> ## Documentation Index
> Fetch the complete documentation index at: https://docs.canadava.com/llms.txt
> Use this file to discover all available pages before exploring further.

# Ottawa (CYOW)

> Aperçu vACA pour CYOW Ottawa Macdonald-Cartier : configuration des pistes, fréquences ATC, procédures courantes, points chauds, METAR en direct et couverture des réseaux ATC en ligne

export const Gates = ({sections = [], title = "Gates", terminal, labels = {}}) => {
  const DEFAULT_LABELS = {
    range: "Range",
    operators: "Operators",
    aircraft: "Aircraft"
  };
  const mergedLabels = {
    ...DEFAULT_LABELS,
    ...labels
  };
  const typeKey = type => {
    const t = (type || "").toLowerCase();
    if (t.includes("domestic") || t.includes("domestique")) return "domestic";
    if (t.includes("transborder") || t.includes("transfrontalier") || t.includes("us")) return "transborder";
    if (t.includes("international")) return "international";
    if (t.includes("regional") || t.includes("régional")) return "regional";
    if (t.includes("remote") || t.includes("hardstand") || t.includes("isol")) return "remote";
    if (t.includes("swing") || t.includes("polyvalent")) return "swing";
    if (t.includes("deice") || t.includes("dégivrage") || t.includes("ice")) return "deice";
    return "default";
  };
  const TypeIcon = ({k}) => {
    const svgProps = {
      width: 14,
      height: 14,
      viewBox: "0 0 24 24",
      fill: "none",
      stroke: "currentColor",
      strokeWidth: 2,
      strokeLinecap: "round",
      strokeLinejoin: "round",
      "aria-hidden": true
    };
    switch (k) {
      case "domestic":
        return <svg {...svgProps}>
            <path d="m3 9 9-7 9 7v11a2 2 0 0 1-2 2H5a2 2 0 0 1-2-2z" />
            <polyline points="9 22 9 12 15 12 15 22" />
          </svg>;
      case "international":
        return <svg {...svgProps}>
            <circle cx="12" cy="12" r="10" />
            <path d="M12 2a14.5 14.5 0 0 0 0 20 14.5 14.5 0 0 0 0-20" />
            <path d="M2 12h20" />
          </svg>;
      case "transborder":
        return <svg {...svgProps}>
            <path d="M4 15s1-1 4-1 5 2 8 2 4-1 4-1V3s-1 1-4 1-5-2-8-2-4 1-4 1z" />
            <line x1="4" x2="4" y1="22" y2="15" />
          </svg>;
      case "regional":
        return <svg {...svgProps}>
            <path d="M17.8 19.2 16 11l3.5-3.5C21 6 21.5 4 21 3c-1-.5-3 0-4.5 1.5L13 8 4.8 6.2c-.5-.1-.9.1-1.1.5l-.3.5c-.2.5-.1 1 .3 1.3L9 12l-2 3H4l-1 1 3 2 2 3 1-1v-3l3-2 3.5 5.3c.3.4.8.5 1.3.3l.5-.2c.4-.3.6-.7.5-1.2z" />
          </svg>;
      case "remote":
        return <svg {...svgProps}>
            <path d="M11 21.73a2 2 0 0 0 2 0l7-4A2 2 0 0 0 21 16V8a2 2 0 0 0-1-1.73l-7-4a2 2 0 0 0-2 0l-7 4A2 2 0 0 0 3 8v8a2 2 0 0 0 1 1.73z" />
            <path d="M12 22V12" />
            <polyline points="3.29 7 12 12 20.71 7" />
            <path d="m7.5 4.27 9 5.15" />
          </svg>;
      case "swing":
        return <svg {...svgProps}>
            <path d="M8 3 4 7l4 4" />
            <path d="M4 7h16" />
            <path d="m16 21 4-4-4-4" />
            <path d="M20 17H4" />
          </svg>;
      case "deice":
        return <svg {...svgProps}>
            <line x1="2" x2="22" y1="12" y2="12" />
            <line x1="12" x2="12" y1="2" y2="22" />
            <path d="m20 16-4-4 4-4" />
            <path d="m4 8 4 4-4 4" />
            <path d="m16 4-4 4-4-4" />
            <path d="m8 20 4-4 4 4" />
          </svg>;
      default:
        return <svg {...svgProps}>
            <rect x="3" y="3" width="18" height="18" rx="2" />
          </svg>;
    }
  };
  const Chip = ({value, variant}) => <span className={`kb-gates-chip kb-gates-chip--${variant}`}>
      <span className="kb-gates-chip-value">{value}</span>
    </span>;
  return <div className="kb-gates">
      <div className="kb-gates-header">
        <span className="kb-gates-eyebrow">{title}</span>
        {terminal && <span className="kb-gates-station">
            <span className="kb-gates-station-terminal">{terminal}</span>
          </span>}
      </div>
      <div className="kb-gates-list">
        {sections.map((section, i) => {
    const k = typeKey(section.type);
    const operators = Array.isArray(section.operators) ? section.operators : [];
    const aircraft = Array.isArray(section.aircraft) ? section.aircraft : [];
    const gates = Array.isArray(section.gates) ? section.gates : [];
    return <div key={`g-${i}`} className="kb-gates-row" data-type={k}>
              <div className="kb-gates-type">
                <span className="kb-gates-type-icon" aria-hidden="true">
                  <TypeIcon k={k} />
                </span>
                <div className="kb-gates-type-text">
                  <div className="kb-gates-type-label">{section.label}</div>
                  {section.subLabel && <div className="kb-gates-type-note">{section.subLabel}</div>}
                </div>
              </div>
              <div className="kb-gates-body">
                {section.range && <div className="kb-gates-range">
                    <span className="kb-gates-range-value">{section.range}</span>
                  </div>}
                {gates.length > 0 && <div className="kb-gates-chips kb-gates-chips--gates">
                    {gates.map((g, j) => <Chip key={`gx-${i}-${j}`} value={g} variant="gate" />)}
                  </div>}
                {operators.length > 0 && <div className="kb-gates-meta">
                    <span className="kb-gates-meta-label">{mergedLabels.operators}</span>
                    <div className="kb-gates-chips">
                      {operators.map((o, j) => <Chip key={`op-${i}-${j}`} value={o} variant="operator" />)}
                    </div>
                  </div>}
                {aircraft.length > 0 && <div className="kb-gates-meta">
                    <span className="kb-gates-meta-label">{mergedLabels.aircraft}</span>
                    <div className="kb-gates-chips">
                      {aircraft.map((a, j) => <Chip key={`ac-${i}-${j}`} value={a} variant="aircraft" />)}
                    </div>
                  </div>}
                {section.notes && <div className="kb-gates-notes">{section.notes}</div>}
              </div>
            </div>;
  })}
      </div>
    </div>;
};

export const ChartsLinks = ({icao, title = "Charts", freeLabel = "Free"}) => {
  const code = (icao || "").toUpperCase().trim();
  const providers = [{
    name: "ChartFox",
    href: code ? `https://chartfox.org/${code}` : "https://chartfox.org",
    logoSrc: "https://chartfox.org/images/icons/180x180.png",
    badge: freeLabel
  }, {
    name: "Navigraph",
    href: code ? `https://charts.navigraph.com/airport/${code}` : "https://charts.navigraph.com",
    logoSrc: "https://charts.navigraph.com/favicon.ico"
  }];
  return <div className="kb-charts-links">
      <div className="kb-charts-links-header">
        <span className="kb-charts-links-eyebrow">{title}</span>
      </div>
      <div className="kb-charts-links-grid">
        {providers.map(({name, href, logoSrc, badge}) => <a key={name} className="kb-charts-link" href={href} target="_blank" rel="noopener noreferrer">
            <span className="kb-charts-link-logo" aria-hidden="true">
              <img src={logoSrc} alt="" width="20" height="20" loading="lazy" />
            </span>
            <span className="kb-charts-link-name">{name}</span>
            {badge && <span className="kb-charts-link-badge">{badge}</span>}
            <span className="kb-charts-link-chevron" aria-hidden="true">
              <svg width="14" height="14" viewBox="0 0 14 14" fill="none">
                <path d="M5 3L9 7L5 11" stroke="currentColor" strokeWidth="1.5" strokeLinecap="round" strokeLinejoin="round" />
              </svg>
            </span>
          </a>)}
      </div>
    </div>;
};

export const NetworkLinks = ({icao, title = "Online ATC Network Maps"}) => {
  const code = (icao || "").toUpperCase();
  const networks = [{
    name: "VATSIM",
    href: `https://vatsim-radar.com/airport/${code}`,
    logoSrc: "/images/networks/vatsim.png"
  }, {
    name: "IVAO",
    href: `https://webeye.ivao.aero/?airportId=${code}`,
    logoSrc: "/images/networks/ivao.svg"
  }, {
    name: "POSCON",
    href: "https://hq.poscon.net/map",
    logoSrc: "/images/networks/poscon.ico"
  }, {
    name: "PilotEdge",
    href: "http://map.pilotedge.net/map/",
    logoSrc: "/images/networks/pilotedge.ico"
  }];
  return <div className="kb-network-links">
      <div className="kb-network-links-header">
        <span className="kb-network-links-eyebrow">{title}</span>
      </div>
      <div className="kb-network-links-grid">
        {networks.map(({name, href, logoSrc}) => <a key={name} className="kb-network-link" href={href} target="_blank" rel="noopener noreferrer">
            <span className="kb-network-link-logo" aria-hidden="true">
              <img src={logoSrc} alt="" width="20" height="20" loading="lazy" />
            </span>
            <span className="kb-network-link-name">{name}</span>
            <span className="kb-network-link-chevron" aria-hidden="true">
              <svg width="14" height="14" viewBox="0 0 14 14" fill="none">
                <path d="M5 3L9 7L5 11" stroke="currentColor" strokeWidth="1.5" strokeLinecap="round" strokeLinejoin="round" />
              </svg>
            </span>
          </a>)}
      </div>
    </div>;
};

export const AtcFrequencies = ({frequencies = [], title = "ATC Frequencies"}) => {
  const roleKey = role => {
    const r = (role || "").toLowerCase();
    if (r.includes("atis")) return "atis";
    if (r.includes("clearance") || r.includes("autorisation") || r.includes("clnc")) return "clearance";
    if (r.includes("sol") || r.includes("ground")) return "ground";
    if (r.includes("tower") || r.includes("tour")) return "tower";
    if (r.includes("départ") || r.includes("depart")) return "departure";
    if (r.includes("arrivée") || r.includes("arrival")) return "arrival";
    if (r.includes("terminal") || r.includes("approach") || r.includes("approche")) return "terminal";
    if (r.includes("center") || r.includes("centre") || r.includes("enroute")) return "center";
    if (r.includes("vfr") || r.includes("advisory") || r.includes("conseil")) return "advisory";
    return "default";
  };
  const RoleIcon = ({k}) => {
    const stroke = {
      stroke: "currentColor",
      strokeWidth: 1.4,
      strokeLinecap: "round",
      strokeLinejoin: "round",
      fill: "none"
    };
    switch (k) {
      case "atis":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <path d="M3 7v2M5.5 5.5v5M8 4v8" {...stroke} />
            <path d="M10.5 6.5C11.6 7 12 7.5 12 8s-0.4 1-1.5 1.5" {...stroke} />
            <path d="M12 5C13.7 5.7 14.5 6.7 14.5 8s-0.8 2.3-2.5 3" {...stroke} />
          </svg>;
      case "clearance":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <rect x="3.5" y="2.5" width="9" height="11" rx="1" {...stroke} />
            <path d="M6 6h4M6 8.5h4M6 11h2.5" {...stroke} />
            <path d="M9.5 11l1 1 2-2.2" {...stroke} stroke="#10b981" strokeWidth="1.5" />
          </svg>;
      case "ground":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <path d="M2.5 12.5h11" {...stroke} />
            <path d="M5 9.5L8 12.5L11 9.5" {...stroke} />
            <path d="M8 4v8.5" {...stroke} />
            <circle cx="3" cy="12.5" r="0.5" fill="currentColor" />
            <circle cx="13" cy="12.5" r="0.5" fill="currentColor" />
          </svg>;
      case "tower":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <path d="M6 13.5V8l-1.2-1V5.5L8 4l3.2 1.5V7L10 8v5.5" {...stroke} />
            <path d="M4.5 13.5h7" {...stroke} />
            <path d="M8 4V2.5" {...stroke} />
            <path d="M6 6.5h4" {...stroke} />
            <path d="M2.5 3.5l1 -1M13.5 3.5l-1 -1" {...stroke} />
          </svg>;
      case "departure":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <path d="M2.5 13.5h11" {...stroke} />
            <path d="M2.5 11l9-4.5 c1.4-0.7 2.5 0.4 1.8 1.8L8 12 M5.5 10.2L4.2 8" {...stroke} />
          </svg>;
      case "arrival":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <path d="M2.5 13.5h11" {...stroke} />
            <path d="M13 11.5L4 7c-1.4-0.7-2.5 0.4-1.8 1.8L7.5 12.5z" {...stroke} />
          </svg>;
      case "terminal":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <path d="M8 13.5V8" {...stroke} />
            <path d="M3 11.5a6 6 0 0 1 10 0" {...stroke} />
            <path d="M5 9a4 4 0 0 1 6 0" {...stroke} />
            <circle cx="8" cy="8" r="0.8" fill="currentColor" />
          </svg>;
      case "center":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <circle cx="8" cy="8" r="5.5" {...stroke} />
            <path d="M8 2.5L9 8L8 13.5L7 8Z" fill="currentColor" />
            <circle cx="8" cy="8" r="0.8" fill="currentColor" />
          </svg>;
      case "advisory":
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <circle cx="8" cy="8" r="5.5" {...stroke} />
            <path d="M8 5v3.5M8 11h0.01" {...stroke} />
          </svg>;
      default:
        return <svg width="14" height="14" viewBox="0 0 16 16" aria-hidden="true">
            <circle cx="8" cy="8" r="5.5" {...stroke} />
          </svg>;
    }
  };
  return <div className="kb-atc-freqs">
      <div className="kb-atc-freqs-header">
        <span className="kb-atc-freqs-eyebrow">{title}</span>
      </div>
      <div className="kb-atc-freqs-list">
        {frequencies.map((row, i) => {
    const k = roleKey(row.role);
    const freqs = (row.freqs || []).map(f => typeof f === "string" ? {
      value: f
    } : f);
    return <div key={`r-${i}`} className="kb-atc-freq-row" data-role={k}>
              <div className="kb-atc-freq-role">
                <span className="kb-atc-freq-role-icon" aria-hidden="true">
                  <RoleIcon k={k} />
                </span>
                <div className="kb-atc-freq-role-text">
                  <div className="kb-atc-freq-role-label">{row.role}</div>
                  {row.subLabel && <div className="kb-atc-freq-role-note">{row.subLabel}</div>}
                </div>
              </div>
              <div className="kb-atc-freq-chips">
                {freqs.map((f, j) => <div key={`${i}-${j}-${f.value}`} className="kb-atc-freq-chip">
                    <span className="kb-atc-freq-chip-value">{f.value}</span>
                    {f.note && <span className="kb-atc-freq-chip-note">{f.note}</span>}
                  </div>)}
              </div>
            </div>;
  })}
      </div>
    </div>;
};

export const Runways = ({runways = [], magneticVariation, title = "Runways", labels = {}}) => {
  const ilsClass = cat => {
    if (!cat) return "kb-runway-pill--no-ils";
    const c = String(cat).toUpperCase();
    if (c.includes("III")) return "kb-runway-pill--cat3";
    if (c.includes("II")) return "kb-runway-pill--cat2";
    return "kb-runway-pill--cat1";
  };
  const fmt = n => typeof n === "number" ? n.toLocaleString("en-US") : n;
  const DEFAULT_LABELS = {
    length: "Length",
    width: "Width",
    surface: "Surface",
    lighting: "Lighting",
    noIls: "None",
    ilsPrefix: "ILS",
    magvar: "Magnetic variation"
  };
  const mergedLabels = {
    ...DEFAULT_LABELS,
    ...labels
  };
  return <div className="kb-runways">
      <div className="kb-runways-header">
        <span className="kb-runways-eyebrow">{title}</span>
        {magneticVariation && <span className="kb-runways-variation">
            <svg width="11" height="11" viewBox="0 0 12 12" fill="none" aria-hidden="true">
              <circle cx="6" cy="6" r="5" stroke="currentColor" strokeWidth="1" opacity="0.6" />
              <path d="M6 1.5L6 4M6 10.5L6 8" stroke="currentColor" strokeWidth="1" strokeLinecap="round" opacity="0.6" />
              <path d="M6 3L4 7H8L6 3Z" fill="currentColor" />
            </svg>
            {mergedLabels.magvar} {magneticVariation}
          </span>}
      </div>

      <div className="kb-runways-list">
        {runways.map((runway, index) => {
    const [d1, d2] = runway.designators;
    const ilsEntries = runway.ils ? Object.entries(runway.ils) : [];
    return <div key={`${d1}-${d2}`} className="kb-runway" style={{
      "--i": index
    }}>
              <div className="kb-runway-strip">
                <svg viewBox="0 0 1200 150" xmlns="http://www.w3.org/2000/svg" preserveAspectRatio="xMidYMid meet" role="img" aria-label={`Runway ${d1}/${d2}`}>
                  <rect x="0" y="20" width="1200" height="110" rx="5" className="kb-runway-body" />

                  {[0, 1, 2, 3, 4, 5].map(i => <rect key={`pl-${i}`} x={20 + i * 12} y="36" width="7" height="78" fill="white" opacity="0.92" rx="1" />)}
                  {[0, 1, 2, 3, 4, 5].map(i => <rect key={`pr-${i}`} x={1180 - i * 12 - 7} y="36" width="7" height="78" fill="white" opacity="0.92" rx="1" />)}

                  {[...Array(18)].map((_, i) => <rect key={`cl-${i}`} x={240 + i * 40} y="71" width="24" height="8" fill="white" opacity="0.88" rx="1" />)}

                  <text x="142" y="75" fontSize="46" fontWeight="700" fill="white" textAnchor="middle" dominantBaseline="middle" style={{
      fontFamily: "ui-monospace, 'SF Mono', 'Geist Mono', Menlo, monospace",
      letterSpacing: "1.5px"
    }}>
                    {d1}
                  </text>
                  <text x="1058" y="75" fontSize="46" fontWeight="700" fill="white" textAnchor="middle" dominantBaseline="middle" style={{
      fontFamily: "ui-monospace, 'SF Mono', 'Geist Mono', Menlo, monospace",
      letterSpacing: "1.5px"
    }}>
                    {d2}
                  </text>
                </svg>
              </div>

              <div className="kb-runway-scale">
                <span>{fmt(runway.length_ft)} ft</span>
                <span>{fmt(runway.length_m)} m</span>
              </div>

              <div className="kb-runway-meta">
                <span className="kb-runway-pill">
                  <span className="kb-runway-pill-label">{mergedLabels.length}</span>
                  <span className="kb-runway-pill-value">
                    {fmt(runway.length_ft)} ft · {fmt(runway.length_m)} m
                  </span>
                </span>
                {runway.width_ft && <span className="kb-runway-pill">
                    <span className="kb-runway-pill-label">{mergedLabels.width}</span>
                    <span className="kb-runway-pill-value">{runway.width_ft} ft</span>
                  </span>}
                {runway.surface && <span className="kb-runway-pill">
                    <span className="kb-runway-pill-label">{mergedLabels.surface}</span>
                    <span className="kb-runway-pill-value">{runway.surface}</span>
                  </span>}
                {ilsEntries.length > 0 ? ilsEntries.map(([threshold, cat]) => <span key={threshold} className={`kb-runway-pill ${ilsClass(cat)}`}>
                      <span className="kb-runway-pill-label">{threshold}</span>
                      <span className="kb-runway-pill-value">
                        {cat ? `${mergedLabels.ilsPrefix} ${cat}` : mergedLabels.noIls}
                      </span>
                    </span>) : <span className="kb-runway-pill kb-runway-pill--no-ils">
                    <span className="kb-runway-pill-label">{mergedLabels.ilsPrefix}</span>
                    <span className="kb-runway-pill-value">{mergedLabels.noIls}</span>
                  </span>}
                {runway.lighting && <span className="kb-runway-pill">
                    <span className="kb-runway-pill-label">{mergedLabels.lighting}</span>
                    <span className="kb-runway-pill-value">{runway.lighting}</span>
                  </span>}
              </div>

              {runway.notes && <div className="kb-runway-notes">{runway.notes}</div>}
            </div>;
  })}
      </div>
    </div>;
};

export const VatsimAtis = ({icao, name, runways = [], magneticVariation, title = "VATSIM ATIS", loadingLabel = "Tuning broadcast", offlineLabel = "No live VATSIM ATIS for this airport right now", errorLabel = "Unable to reach VATSIM data feed", refreshLabel = "Refresh", infoLabel = "Info", frequencyLabel = "Frequency", observedLabel = "Updated", agoLabel = "min ago", justNowLabel = "just now", windLabel = "Wind", altimeterLabel = "Altimeter", approachLabel = "Approach", transcriptLabel = "Transcript", runwaysInUseLabel = "Runways in use", notUsedLabel = "Not in use", depLabel = "DEP", arrLabel = "ARR", bearingLabel = "Bearing", runwayLabel = "Runway", calmLabel = "Calm", variableLabel = "Variable", gustingLabel = "gusting", fromLabel = "from", atLabel = "at", arrivalsBroadcastLabel = "Arrivals", departuresBroadcastLabel = "Departures"}) => {
  const code = (icao || "").toUpperCase();
  const [data, setData] = useState(null);
  const [metarWind, setMetarWind] = useState(null);
  const [loading, setLoading] = useState(true);
  const [error, setError] = useState(null);
  const [refreshing, setRefreshing] = useState(false);
  const [nowTick, setNowTick] = useState(Date.now());
  const parseMagVar = mv => {
    if (!mv) return 0;
    const m = String(mv).match(/(\d+(?:\.\d+)?)\s*°?\s*([EW])/i);
    if (!m) return 0;
    return parseFloat(m[1]) * (m[2].toUpperCase() === "E" ? 1 : -1);
  };
  const magVarDeg = parseMagVar(magneticVariation);
  const parseEmbeddedMetar = text => {
    if (!text) return {
      wind: null,
      altimeter: null
    };
    const ups = text.toUpperCase();
    let wind = null;
    const wm = ups.match(/\b(VRB|\d{3})(\d{2,3})(?:G(\d{2,3}))?\s*(KT|MPS|KMH)\b/);
    if (wm) {
      wind = {
        dir: wm[1] === "VRB" ? "VRB" : +wm[1],
        speed: +wm[2],
        gust: wm[3] ? +wm[3] : null,
        unit: wm[4]
      };
    } else if ((/\b00000(KT|MPS|KMH)\b/).test(ups)) {
      wind = {
        calm: true
      };
    }
    let altimeter = null;
    const altA = ups.match(/\bA(\d{4})\b/);
    const altQ = ups.match(/\bQ(\d{4})\b/);
    if (altA) altimeter = {
      value: +altA[1] / 100,
      unit: "inHg"
    }; else if (altQ) altimeter = {
      value: +altQ[1],
      unit: "hPa"
    };
    return {
      wind,
      altimeter
    };
  };
  const parseRunwaysInUse = text => {
    if (!text) return {
      departures: [],
      arrivals: [],
      approachType: null
    };
    const ups = text.toUpperCase();
    const deps = new Set();
    const arrs = new Set();
    let approachType = null;
    const clauses = ups.split(/(?:\.{1,}|;|\s-\s)/);
    const runwayInClauseRe = /\b(?:RUNWAYS|RUNWAY|RWYS|RWY)\s*((?:\d{1,2}\s*(?:LEFT|RIGHT|CENTER|CENTRE|L|R|C)?)(?:\s*(?:,|\/|AND|&)\s*\d{1,2}\s*(?:LEFT|RIGHT|CENTER|CENTRE|L|R|C)?)*)/g;
    for (const clause of clauses) {
      if ((/\b(OTS|U\/S|UNSERVICEABLE|OUT\s+OF\s+SERVICE|CLOSED)\b/).test(clause)) continue;
      const isDep = (/\b(DEPARTURE|DEPARTURES|DEPARTING|DEPTG|DEPG|TAKEOFF|TKOF|TAKE\s*OFF|DEPS|FOR\s+DEP)\b/).test(clause);
      const isArr = (/\b(APPROACH|APPROACHES|APCH|APCHS|APPR|ARRIVAL|ARRIVALS|ARRIVING|LANDING|LDG|FOR\s+LANDING|FOR\s+ARRIVAL)\b/).test(clause);
      const inUse = (/\b(IN\s+USE|ACTIVE)\b/).test(clause);
      if (!isDep && !isArr && !inUse) continue;
      const ap = clause.match(/\b(ILS|RNAV|VOR|VISUAL|LOC|RNP|GPS)\b/);
      if (ap && !approachType) approachType = ap[1];
      for (const m of clause.matchAll(runwayInClauseRe)) {
        const normalized = m[1].replace(/\s*LEFT\b/g, "L").replace(/\s*RIGHT\b/g, "R").replace(/\s*(?:CENTER|CENTRE)\b/g, "C").split(/[,\s\/&]+|AND/).filter(Boolean);
        for (const d of normalized) {
          const mm = d.match(/^(\d{1,2})([LRC])?$/);
          if (!mm) continue;
          const num = parseInt(mm[1], 10);
          if (num < 1 || num > 36) continue;
          const norm = String(num).padStart(2, "0") + (mm[2] || "");
          if (isDep) deps.add(norm);
          if (isArr) arrs.add(norm);
          if (!isDep && !isArr && inUse) {
            deps.add(norm);
            arrs.add(norm);
          }
        }
      }
    }
    return {
      departures: Array.from(deps),
      arrivals: Array.from(arrs),
      approachType
    };
  };
  const windComponent = (windDirTrue, windSpeed, runwayBearingMag) => {
    if (windDirTrue == null || windSpeed == null) return null;
    const windDirMag = ((windDirTrue - magVarDeg) % 360 + 360) % 360;
    let angle = windDirMag - runwayBearingMag;
    while (angle > 180) angle -= 360;
    while (angle < -180) angle += 360;
    const rad = angle * Math.PI / 180;
    return {
      headwind: windSpeed * Math.cos(rad),
      crosswind: windSpeed * Math.sin(rad),
      relAngle: angle,
      speed: windSpeed
    };
  };
  const runwayEnds = [];
  runways.forEach(r => {
    const [d1, d2] = r.designators || [];
    const bearings = r.bearings || [];
    if (d1) {
      const b = bearings[0] != null ? bearings[0] : (parseInt(d1, 10) || 0) * 10;
      runwayEnds.push({
        designator: d1,
        bearing: b
      });
    }
    if (d2) {
      const b = bearings[1] != null ? bearings[1] : (parseInt(d2, 10) || 0) * 10;
      runwayEnds.push({
        designator: d2,
        bearing: b
      });
    }
  });
  const fetchAtis = async isUserRefresh => {
    try {
      if (isUserRefresh) setRefreshing(true); else setLoading(true);
      setError(null);
      const res = await fetch("https://data.vatsim.net/v3/vatsim-data.json", {
        cache: "no-store"
      });
      if (!res.ok) throw new Error("http");
      const json = await res.json();
      const all = Array.isArray(json.atis) ? json.atis : [];
      const re = new RegExp(`^${code}(?:_[AD])?_ATIS$`, "i");
      const matches = all.filter(a => re.test(a.callsign || "")).map(a => {
        const text = Array.isArray(a.text_atis) ? a.text_atis.join(" ") : "";
        const cs = (a.callsign || "").toUpperCase();
        const split = cs.includes("_A_ATIS") ? "arrival" : cs.includes("_D_ATIS") ? "departure" : null;
        return {
          callsign: a.callsign,
          atisCode: a.atis_code || "",
          frequency: a.frequency,
          text,
          lastUpdated: a.last_updated,
          split,
          ...parseEmbeddedMetar(text),
          ...parseRunwaysInUse(text)
        };
      });
      const merged = matches.reduce((acc, m) => {
        m.departures.forEach(r => acc.departures.add(r));
        m.arrivals.forEach(r => acc.arrivals.add(r));
        return acc;
      }, {
        departures: new Set(),
        arrivals: new Set()
      });
      setData({
        broadcasts: matches,
        departures: Array.from(merged.departures),
        arrivals: Array.from(merged.arrivals)
      });
    } catch (e) {
      setError("fetch");
    } finally {
      setLoading(false);
      if (isUserRefresh) {
        setTimeout(() => setRefreshing(false), 600);
      }
    }
  };
  useEffect(() => {
    if (!code) return;
    fetchAtis(false);
    const interval = setInterval(() => fetchAtis(false), 60 * 1000);
    return () => clearInterval(interval);
  }, [code]);
  useEffect(() => {
    if (!code) return;
    let cancelled = false;
    const fetchMetar = async () => {
      try {
        const res = await fetch(`https://metar.vatsim.net/${code}`, {
          cache: "no-store"
        });
        if (!res.ok) return;
        const text = (await res.text()).trim();
        if (cancelled || !text) return;
        const parsed = parseEmbeddedMetar(text);
        setMetarWind(parsed.wind || null);
      } catch (_) {}
    };
    fetchMetar();
    const interval = setInterval(fetchMetar, 5 * 60 * 1000);
    return () => {
      cancelled = true;
      clearInterval(interval);
    };
  }, [code]);
  useEffect(() => {
    const tick = setInterval(() => setNowTick(Date.now()), 30000);
    return () => clearInterval(tick);
  }, []);
  const primary = data?.broadcasts?.[0] || null;
  const wind = primary?.wind || metarWind || null;
  const altimeter = primary?.altimeter || null;
  const departures = data?.departures || [];
  const arrivals = data?.arrivals || [];
  const isOnline = data && data.broadcasts && data.broadcasts.length > 0;
  const mostRecentUpdate = isOnline ? data.broadcasts.map(b => b.lastUpdated).filter(Boolean).sort().pop() : null;
  const formatFreq = f => {
    if (!f) return "---.---";
    const n = parseFloat(f);
    if (Number.isNaN(n)) return f;
    return n.toFixed(3);
  };
  const formatWind = w => {
    if (!w) return "—";
    if (w.calm) return calmLabel;
    const dir = w.dir === "VRB" ? variableLabel : `${String(w.dir).padStart(3, "0")}°`;
    let s = `${fromLabel} ${dir} ${atLabel} ${w.speed} kt`;
    if (w.gust) s += `, ${gustingLabel} ${w.gust} kt`;
    return s;
  };
  const formatAltimeter = a => {
    if (!a) return "—";
    if (a.unit === "inHg") {
      return `${a.value.toFixed(2)} inHg · ${Math.round(a.value * 33.8639)} hPa`;
    }
    return `${a.value} hPa · ${(a.value / 33.8639).toFixed(2)} inHg`;
  };
  const ageLabel = iso => {
    if (!iso) return null;
    const t = Date.parse(iso);
    if (Number.isNaN(t)) return null;
    const diffMin = Math.max(0, Math.round((nowTick - t) / 60000));
    if (diffMin === 0) return justNowLabel;
    return `${diffMin} ${agoLabel}`;
  };
  const endsVm = runwayEnds.map(end => {
    const desig = end.designator.toUpperCase();
    const isDep = departures.includes(desig);
    const isArr = arrivals.includes(desig);
    const status = !isOnline ? "unknown" : isDep || isArr ? "active" : "not_used";
    let comp = null;
    if (wind && !wind.calm && typeof wind.dir === "number") {
      const speed = wind.gust || wind.speed;
      comp = windComponent(wind.dir, speed, end.bearing);
    }
    return {
      ...end,
      desig,
      isDep,
      isArr,
      status,
      comp
    };
  });
  const renderRunwayRow = (vm, index) => {
    const isUnknown = vm.status === "unknown";
    const isNotUsed = vm.status === "not_used";
    let windChips = null;
    if (vm.comp) {
      const speed = Math.round(vm.comp.speed);
      const hw = Math.round(vm.comp.headwind);
      const cw = Math.round(vm.comp.crosswind);
      const hwAbs = Math.abs(hw);
      const cwAbs = Math.abs(cw);
      let crossLevel = "green";
      if (cwAbs > 25) crossLevel = "red"; else if (cwAbs > 15) crossLevel = "amber";
      const longitudinalLevel = hw < 0 ? "red" : "green";
      const crossArrowPath = cw >= 0 ? "M10 6 H3 M6 3 L3 6 L6 9" : "M2 6 H9 M6 3 L9 6 L6 9";
      const longArrowPath = hw >= 0 ? "M6 2 V9 M3 6 L6 9 L9 6" : "M6 10 V3 M3 6 L6 3 L9 6";
      const cwSideLabel = cw >= 0 ? "from the right" : "from the left";
      const longTypeLabel = hw >= 0 ? "headwind" : "tailwind";
      const title = `RWY ${vm.desig} (bearing ${String(Math.round(vm.bearing)).padStart(3, "0")}°): ${cwAbs} kt crosswind ${cwSideLabel}, ${hwAbs} kt ${longTypeLabel}. Total wind ${speed} kt.`;
      windChips = <span className="kb-vatsim-atis-wind-chip" title={title}>
          <span className={`kb-vatsim-atis-wind-row kb-vatsim-atis-wind-row--${crossLevel}`}>
            <svg width="10" height="10" viewBox="0 0 12 12" aria-hidden="true">
              <path d={crossArrowPath} stroke="currentColor" strokeWidth="1.6" fill="none" strokeLinecap="round" strokeLinejoin="round" />
            </svg>
            <span>{cwAbs} kt</span>
          </span>
          <span className={`kb-vatsim-atis-wind-row kb-vatsim-atis-wind-row--${longitudinalLevel}`}>
            <svg width="10" height="10" viewBox="0 0 12 12" aria-hidden="true">
              <path d={longArrowPath} stroke="currentColor" strokeWidth="1.6" fill="none" strokeLinecap="round" strokeLinejoin="round" />
            </svg>
            <span>{hwAbs} kt</span>
          </span>
        </span>;
    }
    return <div key={`${vm.desig}-${index}`} className={`kb-vatsim-atis-rwy kb-vatsim-atis-rwy--${vm.status}`} style={{
      "--i": index
    }}>
        <div className="kb-vatsim-atis-rwy-label">
          <span className="kb-vatsim-atis-rwy-label-eyebrow">{runwayLabel}</span>
          <span className="kb-vatsim-atis-rwy-designator">{vm.desig}</span>
        </div>

        <div className="kb-vatsim-atis-rwy-wind">
          {windChips || <span className="kb-vatsim-atis-rwy-wind-empty">—</span>}
        </div>

        <div className="kb-vatsim-atis-rwy-usage">
          {isNotUsed ? <span className="kb-vatsim-atis-usage-pill kb-vatsim-atis-usage-pill--off">
              {notUsedLabel}
            </span> : isUnknown ? <span className="kb-vatsim-atis-usage-pill kb-vatsim-atis-usage-pill--off">—</span> : <span className="kb-vatsim-atis-usage-group">
              <span className={`kb-vatsim-atis-usage-pill${vm.isDep ? "" : " kb-vatsim-atis-usage-pill--dim"}`}>
                {depLabel}
              </span>
              <span className={`kb-vatsim-atis-usage-pill${vm.isArr ? "" : " kb-vatsim-atis-usage-pill--dim"}`}>
                {arrLabel}
              </span>
            </span>}
        </div>

        <div className="kb-vatsim-atis-rwy-bearing">
          <span className="kb-vatsim-atis-rwy-bearing-label">{bearingLabel}</span>
          <span className="kb-vatsim-atis-rwy-bearing-value">
            {String(Math.round(vm.bearing)).padStart(3, "0")}°
          </span>
        </div>
      </div>;
  };
  const renderBroadcast = (b, idx) => <div className="kb-vatsim-atis-broadcast" key={`b-${idx}`}>
      <div className="kb-vatsim-atis-broadcast-head">
        <div className="kb-vatsim-atis-info-letter" aria-label={`${infoLabel} ${b.atisCode || "—"}`}>
          {b.atisCode || "—"}
        </div>
        <div className="kb-vatsim-atis-broadcast-meta">
          <div className="kb-vatsim-atis-broadcast-callsign">
            {b.callsign}
            {b.split && <span className="kb-vatsim-atis-split-tag">
                {b.split === "arrival" ? arrivalsBroadcastLabel : departuresBroadcastLabel}
              </span>}
          </div>
          <div className="kb-vatsim-atis-broadcast-freq">
            <span className="kb-vatsim-atis-broadcast-freq-label">{frequencyLabel}</span>
            <span className="kb-vatsim-atis-broadcast-freq-value">{formatFreq(b.frequency)}</span>
          </div>
        </div>
      </div>

      {b.text && <div className="kb-vatsim-atis-transcript-wrap">
          <span className="kb-vatsim-atis-transcript-label">{transcriptLabel}</span>
          <pre className="kb-vatsim-atis-transcript">{b.text}</pre>
        </div>}
    </div>;
  return <div className="kb-vatsim-atis">
      <div className="kb-vatsim-atis-header">
        <span className="kb-vatsim-atis-eyebrow">
          <span className={`kb-vatsim-atis-dot${isOnline ? " kb-vatsim-atis-dot--on" : ""}`} aria-hidden="true" />
          {title}
        </span>
        <span className="kb-vatsim-atis-station">
          <span className="kb-vatsim-atis-station-icao">{code}</span>
          {name && <span className="kb-vatsim-atis-station-name">{name}</span>}
        </span>
      </div>

      {loading && <div className="kb-vatsim-atis-loading">
          <div className="kb-vatsim-atis-skeleton kb-vatsim-atis-skeleton--long" />
          <div className="kb-vatsim-atis-skeleton kb-vatsim-atis-skeleton--short" />
          <div className="kb-vatsim-atis-meta-status">{loadingLabel}</div>
        </div>}

      {!loading && error && <div className="kb-vatsim-atis-message">{errorLabel}</div>}

      {!loading && !error && !isOnline && <div className="kb-vatsim-atis-message">{offlineLabel}</div>}

      {!loading && !error && isOnline && <div className="kb-vatsim-atis-broadcasts">
          {data.broadcasts.map(renderBroadcast)}
        </div>}

      {!loading && !error && isOnline && (wind || altimeter || primary?.approachType) && <div className="kb-vatsim-atis-decoded">
          {wind && <div className="kb-vatsim-atis-stat">
              <span className="kb-vatsim-atis-stat-label">{windLabel}</span>
              <span className="kb-vatsim-atis-stat-value">
                {typeof wind.dir === "number" && <svg className="kb-vatsim-atis-wind-needle" width="11" height="11" viewBox="0 0 12 12" aria-hidden="true" style={{
    transform: `rotate(${wind.dir}deg)`
  }}>
                    <path d="M6 1.2 L9 7.2 L6 5.7 L3 7.2 Z" fill="currentColor" />
                    <line x1="6" y1="5.7" x2="6" y2="10.8" stroke="currentColor" strokeWidth="1.3" strokeLinecap="round" />
                  </svg>}
                {formatWind(wind)}
              </span>
            </div>}
          {altimeter && <div className="kb-vatsim-atis-stat">
              <span className="kb-vatsim-atis-stat-label">{altimeterLabel}</span>
              <span className="kb-vatsim-atis-stat-value">{formatAltimeter(altimeter)}</span>
            </div>}
          {primary?.approachType && <div className="kb-vatsim-atis-stat">
              <span className="kb-vatsim-atis-stat-label">{approachLabel}</span>
              <span className="kb-vatsim-atis-stat-value">{primary.approachType}</span>
            </div>}
        </div>}

      {endsVm.length > 0 && <div className="kb-vatsim-atis-runways-section">
          <div className="kb-vatsim-atis-runways-head">
            <span className="kb-vatsim-atis-runways-eyebrow">{runwaysInUseLabel}</span>
            {magneticVariation && <span className="kb-vatsim-atis-magvar">MAG VAR {magneticVariation}</span>}
          </div>
          <div className="kb-vatsim-atis-runways">{endsVm.map(renderRunwayRow)}</div>
        </div>}

      <div className="kb-vatsim-atis-meta">
        {mostRecentUpdate && <span className="kb-vatsim-atis-meta-time">
            {observedLabel} {ageLabel(mostRecentUpdate)}
          </span>}
        <button type="button" className={"kb-vatsim-atis-refresh" + (refreshing ? " refreshing" : "")} onClick={() => fetchAtis(true)} aria-label={refreshLabel} title={refreshLabel}>
          <svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" strokeWidth="2" strokeLinecap="round" strokeLinejoin="round" aria-hidden="true">
            <path d="M3 12a9 9 0 0 1 9-9 9.75 9.75 0 0 1 6.74 2.74L21 8" />
            <path d="M21 3v5h-5" />
            <path d="M21 12a9 9 0 0 1-9 9 9.75 9.75 0 0 1-6.74-2.74L3 16" />
            <path d="M3 21v-5h5" />
          </svg>
        </button>
      </div>
    </div>;
};

export const LiveMetar = ({icao, name, decoderUrl, loadingLabel = "Fetching latest observation", errorLabel = "Unable to fetch live METAR. Try the visual decoder.", refreshLabel = "Refresh", decoderLabel = "Metar & Taf Visual decoder", observedLabel = "Observed", agoLabel = "min ago", justNowLabel = "just now", windLabel = "Wind", visibilityLabel = "Visibility", weatherLabel = "Weather", cloudsLabel = "Clouds", tempDewLabel = "Temp · Dew", altimeterLabel = "Altimeter", calmLabel = "Calm", variableLabel = "Variable", gustingLabel = "gusting", fromLabel = "from", atLabel = "at"}) => {
  const code = (icao || "").toUpperCase();
  const [raw, setRaw] = useState(null);
  const [loading, setLoading] = useState(true);
  const [error, setError] = useState(null);
  const [refreshing, setRefreshing] = useState(false);
  const [nowTick, setNowTick] = useState(Date.now());
  const WX_CODES = {
    MI: "shallow",
    PR: "partial",
    BC: "patches",
    DR: "drifting",
    BL: "blowing",
    SH: "showers",
    TS: "thunderstorm",
    FZ: "freezing",
    DZ: "drizzle",
    RA: "rain",
    SN: "snow",
    SG: "snow grains",
    IC: "ice crystals",
    PL: "ice pellets",
    GR: "hail",
    GS: "small hail",
    UP: "unknown precip",
    BR: "mist",
    FG: "fog",
    FU: "smoke",
    VA: "volcanic ash",
    DU: "dust",
    SA: "sand",
    HZ: "haze",
    PY: "spray",
    PO: "dust whirls",
    SQ: "squalls",
    FC: "funnel cloud",
    SS: "sandstorm",
    DS: "duststorm"
  };
  const CLOUD_LABELS = {
    FEW: "Few",
    SCT: "Scattered",
    BKN: "Broken",
    OVC: "Overcast",
    CLR: "Clear",
    SKC: "Sky clear",
    NCD: "No clouds",
    NSC: "No significant clouds",
    VV: "Vertical visibility"
  };
  const parseMetar = input => {
    if (!input || typeof input !== "string") return null;
    const beforeRmk = input.split(/\s+RMK\b/)[0].trim();
    if (beforeRmk.length < 10) return null;
    const tokens = beforeRmk.split(/\s+/);
    let i = 0;
    if (tokens[i] === "METAR" || tokens[i] === "SPECI") i++;
    let station = null;
    if ((/^[A-Z]{4}$/).test(tokens[i] || "")) station = tokens[i++];
    let time = null;
    const tm = (tokens[i] || "").match(/^(\d{2})(\d{2})(\d{2})Z$/);
    if (tm) {
      time = {
        day: +tm[1],
        hour: +tm[2],
        minute: +tm[3]
      };
      i++;
    }
    while (tokens[i] === "AUTO" || tokens[i] === "COR" || tokens[i] === "NIL") i++;
    let wind = null;
    const wt = tokens[i] || "";
    if ((/^00000(KT|MPS|KMH)$/).test(wt)) {
      wind = {
        calm: true
      };
      i++;
    } else {
      const wm = wt.match(/^(VRB|\d{3})(\d{2,3})(?:G(\d{2,3}))?(KT|MPS|KMH)$/);
      if (wm) {
        wind = {
          dir: wm[1] === "VRB" ? "VRB" : +wm[1],
          speed: +wm[2],
          gust: wm[3] ? +wm[3] : null,
          unit: wm[4]
        };
        i++;
        if ((/^\d{3}V\d{3}$/).test(tokens[i] || "")) i++;
      }
    }
    let visibility = null;
    if (tokens[i] === "CAVOK") {
      visibility = {
        cavok: true
      };
      i++;
    } else if ((/^\d{4}$/).test(tokens[i] || "")) {
      visibility = {
        value: +tokens[i],
        unit: "m"
      };
      i++;
    } else if ((/^\d+$/).test(tokens[i] || "") && (/^\d+\/\d+SM$/).test(tokens[i + 1] || "")) {
      const whole = +tokens[i];
      const fm = tokens[i + 1].match(/^(\d+)\/(\d+)SM$/);
      visibility = {
        value: whole + +fm[1] / +fm[2],
        unit: "SM"
      };
      i += 2;
    } else {
      const sm = (tokens[i] || "").match(/^(M)?(\d+(?:\/\d+)?)SM$/);
      if (sm) {
        const v = sm[2].includes("/") ? +sm[2].split("/")[0] / +sm[2].split("/")[1] : +sm[2];
        visibility = {
          value: v,
          unit: "SM",
          lessThan: !!sm[1]
        };
        i++;
      }
    }
    const weather = [];
    const wxRe = /^(VC|\+|-)?((?:MI|PR|BC|DR|BL|SH|TS|FZ){0,2})((?:DZ|RA|SN|SG|IC|PL|GR|GS|UP|BR|FG|FU|VA|DU|SA|HZ|PY|PO|SQ|FC|SS|DS)+)$/;
    while (i < tokens.length && wxRe.test(tokens[i])) {
      weather.push(tokens[i]);
      i++;
    }
    const clouds = [];
    while (i < tokens.length) {
      const t = tokens[i];
      if (t === "CLR" || t === "SKC" || t === "NCD" || t === "NSC") {
        clouds.push({
          cover: t,
          base: null
        });
        i++;
      } else {
        const cm = t.match(/^(FEW|SCT|BKN|OVC)(\d{3})(CB|TCU)?$/);
        if (cm) {
          clouds.push({
            cover: cm[1],
            base: +cm[2] * 100,
            type: cm[3] || null
          });
          i++;
          continue;
        }
        const vvm = t.match(/^VV(\d{3}|\/\/\/)$/);
        if (vvm) {
          clouds.push({
            cover: "VV",
            base: vvm[1] === "///" ? null : +vvm[1] * 100
          });
          i++;
          continue;
        }
        break;
      }
    }
    let temp = null;
    let dewpoint = null;
    const td = (tokens[i] || "").match(/^(M)?(\d{2})\/(M)?(\d{2})$/);
    if (td) {
      temp = (td[1] ? -1 : 1) * +td[2];
      dewpoint = (td[3] ? -1 : 1) * +td[4];
      i++;
    }
    let altimeter = null;
    const altA = (tokens[i] || "").match(/^A(\d{4})$/);
    const altQ = (tokens[i] || "").match(/^Q(\d{4})$/);
    if (altA) {
      altimeter = {
        value: +altA[1] / 100,
        unit: "inHg"
      };
      i++;
    } else if (altQ) {
      altimeter = {
        value: +altQ[1],
        unit: "hPa"
      };
      i++;
    }
    const ceilingLayer = clouds.find(c => c.cover === "BKN" || c.cover === "OVC");
    const ceiling = ceilingLayer ? ceilingLayer.base : null;
    let visSM = Infinity;
    if (visibility?.cavok) visSM = 10; else if (visibility?.unit === "SM") visSM = visibility.value; else if (visibility?.unit === "m") visSM = visibility.value / 1609;
    let flightCategory = "VFR";
    if (ceiling !== null && ceiling < 500 || visSM < 1) flightCategory = "LIFR"; else if (ceiling !== null && ceiling < 1000 || visSM < 3) flightCategory = "IFR"; else if (ceiling !== null && ceiling < 3000 || visSM <= 5) flightCategory = "MVFR";
    return {
      station,
      time,
      wind,
      visibility,
      weather,
      clouds,
      temp,
      dewpoint,
      altimeter,
      flightCategory,
      raw: input
    };
  };
  const formatWind = w => {
    if (w.calm) return calmLabel;
    const dir = w.dir === "VRB" ? variableLabel : `${String(w.dir).padStart(3, "0")}°`;
    let s = `${fromLabel} ${dir} ${atLabel} ${w.speed} kt`;
    if (w.gust) s += `, ${gustingLabel} ${w.gust} kt`;
    return s;
  };
  const formatVisibility = v => {
    if (v.cavok) return "CAVOK";
    if (v.unit === "SM") {
      const prefix = v.lessThan ? "<" : "";
      const val = Number.isInteger(v.value) ? v.value : v.value.toFixed(1);
      return `${prefix}${val} SM`;
    }
    if (v.unit === "m") {
      if (v.value >= 9999) return "≥10 km";
      if (v.value >= 1000) return `${(v.value / 1000).toFixed(1)} km`;
      return `${v.value} m`;
    }
    return "";
  };
  const formatWeather = wxList => {
    return wxList.map(tok => {
      let intensity = "";
      let rest = tok;
      if (rest.startsWith("+")) {
        intensity = "Heavy ";
        rest = rest.slice(1);
      } else if (rest.startsWith("-")) {
        intensity = "Light ";
        rest = rest.slice(1);
      } else if (rest.startsWith("VC")) {
        intensity = "Vicinity ";
        rest = rest.slice(2);
      }
      const parts = [];
      for (let p = 0; p < rest.length; p += 2) {
        const w = WX_CODES[rest.substr(p, 2)];
        if (w) parts.push(w);
      }
      const phrase = (intensity + parts.join(" ")).trim();
      return phrase.charAt(0).toUpperCase() + phrase.slice(1);
    }).join(", ");
  };
  const formatClouds = cs => {
    return cs.map(c => {
      const lbl = CLOUD_LABELS[c.cover] || c.cover;
      if (c.base == null) return lbl;
      const ft = c.base.toLocaleString("en-US");
      const type = c.type === "CB" ? " (CB)" : c.type === "TCU" ? " (TCU)" : "";
      return `${lbl} ${ft} ft${type}`;
    }).join(", ");
  };
  const formatTempDew = (t, d) => {
    if (t == null) return null;
    const toF = c => Math.round(c * 9 / 5 + 32);
    let s = `${t}°C / ${toF(t)}°F`;
    if (d != null) s += ` · ${d}°C / ${toF(d)}°F`;
    return s;
  };
  const formatAltimeter = a => {
    if (a.unit === "inHg") {
      return `${a.value.toFixed(2)} inHg · ${Math.round(a.value * 33.8639)} hPa`;
    }
    return `${a.value} hPa · ${(a.value / 33.8639).toFixed(2)} inHg`;
  };
  const fetchMetar = async isUserRefresh => {
    try {
      if (isUserRefresh) setRefreshing(true); else setLoading(true);
      setError(null);
      const res = await fetch(`https://metar.vatsim.net/${code}`, {
        cache: "no-store"
      });
      if (!res.ok) throw new Error("http");
      const text = (await res.text()).trim();
      if (!text || !(/[A-Z]{4}\s+\d{6}Z/).test(text)) {
        setRaw(null);
        setError("nodata");
      } else {
        setRaw(text);
      }
    } catch (e) {
      setError("fetch");
    } finally {
      setLoading(false);
      if (isUserRefresh) {
        setTimeout(() => setRefreshing(false), 600);
      }
    }
  };
  useEffect(() => {
    if (!code) return;
    fetchMetar(false);
    const interval = setInterval(() => fetchMetar(false), 5 * 60 * 1000);
    return () => clearInterval(interval);
  }, [code]);
  useEffect(() => {
    const tick = setInterval(() => setNowTick(Date.now()), 30000);
    return () => clearInterval(tick);
  }, []);
  const metar = raw ? parseMetar(raw) : null;
  const decoder = decoderUrl || `https://metar-taf.com/${code}`;
  const windDeg = typeof metar?.wind?.dir === "number" ? metar.wind.dir : null;
  let obsLabel = null;
  if (metar?.time) {
    const now = new Date();
    let year = now.getUTCFullYear();
    let month = now.getUTCMonth();
    if (metar.time.day > now.getUTCDate()) {
      month -= 1;
      if (month < 0) {
        month = 11;
        year -= 1;
      }
    }
    const obs = new Date(Date.UTC(year, month, metar.time.day, metar.time.hour, metar.time.minute));
    if (!isNaN(obs)) {
      const hh = String(obs.getUTCHours()).padStart(2, "0");
      const mm = String(obs.getUTCMinutes()).padStart(2, "0");
      const diffMin = Math.max(0, Math.round((nowTick - obs.getTime()) / 60000));
      obsLabel = `${observedLabel} ${hh}${mm}Z · ${diffMin === 0 ? justNowLabel : `${diffMin} ${agoLabel}`}`;
    }
  }
  return <div className="kb-metar">
      <div className="kb-metar-header">
        <span className="kb-metar-eyebrow">Weather</span>
        <a className="kb-metar-decoder-link" href={decoder} target="_blank" rel="noopener noreferrer">
          {decoderLabel}
          <svg className="kb-metar-decoder-arrow" width="12" height="12" viewBox="0 0 24 24" fill="none" stroke="currentColor" strokeWidth="2" strokeLinecap="round" strokeLinejoin="round" aria-hidden="true">
            <path d="M7 7h10v10" />
            <path d="M7 17 17 7" />
          </svg>
        </a>
      </div>

      <div className="kb-metar-body">
        <div className="kb-metar-icon" aria-hidden="true">
          <svg viewBox="0 0 24 24" width="22" height="22" fill="none" stroke="currentColor" strokeWidth="2" strokeLinecap="round" strokeLinejoin="round">
            <path d="M17.7 7.7a2.5 2.5 0 1 1 1.8 4.3H2" />
            <path d="M9.6 4.6A2 2 0 1 1 11 8H2" />
            <path d="M12.6 19.4A2 2 0 1 0 14 16H2" />
          </svg>
        </div>

        <div className="kb-metar-content">
          <div className="kb-metar-title">
            <span className="kb-metar-icao">{code}</span>
            {name ? <span className="kb-metar-name">{name}</span> : null}
            {metar?.flightCategory && <span className={`kb-metar-cat kb-metar-cat--${metar.flightCategory.toLowerCase()}`}>
                {metar.flightCategory}
              </span>}
          </div>

          {loading && <>
              <div className="kb-metar-skeleton kb-metar-skeleton--long" />
              <div className="kb-metar-skeleton kb-metar-skeleton--short" />
              <div className="kb-metar-meta">
                <span className="kb-metar-meta-status">{loadingLabel}</span>
              </div>
            </>}

          {!loading && error && <div className="kb-metar-error">{errorLabel}</div>}

          {!loading && !error && metar && <>
              <pre className="kb-metar-raw">{metar.raw}</pre>
              <div className="kb-metar-decoded">
                {metar.wind && <div className="kb-metar-stat">
                    <span className="kb-metar-stat-label">{windLabel}</span>
                    <span className="kb-metar-stat-value">
                      {windDeg !== null && <svg className="kb-metar-wind-arrow" width="12" height="12" viewBox="0 0 24 24" fill="currentColor" stroke="currentColor" strokeWidth="2" strokeLinecap="round" strokeLinejoin="round" aria-hidden="true" style={{
    transform: `rotate(${windDeg}deg)`
  }}>
                          <polygon points="12 2 19 21 12 17 5 21 12 2" />
                        </svg>}
                      {formatWind(metar.wind)}
                    </span>
                  </div>}
                {metar.visibility && <div className="kb-metar-stat">
                    <span className="kb-metar-stat-label">{visibilityLabel}</span>
                    <span className="kb-metar-stat-value">{formatVisibility(metar.visibility)}</span>
                  </div>}
                {metar.weather.length > 0 && <div className="kb-metar-stat">
                    <span className="kb-metar-stat-label">{weatherLabel}</span>
                    <span className="kb-metar-stat-value">{formatWeather(metar.weather)}</span>
                  </div>}
                {metar.clouds.length > 0 && <div className="kb-metar-stat">
                    <span className="kb-metar-stat-label">{cloudsLabel}</span>
                    <span className="kb-metar-stat-value">{formatClouds(metar.clouds)}</span>
                  </div>}
                {metar.temp != null && <div className="kb-metar-stat">
                    <span className="kb-metar-stat-label">{tempDewLabel}</span>
                    <span className="kb-metar-stat-value">{formatTempDew(metar.temp, metar.dewpoint)}</span>
                  </div>}
                {metar.altimeter && <div className="kb-metar-stat">
                    <span className="kb-metar-stat-label">{altimeterLabel}</span>
                    <span className="kb-metar-stat-value">{formatAltimeter(metar.altimeter)}</span>
                  </div>}
              </div>
              <div className="kb-metar-meta">
                {obsLabel && <span className="kb-metar-meta-time">{obsLabel}</span>}
                <button type="button" className={"kb-metar-refresh" + (refreshing ? " refreshing" : "")} onClick={() => fetchMetar(true)} aria-label={refreshLabel} title={refreshLabel}>
                  <svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" strokeWidth="2" strokeLinecap="round" strokeLinejoin="round" aria-hidden="true">
                    <path d="M3 12a9 9 0 0 1 9-9 9.75 9.75 0 0 1 6.74 2.74L21 8" />
                    <path d="M21 3v5h-5" />
                    <path d="M21 12a9 9 0 0 1-9 9 9.75 9.75 0 0 1-6.74-2.74L3 16" />
                    <path d="M3 21v-5h5" />
                  </svg>
                </button>
              </div>
            </>}
        </div>
      </div>
    </div>;
};

<Info>Pour usage en simulation de vol uniquement - Ne **PAS** utiliser pour le vol réel</Info>

L'aéroport international Macdonald-Cartier d'Ottawa dessert la région de la capitale nationale (Ottawa, Ontario et Gatineau, Québec) et est le plus achalandé de l'est de l'Ontario. Le terrain possède deux pistes jet sécantes (14/32 et 07/25), avec une piste séparée pour l'aviation générale (04/22) sur le terrain nord. L'ATIS est diffusé en anglais et en français, et la proximité de l'espace aérien restreint au-dessus de la Colline du Parlement et du centre-ville d'Ottawa signifie que les cheminements VFR sont bien définis et strictement appliqués. Air Canada exploite un service grandes lignes et Express quotidien tout au long de la journée, avec des pointes en début de matinée et en fin d'après-midi.

## ATIS

<VatsimAtis
  icao="CYOW"
  name="Ottawa Macdonald-Cartier"
  magneticVariation="14°W"
  title="ATIS VATSIM"
  loadingLabel="Réception de la diffusion"
  offlineLabel="Aucune ATIS VATSIM en direct pour cet aéroport présentement"
  errorLabel="Impossible de joindre le flux de données VATSIM"
  refreshLabel="Rafraîchir"
  frequencyLabel="Fréquence"
  observedLabel="Mis à jour"
  agoLabel="min"
  justNowLabel="à l'instant"
  transcriptLabel="Transcription"
  runwaysInUseLabel="Pistes en service"
  notUsedLabel="Inactive"
  bearingLabel="Cap"
  runwayLabel="Piste"
  runways={[
{ designators: ["07", "25"] },
{ designators: ["14", "32"] }
]}
/>

## Météo en direct

<LiveMetar icao="CYOW" name="Ottawa Macdonald-Cartier" loadingLabel="Téléchargement de la dernière observation" errorLabel="Impossible de récupérer le METAR en direct. Essayez le décodeur visuel." refreshLabel="Rafraîchir" decoderLabel="Décodeur visuel Metar & Taf" observedLabel="Observé" agoLabel="min" justNowLabel="à l'instant" />

## Cartes de réseaux ATC en ligne

<NetworkLinks icao="CYOW" title="Cartes de réseaux ATC en ligne" />

## Pistes

<Runways
  title="Pistes"
  magneticVariation="14°W"
  labels={{
length: "Longueur",
width: "Largeur",
surface: "Surface",
lighting: "Éclairage",
noIls: "Aucun",
ilsPrefix: "ILS",
magvar: "Déclinaison magnétique"
}}
  runways={[
{
  designators: ["07", "25"],
  length_ft: 8000,
  length_m: 2438,
  width_ft: 200,
  surface: "Asphalte rainurée",
  ils: { "07": "CAT I", "25": "CAT I" },
  lighting: "HIRL, CL",
  notes: "Piste jet secondaire. Piste à composante traversière pour le trafic 14/32."
},
{
  designators: ["14", "32"],
  length_ft: 10005,
  length_m: 3050,
  width_ft: 200,
  surface: "Asphalte rainurée",
  ils: { "14": "CAT I", "32": "CAT I" },
  lighting: "HIRL, CL",
  notes: "Piste jet principale. La plupart des départs et arrivées utilisent cette piste."
},
{
  designators: ["04", "22"],
  length_ft: 3300,
  length_m: 1006,
  width_ft: 75,
  surface: "Asphalte",
  ils: { },
  lighting: "MIRL",
  notes: "Aviation générale seulement, sur le terrain nord. Non utilisée par les opérations Air Canada."
}
]}
/>

## Fréquences ATC

<AtcFrequencies
  title="Fréquences ATC"
  frequencies={[
{ role: "ATIS", freqs: [
  { value: "121.15", note: "anglais" },
  { value: "132.95", note: "français" }
]},
{ role: "Sol", freqs: ["121.90"] },
{ role: "Tour", freqs: [
  { value: "118.80", note: "VFR Sud" },
  { value: "120.10", note: "VFR Nord" }
]},
{ role: "Départ", subLabel: "Ottawa Terminal", freqs: ["128.175"] },
{ role: "Arrivée", subLabel: "Ottawa Terminal", freqs: ["135.15"] },
{ role: "Terminal", freqs: ["127.70"] }
]}
/>

Clearance Delivery n'est pas publié séparément. Demandez votre clairance IFR auprès du Sol.

## Portes d'embarquement

<Gates
  title="Portes d'embarquement"
  terminal="Aérogare unique, deux halls"
  labels={{
range: "Plage",
operators: "Exploitants",
aircraft: "Appareils"
}}
  sections={[
{
  type: "transborder",
  label: "Transfrontalier É.-U.",
  range: "Portes 1-6, 11, 12",
  gates: ["1-6", "11", "12"],
  operators: ["Air Canada Mainline", "Air Canada Express"],
  aircraft: ["A220", "A319/A320", "E175", "CRJ-700/900"],
  notes: "Zone de précontrôle douanier É.-U. Tenue à l'écart du reste des départs avec un flot d'embarquement distinct."
},
{
  type: "domestic",
  label: "Intérieur / International",
  range: "Portes 13-28 (polyvalentes)",
  gates: ["13-19 (AC principal)", "20-28"],
  operators: ["Air Canada Mainline", "Air Canada Express"],
  aircraft: ["A220", "A319/A320", "E175", "Q400", "B737"],
  notes: "Les vols intérieurs et internationaux sont interchangeables sur ces portes. Les opérations Air Canada se concentrent sur les portes 14-19."
},
{
  type: "remote",
  label: "Stands isolés / Embarquement au sol",
  range: "Aire II",
  operators: ["Air Canada Express"],
  aircraft: ["Q400", "CRJ-200/900"],
  notes: "Les petits turbopropulseurs et jets régionaux peuvent être assignés à des postes au large pendant les fortes vagues. Transfert par autobus."
}
]}
/>

## Aperçu de l'aéroport

| Élément                | Valeur                             |
| ---------------------- | ---------------------------------- |
| ICAO / IATA            | CYOW / YOW                         |
| Ville                  | Ottawa, Ontario / Gatineau, Québec |
| Altitude du terrain    | 374 ft (114 m)                     |
| Déclinaison magnétique | 14°W                               |
| Fuseau horaire         | America/Toronto (HNE / HAE)        |
| Rôle pour Air Canada   | Service vers la capitale nationale |

## Cartes

<ChartsLinks icao="CYOW" title="Cartes" freeLabel="Gratuit" />

## Procédures courantes

* **Sélection de piste** : 14/32 est la piste jet principale. 07/25 est utilisée par fortes composantes traversières ou lorsque 14/32 est fermée pour entretien.
* **Opérations bilingues** : L'ATC accepte l'anglais ou le français. Les deux diffusions ATIS (121.15 en anglais, 132.95 en français) portent la même information.
* **Pas d'opérations parallèles** : Avec seulement deux pistes jet sécantes, les départs et arrivées sont séquencés plutôt qu'indépendants. Attendez-vous à de courts délais durant les pointes du matin et du soir.
* **Espace aérien restreint** : La cité parlementaire et plusieurs édifices fédéraux du centre-ville d'Ottawa sont entourés d'un espace CYR (restreint) permanent. Confirmez les limites actives dans la trousse NOTAM. Les cheminements VFR autour de la ville sont strictement définis.
* **Terrain plus petit, roulage rapide** : Comparé aux grandes plaques tournantes, le roulage entre la rampe et la piste à YOW est court. Planifiez votre liste de vérification avant décollage en conséquence et ne précipitez rien.

## Points chauds et dangers locaux

* **Intersection de 14/32 et 07/25** : Les quatre extrémités de piste convergent près du milieu du terrain. Des autorisations de traversée sont émises fréquemment et requièrent un collationnement précis. Appliquez la [règle Arrêtez et vérifiez](/fr/aops/standard-procedures/taxi-operations) à chaque maintien à l'écart de piste.
* **Faune** : Les champs entourant l'aéroport hébergent d'importantes populations de cerfs et de sauvagine. La tour diffuse régulièrement des avertissements de faune.
* **Trafic VFR d'hélicoptères** : Les opérations gouvernementales et corporatives d'hélicoptères traversent le secteur régulièrement. Restez attentif sur la fréquence Tour.
* **Opérations hivernales** : Ottawa enregistre certains des plus grands totaux saisonniers de neige parmi les capitales canadiennes. Attendez-vous à des files d'attente de dégivrage prolongées durant les événements neigeux et à des changements de piste possibles selon la disponibilité de pistes dégagées.
* **Postes éloignés limités** : Si vous pilotez un appareil plus petit comme Air Canada Express, vous pourriez recevoir un poste éloigné nécessitant une navette vers l'aérogare. Coordonnez les signaux de rampe attentivement.

<Card title="Suivant : Québec (CYQB)" icon="plane" href="/fr/aops/airports/quebec-city">
  Poursuivez vers l'aperçu de Québec
</Card>
