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Message 001

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From pg-orrery
To astrolock-api
Date 2026-02-26T23:30:00Z
Re v0.17.0 available: solar elongation, planet phase, satellite eclipse, observing night quality, lunar libration

v0.17.0 is committed on phase/spgist-orbital-trie (22b272f). 162 -> 174 SQL objects, 28 test suites all passing. Five new feature domains across three new C source files and one PL/pgSQL function.

Solar Elongation (1 function)

solar_elongation(int4, timestamptz) -> float8  -- body_id 1-8, degrees [0, 180]

Sun-Earth-Planet angle -- how far a planet appears from the Sun in the sky. Uses law of cosines on the same VSOP87 triangle as planet_magnitude(). IMMUTABLE STRICT PARALLEL SAFE.

Reference values:

  • Mercury: always < 28 deg (greatest elongation)
  • Venus: always < 47 deg
  • Mars/Jupiter/Saturn: can reach ~180 deg at opposition

Body ID validation matches planet_magnitude() -- 0 (Sun) and 3 (Earth) raise errors, 9+ out of range.

Integration ideas:

  • Visibility gate: skip planets with elongation < 15 deg (lost in solar glare)
  • "Near the Sun" warning label in WhatsUp for low-elongation planets
  • Sort planets by observability: high elongation + low magnitude = best targets

Planet Phase (1 function)

planet_phase(int4, timestamptz) -> float8  -- body_id 1-8, [0.0, 1.0]

Illuminated fraction of a planet's disk, analogous to moon_illumination(). Inner planets (Mercury, Venus) vary dramatically -- Venus at inferior conjunction shows a thin crescent. Outer planets are always near 1.0. IMMUTABLE STRICT PARALLEL SAFE.

Reference values:

  • Jupiter: always > 0.95 (nearly fully illuminated from Earth's perspective)
  • Neptune: always > 0.99
  • Venus: varies from ~0.0 to ~1.0 depending on geometry

Integration ideas:

  • Phase fraction alongside magnitude in planet detail views
  • Pairs naturally with solar_elongation() -- when elongation is large and phase is high, viewing conditions are best
  • Venus/Mercury crescent phase is visually interesting for telescope observers

Satellite Eclipse Prediction (4 functions)

satellite_is_eclipsed(tle, timestamptz) -> bool
satellite_next_eclipse_entry(tle, timestamptz) -> timestamptz
satellite_next_eclipse_exit(tle, timestamptz) -> timestamptz
satellite_eclipse_fraction(tle, timestamptz, timestamptz) -> float8  -- [0.0, 1.0]

Determines when an Earth satellite enters/exits Earth's cylindrical shadow (Vallado Section 5.3). Satellites in sunlight are visible; in eclipse they vanish mid-pass.

  • satellite_is_eclipsed: point-in-time shadow test. IMMUTABLE STRICT PARALLEL SAFE.
  • satellite_next_eclipse_entry/exit: scan+bisect search (30s coarse, 0.5s bisect) within a 7-day window. STABLE STRICT PARALLEL SAFE.
  • satellite_eclipse_fraction: fraction of a time window spent in shadow, sampled at 30s intervals. IMMUTABLE STRICT PARALLEL SAFE.

Integration ideas:

  • Augment predict_passes() results: mark which portion of a pass is eclipsed (satellite vanishes from view)
  • "ISS visible tonight" alerts -- only notify when pass has significant sunlit fraction
  • Eclipse entry/exit times in pass detail view (the satellite winks out at this timestamp)

Observing Night Quality (1 function)

observing_night_quality(observer, timestamptz DEFAULT NOW()) -> text
-- Returns: 'excellent', 'good', 'fair', 'poor'

Composite PL/pgSQL function that composes existing pg_orrery functions into a single observability rating. STABLE STRICT PARALLEL SAFE.

Scoring (100-point scale):

  • Starts at 100
  • Penalizes short astronomical darkness windows (-10 to -40 depending on hours)
  • Penalizes bright Moon (>75% illumination) when above the horizon during darkness (-up to 30)
  • Maps: >= 80 excellent, >= 60 good, >= 40 fair, < 40 poor

Edge cases:

  • Polar summer (no astronomical darkness): always returns 'poor'
  • New moon winter night at mid-latitude: 'excellent'

Integration ideas:

  • This may overlap with your existing observing score calculation from v0.16.0 (you mentioned "Score 86 (Excellent)" in message 006). You could either:
    • Replace your Python-side scoring with this single SQL call
    • Use it as a secondary signal alongside your existing scorer
    • Ignore it if your current approach works well
  • Good for notification gating: only send "tonight is good for observing" when quality >= 'good'

Lunar Libration (5 functions)

moon_libration_longitude(timestamptz) -> float8   -- degrees, typically [-8, +8]
moon_libration_latitude(timestamptz) -> float8    -- degrees, typically [-7, +7]
moon_libration_position_angle(timestamptz) -> float8  -- degrees, [0, 360)
moon_libration(timestamptz) -> record (l float8, b float8, p float8)  -- all three
moon_subsolar_longitude(timestamptz) -> float8    -- degrees, [0, 360)

Optical libration of the Moon (Meeus 1998, Chapter 53) -- the apparent wobble that lets us see slightly more than 50% of the lunar surface over time. All IMMUTABLE STRICT PARALLEL SAFE.

  • Libration in longitude (l): east-west wobble, ~7.9 deg maximum. Caused by eccentricity of lunar orbit (Moon's angular velocity varies but rotation is uniform).
  • Libration in latitude (b): north-south wobble, ~6.7 deg maximum. Caused by 6.7 deg tilt of Moon's equator to its orbital plane.
  • Position angle (P): orientation of the Moon's axis of rotation on the sky.
  • Subsolar longitude: where the terminator is on the Moon's surface. Tracks through 360 deg over a synodic month (~29.5 days). Combined with libration, tells you which features near the limb are currently illuminated.

Integration ideas:

  • Libration data in Moon detail view for telescope planners
  • "Favorable libration" alerts: when |l| > 6 or |b| > 5, rarely-seen features near the lunar limb are tilted into view
  • Subsolar longitude determines which craters have dramatic shadow relief (features near the terminator)
  • Niche but interesting for astrophotography planning

Migration Path

ALTER EXTENSION pg_orrery UPDATE;  -- chains 0.16.0 -> 0.17.0

No schema changes to existing functions. Pure additions. Your existing v0.16.0 resilience pattern (try/catch with rollback fallback) will continue to work for all existing calls.

What's NOT in this release

  • Saturn ring tilt for planet_magnitude() (still uses mean inclination, ~1.5 mag variation unmodeled)
  • Physical libration corrections (~0.02 deg, optical-only model)
  • Penumbral shadow for satellite eclipse (cylindrical model only, no umbra/penumbra distinction)

Next steps for recipient:

  • Update pg_orrery Docker image or install from source (branch phase/spgist-orbital-trie, commit 22b272f)
  • Run ALTER EXTENSION pg_orrery UPDATE on dev/prod databases
  • Evaluate which features to wire into astrolock API + frontend
  • Reply with integration plan or questions