers de id y parámetros
// ─────────────────────────────────────────────────────────────────
let _uid = 0;
const uid = () => `n${++_uid}_${Date.now().toString(36)}`;
function defaultParams(name) {
const def = FUNCTIONS[name];
if (!def.params) return {};
return Object.fromEntries(def.params.map(p => [p.k, p.d]));
}
// ─────────────────────────────────────────────────────────────────
// Sparkline compacto (SVG manual)
// ─────────────────────────────────────────────────────────────────
function Sparkline({ data, color = '#888', w = 180, h = 34 }) {
if (!Array.isArray(data) || data.length === 0) {
return <div style={{width:w, height:h}} className="flex items-center justify-center text-[10px] text-neutral-600"></div>;
}
const min = Math.min(...data);
const max = Math.max(...data);
const span = max - min || 1;
const n = data.length;
const xStep = n > 1 ? (w - 6) / (n - 1) : 0;
const pts = data.map((v, i) => [3 + i * xStep, h - 3 - ((v - min) / span) * (h - 6)]);
const path = pts.map((p, i) => (i === 0 ? `M${p[0].toFixed(1)},${p[1].toFixed(1)}` : `L${p[0].toFixed(1)},${p[1].toFixed(1)}`)).join(' ');
const zeroY = h - 3 - ((0 - min) / span) * (h - 6);
const showZero = min < 0 && max > 0;
return (
<svg width={w} height={h} className="block">
{showZero && <line x1={0} x2={w} y1={zeroY} y2={zeroY} stroke={color} strokeOpacity={0.15} strokeDasharray="2 3" />}
<path d={path} fill="none" stroke={color} strokeWidth={1.3} strokeLinecap="round" strokeLinejoin="round" />
{n <= 40 && pts.map((p, i) => (
<circle key={i} cx={p[0]} cy={p[1]} r={1.4} fill={color} fillOpacity={0.85} />
))}
</svg>
);
}
// ─────────────────────────────────────────────────────────────────
// Ficha en la paleta (draggable)
// ─────────────────────────────────────────────────────────────────
function PaletteItem({ fnName, fn, color, onDragStart, onClick }) {
return (
<div
draggable
onDragStart={(e) => { e.dataTransfer.setData('text/fn-name', fnName); e.dataTransfer.effectAllowed = 'copy'; onDragStart?.(); }}
onClick={onClick}
className="group flex items-center gap-2 px-2.5 py-1.5 rounded-md cursor-grab active:cursor-grabbing select-none transition-colors hover:bg-neutral-800/60"
style={{ borderLeft: `2px solid ${color}` }}
title={`${fnName} :: ${fn.sig}`}
>
<span className="font-mono text-[11px] font-semibold tracking-tight" style={{ color }}>{fn.symbol}</span>
<span className="font-mono text-[11px] text-neutral-400 flex-1 truncate">{fnName}</span>
<span className="font-mono text-[9px] text-neutral-600 opacity-0 group-hover:opacity-100 transition-opacity">drag</span>
</div>
);
}
// ─────────────────────────────────────────────────────────────────
// Nodo del pipeline
// ─────────────────────────────────────────────────────────────────
function PipelineNode({ step, index, isLast, onRemove, onParamChange, onDragStart, onDragOver, onDrop, isDragging }) {
const { def, value, unreachable, error } = step;
const cat = CATEGORIES[def.cat];
const color = cat.color;
const isScalar = def.cat === 'fold';
return (
<div
draggable
onDragStart={(e) => { e.dataTransfer.setData('text/reorder-index', String(index)); e.dataTransfer.effectAllowed = 'move'; onDragStart?.(index); }}
onDragOver={(e) => { e.preventDefault(); onDragOver?.(index); }}
onDrop={(e) => onDrop?.(e, index)}
className="relative group"
style={{ opacity: isDragging ? 0.4 : 1 }}
>
<div
className="flex flex-col rounded-lg backdrop-blur-sm transition-all"
style={{
background: `linear-gradient(180deg, ${color}14 0%, ${color}06 100%)`,
border: `1px solid ${color}40`,
boxShadow: `0 0 0 1px ${color}10, 0 8px 24px -12px ${color}30`,
minWidth: 200,
}}
>
{/* cabecera */}
<div className="flex items-center gap-1.5 px-2.5 py-1.5 border-b" style={{ borderColor: `${color}25` }}>
<GripVertical size={12} className="text-neutral-600 cursor-grab" />
<span className="font-mono text-[11px] font-bold" style={{ color }}>{def.symbol}</span>
<span className="font-mono text-[10px] text-neutral-500 flex-1">{step.name}</span>
<button
onClick={() => onRemove(index)}
className="opacity-0 group-hover:opacity-100 transition-opacity text-neutral-500 hover:text-neutral-200 p-0.5 rounded"
aria-label="Eliminar"
>
<X size={11} />
</button>
</div>
{/* params */}
{def.params && (
<div className="flex items-center gap-1.5 px-2.5 py-1.5 border-b flex-wrap" style={{ borderColor: `${color}18` }}>
{def.params.map(p => (
<label key={p.k} className="flex items-center gap-1 font-mono text-[10px] text-neutral-500">
<span>{p.k}=</span>
<input
type="number"
value={step.params?.[p.k] ?? p.d}
min={p.min} max={p.max} step={p.step ?? 1}
onChange={(e) => onParamChange(index, p.k, Number(e.target.value))}
className="w-12 bg-neutral-900/60 border border-neutral-700/50 rounded px-1 py-0.5 text-neutral-200 font-mono text-[10px] focus:outline-none focus:border-neutral-500"
/>
</label>
))}
</div>
)}
{/* preview */}
<div className="px-2.5 py-1.5">
{unreachable ? (
<div className="font-mono text-[10px] text-neutral-600 italic">inalcanzable · fold anterior terminó el pipeline</div>
) : error ? (
<div className="font-mono text-[10px] text-rose-400">error: {error}</div>
) : isScalar ? (
<div className="flex items-baseline gap-2">
<span className="font-mono text-[10px] text-neutral-500">resultado</span>
<span className="font-display text-2xl font-light" style={{ color }}>{formatScalar(value)}</span>
</div>
) : (
<div>
<Sparkline data={value} color={color} w={180} h={32} />
<div className="font-mono text-[9px] text-neutral-600 mt-1">
n={value?.length ?? 0} · range [{formatScalar(Math.min(...(value?.length?value:[0])))}, {formatScalar(Math.max(...(value?.length?value:[0])))}]
</div>
</div>
)}
</div>
</div>
{/* flecha de composición */}
{!isLast && (
<div className="absolute top-1/2 -right-5 -translate-y-1/2 font-mono text-neutral-600 text-sm pointer-events-none"></div>
)}
</div>
);
}
function formatScalar(v) {
if (v === undefined || v === null || !isFinite(v)) return '—';
if (Number.isInteger(v)) return String(v);
const abs = Math.abs(v);
if (abs >= 1000 || (abs > 0 && abs < 0.01)) return v.toExponential(2);
return v.toFixed(3);
}
// ─────────────────────────────────────────────────────────────────
// Visualización grande del output final
// ─────────────────────────────────────────────────────────────────
function FinalView({ lastStep }) {
if (!lastStep) {
return (
<div className="flex-1 flex items-center justify-center text-neutral-600 font-mono text-xs">
arrastra una función para empezar
</div>
);
}
const { def, value, error, unreachable } = lastStep;
if (error || unreachable) return null;
const color = CATEGORIES[def.cat].color;
if (def.cat === 'fold') {
return (
<div className="flex flex-col items-center justify-center py-6 w-full">
<span className="font-mono text-[10px] uppercase tracking-[0.2em] text-neutral-500 mb-2">resultado · escalar</span>
<span className="font-display text-5xl font-light break-all text-center" style={{ color }}>{formatScalar(value)}</span>
</div>
);
}
// plot grande
if (!Array.isArray(value) || value.length === 0) {
return <div className="font-mono text-xs text-neutral-600 p-4"> (lista vacía)</div>;
}
const W = 720, H = 180, pad = 20;
const min = Math.min(...value), max = Math.max(...value);
const span = max - min || 1;
const n = value.length;
const xStep = n > 1 ? (W - 2 * pad) / (n - 1) : 0;
const pts = value.map((v, i) => [pad + i * xStep, H - pad - ((v - min) / span) * (H - 2 * pad)]);
const path = pts.map((p, i) => (i === 0 ? `M${p[0].toFixed(1)},${p[1].toFixed(1)}` : `L${p[0].toFixed(1)},${p[1].toFixed(1)}`)).join(' ');
const areaPath = `${path} L${pts[pts.length-1][0]},${H-pad} L${pts[0][0]},${H-pad} Z`;
const zeroY = H - pad - ((0 - min) / span) * (H - 2 * pad);
const showZero = min < 0 && max > 0;
return (
<div className="flex flex-col">
<div className="flex items-baseline justify-between mb-2">
<span className="font-mono text-[10px] uppercase tracking-[0.2em] text-neutral-500">resultado · señal</span>
<span className="font-mono text-[10px] text-neutral-500">n={n} · [{formatScalar(min)}, {formatScalar(max)}]</span>
</div>
<svg viewBox={`0 0 ${W} ${H}`} className="w-full h-auto" preserveAspectRatio="none">
<defs>
<linearGradient id="areaGrad" x1="0" y1="0" x2="0" y2="1">
<stop offset="0%" stopColor={color} stopOpacity="0.3" />
<stop offset="100%" stopColor={color} stopOpacity="0" />
</linearGradient>
</defs>
{/* grid */}
{[0.25, 0.5, 0.75].map(f => (
<line key={f} x1={pad} x2={W-pad} y1={pad + f*(H-2*pad)} y2={pad + f*(H-2*pad)} stroke="#fff" strokeOpacity={0.04} />
))}
{showZero && <line x1={pad} x2={W-pad} y1={zeroY} y2={zeroY} stroke={color} strokeOpacity={0.25} strokeDasharray="3 4" />}
<path d={areaPath} fill="url(#areaGrad)" />
<path d={path} fill="none" stroke={color} strokeWidth={1.8} strokeLinecap="round" strokeLinejoin="round" />
{n <= 80 && pts.map((p, i) => (
<circle key={i} cx={p[0]} cy={p[1]} r={2} fill={color} />
))}
{/* eje */}
<line x1={pad} x2={W-pad} y1={H-pad} y2={H-pad} stroke="#fff" strokeOpacity={0.1} />
<line x1={pad} x2={pad} y1={pad} y2={H-pad} stroke="#fff" strokeOpacity={0.1} />
</svg>
</div>
);
}
// ─────────────────────────────────────────────────────────────────
// APP principal
// ─────────────────────────────────────────────────────────────────
export default function App() {
const [pipeline, setPipeline] = useState([
{ id: uid(), name: 'range', params: defaultParams('range') },
{ id: uid(), name: 'square', params: defaultParams('square') },
{ id: uid(), name: 'cumsum', params: defaultParams('cumsum') },
]);
const [dragIndex, setDragIndex] = useState(null);
const [hoverIndex, setHoverIndex] = useState(null);
const dropZoneRef = useRef(null);
const { steps } = useMemo(() => executePipeline(pipeline), [pipeline]);
const lastStep = steps[steps.length - 1];
// expresión simbólica: fold_sum ∘ map_square ∘ gen_range(20)
const expression = useMemo(() => {
if (pipeline.length === 0) return '∅';
const parts = pipeline.map(s => {
const def = FUNCTIONS[s.name];
const paramStr = def.params ? '(' + def.params.map(p => `${p.k}=${s.params?.[p.k] ?? p.d}`).join(',') + ')' : '';
return `${s.name}${paramStr}`;
}).reverse();
return parts.join(' ∘ ');
}, [pipeline]);
const addFunction = (name) => {
setPipeline(p => [...p, { id: uid(), name, params: defaultParams(name) }]);
};
const removeFunction = (index) => {
setPipeline(p => p.filter((_, i) => i !== index));
};
const changeParam = (index, key, value) => {
setPipeline(p => p.map((s, i) => i === index ? { ...s, params: { ...s.params, [key]: value } } : s));
};
const handleDropOnZone = (e) => {
e.preventDefault();
const fnName = e.dataTransfer.getData('text/fn-name');
const reorderIdx = e.dataTransfer.getData('text/reorder-index');
if (fnName && FUNCTIONS[fnName]) {
addFunction(fnName);
} else if (reorderIdx !== '') {
// soltar al final si vino de un nodo
const from = Number(reorderIdx);
setPipeline(p => {
const copy = [...p];
const [moved] = copy.splice(from, 1);
copy.push(moved);
return copy;
});
}
setDragIndex(null);
setHoverIndex(null);
};
const handleDropOnNode = (e, targetIdx) => {
e.preventDefault();
e.stopPropagation();
const fnName = e.dataTransfer.getData('text/fn-name');
const reorderIdx = e.dataTransfer.getData('text/reorder-index');
if (fnName && FUNCTIONS[fnName]) {
setPipeline(p => {
const copy = [...p];
copy.splice(targetIdx, 0, { id: uid(), name: fnName, params: defaultParams(fnName) });
return copy;
});
} else if (reorderIdx !== '') {
const from = Number(reorderIdx);
if (from === targetIdx) return;
setPipeline(p => {
const copy = [...p];
const [moved] = copy.splice(from, 1);
const adjusted = from < targetIdx ? targetIdx - 1 : targetIdx;
copy.splice(adjusted, 0, moved);
return copy;
});
}
setDragIndex(null);
setHoverIndex(null);
};
return (
<div className="w-full min-h-screen text-neutral-200" style={{
background: 'radial-gradient(ellipse at top, #0f1419 0%, #06080a 60%, #030506 100%)',
fontFamily: "'JetBrains Mono', ui-monospace, monospace",
}}>
<style>{`
@import url('https://fonts.googleapis.com/css2?family=Fraunces:ital,opsz,wght@0,9..144,300..900;1,9..144,300..900&family=JetBrains+Mono:wght@400;500;600;700&display=swap');
.font-display { font-family: 'Fraunces', serif; font-optical-sizing: auto; }
.font-mono { font-family: 'JetBrains Mono', ui-monospace, monospace; }
.grid-bg {
background-image:
linear-gradient(rgba(255,255,255,0.02) 1px, transparent 1px),
linear-gradient(90deg, rgba(255,255,255,0.02) 1px, transparent 1px);
background-size: 24px 24px;
}
/* scrollbar */
::-webkit-scrollbar { width: 8px; height: 8px; }
::-webkit-scrollbar-track { background: transparent; }
::-webkit-scrollbar-thumb { background: rgba(255,255,255,0.08); border-radius: 4px; }
::-webkit-scrollbar-thumb:hover { background: rgba(255,255,255,0.16); }
`}</style>
<div className="grid-bg min-h-screen">
{/* HEADER */}
<header className="px-6 pt-6 pb-5 border-b border-white/5">
<div className="flex items-end justify-between flex-wrap gap-4">
<div>
<div className="flex items-baseline gap-3">
<span className="font-mono text-[10px] uppercase tracking-[0.3em] text-neutral-500">lab · 001</span>
<span className="font-mono text-[10px] text-neutral-700">/</span>
<span className="font-mono text-[10px] text-neutral-500">composición funcional</span>
</div>
<h1 className="font-display text-3xl font-light tracking-tight mt-1.5">
laboratorio de <em className="italic" style={{color:'#c4b5fd'}}>morfismos</em>
</h1>
<p className="font-mono text-[11px] text-neutral-500 mt-1.5 max-w-2xl">
arrastra funciones al pipeline y componlas de izquierda a derecha. cada tipo corresponde a un esquema de recursión distinto.
</p>
</div>
<button
onClick={() => setPipeline([])}
className="flex items-center gap-2 font-mono text-[10px] uppercase tracking-wider text-neutral-500 hover:text-neutral-200 border border-white/10 hover:border-white/30 px-3 py-1.5 rounded transition-colors"
>
<Trash2 size={11} /> vaciar
</button>
</div>
</header>
{/* MAIN GRID · 2 columnas: paleta | (expresión + pipeline + visualizador apilados) */}
<main
style={{
display: 'grid',
gridTemplateColumns: '200px minmax(280px, 1fr)',
minHeight: 'calc(100vh - 140px)',
overflowX: 'auto',
}}
>
{/* ─── IZQUIERDA · PALETA ─── */}
<aside className="border-r border-white/5 p-5 overflow-y-auto" style={{maxHeight: 'calc(100vh - 140px)'}}>
<div className="font-mono text-[10px] uppercase tracking-[0.25em] text-neutral-500 mb-4">primitivas</div>
<div className="flex flex-col gap-5">
{BY_CATEGORY.map(cat => (
<section key={cat.key}>
<div className="flex items-center gap-2 mb-2 px-1">
<span className="w-1.5 h-1.5 rounded-full" style={{background: cat.color, boxShadow: `0 0 8px ${cat.color}`}} />
<span className="font-display text-sm italic" style={{color: cat.color}}>{cat.label}</span>
</div>
<div className="font-mono text-[9px] text-neutral-600 mb-2 px-1 leading-snug">
{cat.subtitle} · <span className="text-neutral-500">{cat.signature}</span>
</div>
<div className="flex flex-col gap-0.5">
{cat.items.map(item => (
<PaletteItem
key={item.name}
fnName={item.name}
fn={item}
color={cat.color}
onClick={() => addFunction(item.name)}
/>
))}
</div>
</section>
))}
</div>
<div className="mt-6 pt-4 border-t border-white/5 font-mono text-[9px] text-neutral-600 leading-relaxed">
tip · click o drag para añadir al pipeline. reordena arrastrando nodos existentes.
</div>
</aside>
{/* ─── DERECHA · EXPRESIÓN + PIPELINE + VISUALIZADOR ─── */}
<section className="p-4 md:p-6 overflow-y-auto flex flex-col gap-5" style={{maxHeight: 'calc(100vh - 140px)'}}>
{/* Expresión simbólica */}
<div>
<div className="flex items-baseline gap-3 mb-2">
<span className="font-mono text-[10px] uppercase tracking-[0.25em] text-neutral-500">expresión</span>
<span className="font-mono text-[9px] text-neutral-600">se aplica de derecha a izquierda</span>
</div>
<div className="rounded-lg bg-white/[0.03] border border-white/10 p-3">
<code className="font-mono text-xs text-neutral-200 break-all leading-relaxed">
{expression}
</code>
</div>
</div>
{/* Pipeline */}
<div>
<div className="flex items-baseline gap-3 mb-2">
<span className="font-mono text-[10px] uppercase tracking-[0.25em] text-neutral-500">pipeline</span>
<span className="font-mono text-[10px] text-neutral-600">{pipeline.length} {pipeline.length === 1 ? 'nodo' : 'nodos'}</span>
</div>
<div
ref={dropZoneRef}
onDragOver={(e) => { e.preventDefault(); e.dataTransfer.dropEffect = 'copy'; }}
onDrop={handleDropOnZone}
className="rounded-xl border border-dashed border-white/10 p-5 transition-colors hover:border-white/20"
style={{background: 'rgba(255,255,255,0.015)', minHeight: '180px'}}
>
{pipeline.length === 0 ? (
<div className="h-full flex flex-col items-center justify-center py-12 text-center">
<div className="font-display text-xl italic text-neutral-500 mb-2">zona de composición</div>
<div className="font-mono text-[10px] text-neutral-600 max-w-xs">arrastra una primitiva desde la izquierda. los nodos se encadenan de izquierda a derecha.</div>
</div>
) : (
<div className="flex flex-wrap gap-x-8 gap-y-4 items-start">
{steps.map((step, i) => (
<PipelineNode
key={step.id}
step={step}
index={i}
isLast={i === steps.length - 1}
onRemove={removeFunction}
onParamChange={changeParam}
onDragStart={setDragIndex}
onDragOver={setHoverIndex}
onDrop={handleDropOnNode}
isDragging={dragIndex === i}
/>
))}
</div>
)}
</div>
</div>
{/* Visualizador */}
<div>
<div className="font-mono text-[10px] uppercase tracking-[0.25em] text-neutral-500 mb-2">visualizador</div>
<div className="rounded-lg border border-white/5 bg-white/[0.015] p-4" style={{minHeight: '220px'}}>
<div className="h-full flex items-center justify-center">
<FinalView lastStep={lastStep} />
</div>
</div>
</div>
{/* Nota didáctica */}
<div className="font-mono text-[10px] text-neutral-600 leading-relaxed border-l-2 border-neutral-800 pl-3">
<span style={{color:'#7dd3fc'}}>anamorfismo</span> genera estructura · <span style={{color:'#c4b5fd'}}>functor map</span> transforma punto a punto ·{' '}
<span style={{color:'#fcd34d'}}>filtro</span> refina · <span style={{color:'#86efac'}}>scan</span> acumula dejando rastro ·{' '}
<span style={{color:'#fda4af'}}>catamorfismo</span> colapsa (es terminal)
</div>
</section>
</main>
</div>
</div>
);
}