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    Home»AI News»How to Design Python-First Interactive Dashboards with Prefab Reactive UI Components and Static HTML Export
    AI News

    How to Design Python-First Interactive Dashboards with Prefab Reactive UI Components and Static HTML Export

    June 22, 2026
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    How to Design Python-First Interactive Dashboards with Prefab Reactive UI Components and Static HTML Export
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    import random
    from collections import Counter, defaultdict
    from datetime import date, timedelta
    from prefab_ui.actions import AppendState, OpenLink, PopState, SetState, ShowToast, ToggleState
    from prefab_ui.app import PrefabApp
    from prefab_ui.components import (
    Alert, AlertDescription, AlertTitle, Badge, Button, Card, CardContent,
    CardDescription, CardFooter, CardHeader, CardTitle, Code, Column,
    DataTable, DataTableColumn, Form, Grid, H2, Input, Markdown, Mermaid,
    Metric, Muted, Progress, Ring, Row, Slider, Small, Switch, Tab, Tabs,
    Text
    )
    from prefab_ui.components.charts import (
    BarChart, ChartSeries, LineChart, PieChart, RadarChart, ScatterChart,
    Sparkline
    )
    from prefab_ui.components.control_flow import Else, ForEach, If
    from prefab_ui.rx import EVENT, STATE
    random.seed(42)
    TODAY = date.today()
    DATES = [TODAY – timedelta(days=29 – i) for i in range(30)]
    REGIONS = [“All”, “APAC”, “EMEA”, “NA”, “LATAM”]
    PIPELINES = [
    “Customer 360 ETL”,
    “Invoice OCR”,
    “LLM Triage”,
    “Risk Scoring”,
    “Forecast Sync”,
    “Warehouse Load”,
    ]
    OWNERS = [“Data Platform”, “AI Apps”, “Revenue Ops”, “Risk Engineering”]
    STATES = [“Completed”, “Completed”, “Completed”, “Completed”, “Late”, “Failed”]
    PRIORITIES = [“P0”, “P1”, “P2”, “P3”]
    runs = []
    daily_region_rows = []
    for d in DATES:
    for region in REGIONS[1:]:
    region_bias = {
    “APAC”: 0.96,
    “EMEA”: 0.94,
    “NA”: 0.97,
    “LATAM”: 0.91,
    }[region]
    volume = random.randint(32, 78)
    failures = 0
    late = 0
    total_cost = 0.0
    total_latency = 0.0
    total_revenue = 0.0
    for i in range(volume):
    pipeline = random.choice(PIPELINES)
    owner = random.choice(OWNERS)
    state = random.choices(
    STATES,
    weights=[
    region_bias * 10,
    6,
    4,
    3,
    1.2,
    max(0.2, (1 – region_bias) * 16),
    ],
    k=1,
    )[0]
    duration = max(
    12,
    int(
    random.gauss(95, 35)
    + (20 if state == “Late” else 0)
    + (45 if state == “Failed” else 0)
    ),
    )
    cost = round(max(0.09, random.lognormvariate(-1.15, 0.55) + duration / 1800), 2)
    revenue = round(random.uniform(1.2, 8.5) * (1.3 if state == “Completed” else 0.6), 2)
    priority = random.choices(PRIORITIES, weights=[1, 3, 7, 10], k=1)[0]
    if state == “Failed”:
    failures += 1
    if state == “Late”:
    late += 1
    total_cost += cost
    total_latency += duration
    total_revenue += revenue
    if d >= TODAY – timedelta(days=10) and (state in {“Failed”, “Late”} or random.random() < 0.05):
    runs.append({
    “run_id”: f”{d.strftime(‘%m%d’)}-{region[:2]}-{len(runs)+1:04d}”,
    “date”: d.strftime(“%Y-%m-%d”),
    “pipeline”: pipeline,
    “owner”: owner,
    “region”: region,
    “state”: state,
    “priority”: priority,
    “duration_s”: duration,
    “cost_usd”: cost,
    “revenue_k”: revenue,
    “sla_gap”: round(max(0, duration – 120) / 60, 1),
    })
    daily_region_rows.append({
    “date”: d.strftime(“%b %d”),
    “region”: region,
    “runs”: volume,
    “failures”: failures,
    “late”: late,
    “success_rate”: round(100 * (volume – failures – late * 0.35) / volume, 1),
    “avg_latency”: round(total_latency / volume, 1),
    “cost_usd”: round(total_cost, 2),
    “revenue_k”: round(total_revenue, 1),
    })
    runs = sorted(
    runs,
    key=lambda r: (r[“priority”], r[“state”] != “Failed”, -r[“duration_s”])
    )[:80]
    def aggregate_daily(rows):
    by_date = defaultdict(lambda: {
    “date”: “”,
    “runs”: 0,
    “failures”: 0,
    “late”: 0,
    “cost_usd”: 0.0,
    “revenue_k”: 0.0,
    “latency_weighted”: 0.0,
    })
    for r in rows:
    bucket = by_date[r[“date”]]
    bucket[“date”] = r[“date”]
    bucket[“runs”] += r[“runs”]
    bucket[“failures”] += r[“failures”]
    bucket[“late”] += r[“late”]
    bucket[“cost_usd”] += r[“cost_usd”]
    bucket[“revenue_k”] += r[“revenue_k”]
    bucket[“latency_weighted”] += r[“avg_latency”] * r[“runs”]
    out = []
    for d in [x.strftime(“%b %d”) for x in DATES]:
    b = by_date[d]
    if b[“runs”]:
    b[“success_rate”] = round(100 * (b[“runs”] – b[“failures”] – b[“late”] * 0.35) / b[“runs”], 1)
    b[“avg_latency”] = round(b[“latency_weighted”] / b[“runs”], 1)
    b[“cost_usd”] = round(b[“cost_usd”], 2)
    b[“revenue_k”] = round(b[“revenue_k”], 1)
    del b[“latency_weighted”]
    out.append(dict(b))
    return out
    def aggregate_regions(rows):
    by_region = defaultdict(lambda: {
    “region”: “”,
    “runs”: 0,
    “failures”: 0,
    “late”: 0,
    “cost_usd”: 0.0,
    “revenue_k”: 0.0,
    “latency_weighted”: 0.0,
    })
    for r in rows:
    b = by_region[r[“region”]]
    b[“region”] = r[“region”]
    b[“runs”] += r[“runs”]
    b[“failures”] += r[“failures”]
    b[“late”] += r[“late”]
    b[“cost_usd”] += r[“cost_usd”]
    b[“revenue_k”] += r[“revenue_k”]
    b[“latency_weighted”] += r[“avg_latency”] * r[“runs”]
    out = []
    for region in REGIONS[1:]:
    b = by_region[region]
    b[“success_rate”] = round(100 * (b[“runs”] – b[“failures”] – b[“late”] * 0.35) / b[“runs”], 1)
    b[“avg_latency”] = round(b[“latency_weighted”] / b[“runs”], 1)
    b[“cost_usd”] = round(b[“cost_usd”], 2)
    b[“revenue_k”] = round(b[“revenue_k”], 1)
    b[“roi”] = round(b[“revenue_k”] / max(1, b[“cost_usd”]), 1)
    del b[“latency_weighted”]
    out.append(dict(b))
    return out
    def make_status_rows(table_rows):
    counts = Counter(r[“state”] for r in table_rows)
    return [{“state”: k, “count”: v} for k, v in counts.items()]
    def make_pipeline_rows(table_rows):
    counts = Counter(r[“pipeline”] for r in table_rows)
    return [{“pipeline”: k, “count”: v} for k, v in counts.most_common()]
    def make_kpis(region, daily_rows, table_rows):
    runs_count = sum(r[“runs”] for r in daily_rows)
    failures = sum(r[“failures”] for r in daily_rows)
    late = sum(r[“late”] for r in daily_rows)
    cost = sum(r[“cost_usd”] for r in daily_rows)
    revenue = sum(r[“revenue_k”] for r in daily_rows)
    return {
    “region”: region,
    “runs”: runs_count,
    “success_rate”: round(100 * (runs_count – failures – late * 0.35) / max(1, runs_count), 1),
    “avg_latency”: round(sum(r[“avg_latency”] * r[“runs”] for r in daily_rows) / max(1, runs_count), 1),
    “cost_usd”: round(cost, 2),
    “revenue_k”: round(revenue, 1),
    “roi”: round(revenue / max(1, cost), 1),
    “open_issues”: len(table_rows),
    “p0p1”: sum(1 for r in table_rows if r[“priority”] in {“P0”, “P1”}),
    “failure_rate”: round(100 * failures / max(1, runs_count), 2),
    “spark”: [r[“success_rate”] for r in daily_rows[-14:]],
    }
    DAILY_BY_REGION = {“All”: aggregate_daily(daily_region_rows)}
    REGION_ROWS = aggregate_regions(daily_region_rows)
    for region in REGIONS[1:]:
    DAILY_BY_REGION[region] = [r for r in daily_region_rows if r[“region”] == region]
    RUNS_BY_REGION = {
    region: [r for r in runs if region == “All” or r[“region”] == region]
    for region in REGIONS
    }
    STATUS_BY_REGION = {
    region: make_status_rows(RUNS_BY_REGION[region])
    for region in REGIONS
    }
    PIPELINE_BY_REGION = {
    region: make_pipeline_rows(RUNS_BY_REGION[region])
    for region in REGIONS
    }
    KPI_BY_REGION = {
    region: make_kpis(region, DAILY_BY_REGION[region], RUNS_BY_REGION[region])
    for region in REGIONS
    }
    WATCHLIST = sorted(
    runs,
    key=lambda r: (r[“priority”], r[“state”] != “Failed”, -r[“sla_gap”])
    )[:8]
    SCATTER_ROWS = [
    {
    “region”: r[“region”],
    “success_rate”: r[“success_rate”],
    “cost_usd”: r[“cost_usd”],
    “avg_latency”: r[“avg_latency”],
    }
    for r in REGION_ROWS
    ]
    RADAR_ROWS = [
    {“metric”: “Success”, **{r[“region”]: r[“success_rate”] for r in REGION_ROWS}},
    {“metric”: “ROI”, **{r[“region”]: min(100, r[“roi”] * 8) for r in REGION_ROWS}},
    {“metric”: “Latency”, **{r[“region”]: max(0, 100 – r[“avg_latency”] / 2) for r in REGION_ROWS}},
    {“metric”: “Cost”, **{r[“region”]: max(0, 100 – r[“cost_usd”] / 20) for r in REGION_ROWS}},
    ]
    REGION_ACTIONS = {
    region: [
    SetState(“selected_region”, region),
    SetState(“line_rows”, DAILY_BY_REGION[region]),
    SetState(“table_rows”, RUNS_BY_REGION[region]),
    SetState(“status_rows”, STATUS_BY_REGION[region]),
    SetState(“pipeline_rows”, PIPELINE_BY_REGION[region]),
    SetState(“region_kpis”, KPI_BY_REGION[region]),
    SetState(“selected_run”, None),
    ShowToast(f”Region set to {region}”, variant=”info”, duration=1800),
    ]
    for region in REGIONS
    }
    ”’



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