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feat(tahuantinsuyu): fase 5 — overlay de tránsitos (bi-wheel natal × ahora)

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Activá el toggle "Tránsitos (ahora)" en el panel (o hotkey [T] sobre
el wheel): la engine computa una segunda NatalChart al instante
SystemTime::now() con el mismo observer y dibuja un anillo externo de
planet glyphs encima del natal, más las cross-aspects entre ambos
charts (sólo mayores). Las líneas cross van del ring de cuerpos
natales al ring externo de tránsitos, con stroke más fino y opacidad
más baja para no taparle el ojo a las aspectos natal-natal.

- engine/bridge.rs: extraídas build_eternal_inputs y
  compute_natal_chart como helpers reutilizables. Nueva
  compute_with_transits(chart, offset, transit_at) que llama
  find_synastry_aspects entre natal y transit (AspectKind::MAJORS).
  Atajo compute_with_transits_at_now usa ESInstant::now(). Las capas
  extra van con module_id = "transit" y LayerKind::Outer /
  LayerKind::Aspects para que el canvas las distinga.
- engine/lib.rs: re-export de compute_with_transits_at_now con el
  mismo fallback al mock cuando feature `eternal-bridge` está off.
- canvas: nueva Radii::transits = 0.82, layout del wheel re-balanceado
  (houses_outer 0.78, houses_inner 0.66, bodies 0.58, aspects 0.50)
  para hacer lugar al anillo externo sin colisiones. paint_wheel:
  detecta layers de transit por module_id, pinta dots + glifos en el
  anillo nuevo + anillos guía sutiles. paint_cross_aspect_line con
  stroke 0.7 entre los dos radios. Glyph overlay para Outer ring con
  alpha 0.9 y font_size más chico que el natal. Hotkey [T] en
  on_key_down toggle LayerKind::Outer.
- modules: NatalModule.controls() agrega toggle show_transits con
  hotkey [T] (default false — no recomputar transits si nadie pidió).
- shell: nuevo show_transits flag. render_current despacha entre
  compute_at_offset y compute_with_transits_at_now según el flag.
  on_panel_event traduce ControlChanged show_transits a flip + redraw.
  on_canvas_event: el toggle de LayerKind::Outer dispara show_transits
  flip + render (no es un visibility toggle puro).

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
This commit is contained in:
sergio
2026-05-17 10:24:36 +00:00
parent 360797132e
commit 4d14a4495f
5 changed files with 320 additions and 39 deletions
Download Patch File Download Diff File Expand all files Collapse all files
crates/apps/tahuantinsuyu/src/shell.rs
+39 -8
View File
@@ -22,7 +22,7 @@ use gpui::{
use tahuantinsuyu_canvas::{ use tahuantinsuyu_canvas::{
AstrologyCanvas, CanvasEvent, CanvasMode, ThumbnailItem, ThumbnailScope, AstrologyCanvas, CanvasEvent, CanvasMode, ThumbnailItem, ThumbnailScope,
}; };
use tahuantinsuyu_engine::{LayerKind, compute_at_offset}; use tahuantinsuyu_engine::{LayerKind, compute_at_offset, compute_with_transits_at_now};
use tahuantinsuyu_model::{Chart, TreeSelection}; use tahuantinsuyu_model::{Chart, TreeSelection};
use tahuantinsuyu_panel::{ControlPanel, PanelEvent}; use tahuantinsuyu_panel::{ControlPanel, PanelEvent};
use tahuantinsuyu_store::Store; use tahuantinsuyu_store::Store;
@@ -44,6 +44,9 @@ pub struct Shell {
/// recomputarla con time-offsets sin re-leer la DB cada vez. /// recomputarla con time-offsets sin re-leer la DB cada vez.
current_chart: Option<Chart>, current_chart: Option<Chart>,
current_offset_minutes: i64, current_offset_minutes: i64,
/// Overlay de tránsitos al instante actual sobre la natal. Disparado
/// por el toggle `show_transits` del panel o la hotkey `[T]`.
show_transits: bool,
} }
impl Shell { impl Shell {
@@ -78,6 +81,7 @@ impl Shell {
panel, panel,
current_chart: None, current_chart: None,
current_offset_minutes: 0, current_offset_minutes: 0,
show_transits: false,
} }
} }
@@ -164,12 +168,20 @@ impl Shell {
let Some(chart) = self.current_chart.as_ref() else { let Some(chart) = self.current_chart.as_ref() else {
return; return;
}; };
let render = match compute_at_offset(chart, self.current_offset_minutes) { let result = if self.show_transits {
compute_with_transits_at_now(chart, self.current_offset_minutes)
} else {
compute_at_offset(chart, self.current_offset_minutes)
};
let render = match result {
Ok(r) => r, Ok(r) => r,
Err(e) => { Err(e) => {
eprintln!( eprintln!(
"[shell] compute_at_offset {} (+{}min): {}", "[shell] compute {}{} (+{}min): {}",
chart.id, self.current_offset_minutes, e chart.id,
if self.show_transits { " +transits" } else { "" },
self.current_offset_minutes,
e
); );
return; return;
} }
@@ -193,8 +205,17 @@ impl Shell {
} }
} }
CanvasEvent::LayerVisibilityChanged { kind, visible } => { CanvasEvent::LayerVisibilityChanged { kind, visible } => {
// Sync el panel para que el toggle visual coincida con // El toggle de Outer (hotkey [T]) significa "transit
// lo que disparó el hotkey en el canvas. // overlay" — no es solo un layer hide, dispara un
// recompute distinto. El resto son visibility puros.
if matches!(kind, LayerKind::Outer) {
self.show_transits = *visible;
self.panel.update(cx, |p, cx| {
p.set_toggle("natal", "show_transits", *visible, cx)
});
self.render_current(cx);
return;
}
let key = match kind { let key = match kind {
LayerKind::SignDial => "show_sign_dial", LayerKind::SignDial => "show_sign_dial",
LayerKind::Houses => "show_houses", LayerKind::Houses => "show_houses",
@@ -213,9 +234,19 @@ impl Shell {
fn on_panel_event(&mut self, ev: &PanelEvent, cx: &mut Context<Self>) { fn on_panel_event(&mut self, ev: &PanelEvent, cx: &mut Context<Self>) {
match ev { match ev {
PanelEvent::ControlChanged { module_id, key, value } => { PanelEvent::ControlChanged {
module_id, key, value,
} => {
let visible = value.as_bool().unwrap_or(true); let visible = value.as_bool().unwrap_or(true);
if module_id == "natal" { if module_id == "natal" {
if key == "show_transits" {
self.show_transits = visible;
self.canvas.update(cx, |c, cx| {
c.set_layer_visible(LayerKind::Outer, visible, cx)
});
self.render_current(cx);
return;
}
let kind = match key.as_str() { let kind = match key.as_str() {
"show_sign_dial" => Some(LayerKind::SignDial), "show_sign_dial" => Some(LayerKind::SignDial),
"show_houses" => Some(LayerKind::Houses), "show_houses" => Some(LayerKind::Houses),
@@ -230,7 +261,7 @@ impl Shell {
} }
} }
PanelEvent::ModuleToggled { .. } => { PanelEvent::ModuleToggled { .. } => {
// Fase 5: encender/apagar módulos enteros (Transit, // Fase 6: encender/apagar módulos enteros (Progression,
// Synastry, Uranian). // Synastry, Uranian).
} }
} }
crates/modules/tahuantinsuyu/tahuantinsuyu-canvas/src/lib.rs
+119 -8
View File
@@ -279,6 +279,7 @@ impl AstrologyCanvas {
"h" | "H" => LayerKind::Houses, "h" | "H" => LayerKind::Houses,
"x" | "X" => LayerKind::Aspects, "x" | "X" => LayerKind::Aspects,
"p" | "P" => LayerKind::Bodies, "p" | "P" => LayerKind::Bodies,
"t" | "T" => LayerKind::Outer,
"r" | "R" => { "r" | "R" => {
self.reset_time_offset(cx); self.reset_time_offset(cx);
return; return;
@@ -534,7 +535,7 @@ fn render_wheel(
} }
} }
// Planet glyphs. // Planet glyphs (natal).
if visible.get(&LayerKind::Bodies).copied().unwrap_or(true) { if visible.get(&LayerKind::Bodies).copied().unwrap_or(true) {
for layer in &render.layers { for layer in &render.layers {
if matches!(layer.kind, LayerKind::Bodies) { if matches!(layer.kind, LayerKind::Bodies) {
@@ -559,6 +560,31 @@ fn render_wheel(
} }
} }
// Planet glyphs (transit ring) — solo si la capa Outer está activa.
if visible.get(&LayerKind::Outer).copied().unwrap_or(true) {
for layer in &render.layers {
if matches!(layer.kind, LayerKind::Outer) && layer.module_id == "transit" {
for g in &layer.glyphs {
let (x, y) = polar_to_screen(g.deg, asc, rot_offset, radii.transits);
let color = with_alpha(planet_color(palette, &g.symbol), 0.9);
let glyph_text = if g.retrograde {
format!("{}ᴿ", planet_unicode(&g.symbol))
} else {
planet_unicode(&g.symbol).into()
};
wheel = wheel.child(centered_glyph(
cx_center + x,
cy_center + y,
20.0,
14.0,
glyph_text.into(),
color,
));
}
}
}
}
// --- Header + footer + indicador de tiempo --- // --- Header + footer + indicador de tiempo ---
let header = div() let header = div()
.flex() .flex()
@@ -611,7 +637,7 @@ fn render_wheel(
div() div()
.text_size(px(10.0)) .text_size(px(10.0))
.text_color(theme.fg_disabled) .text_color(theme.fg_disabled)
.child("[D]ial [H]ouses as[X]pects [P]lanets [R]eset"), .child("[D]ial [H]ouses as[X]pects [P]lanets [T]ransits [R]eset"),
); );
div() div()
@@ -650,6 +676,10 @@ fn format_offset(minutes: i64) -> String {
struct Radii { struct Radii {
sign_outer: f32, sign_outer: f32,
sign_inner: f32, sign_inner: f32,
/// Anillo de glifos de tránsito (cuando el overlay está activo).
/// Vive entre `sign_inner` y `houses_outer`; queda vacío cuando no
/// hay capa Outer.
transits: f32,
houses_outer: f32, houses_outer: f32,
houses_inner: f32, houses_inner: f32,
bodies: f32, bodies: f32,
@@ -661,10 +691,11 @@ impl Radii {
Self { Self {
sign_outer: r, sign_outer: r,
sign_inner: r * 0.88, sign_inner: r * 0.88,
houses_outer: r * 0.86, transits: r * 0.82,
houses_inner: r * 0.72, houses_outer: r * 0.78,
bodies: r * 0.65, houses_inner: r * 0.66,
aspects: r * 0.58, bodies: r * 0.58,
aspects: r * 0.50,
} }
} }
} }
@@ -779,14 +810,30 @@ fn paint_wheel(
); );
} }
// 3. Aspectos. // 3. Aspectos. Distinguir natal (line entre dos puntos en r_aspects)
// del transit (line natal → transit, distintos radios).
if show(LayerKind::Aspects) { if show(LayerKind::Aspects) {
for layer in layers { for layer in layers {
if matches!(layer.kind, LayerKind::Aspects) { if matches!(layer.kind, LayerKind::Aspects) {
if let Geometry::Lines(segs) = &layer.geometry { if let Geometry::Lines(segs) = &layer.geometry {
let is_transit = layer.module_id == "transit";
for seg in segs { for seg in segs {
let color = aspect_color(palette, &seg.kind); let color = aspect_color(palette, &seg.kind);
let color = with_alpha(color, color.a * seg.opacity); let color = with_alpha(color, color.a * seg.opacity);
if is_transit {
paint_cross_aspect_line(
window,
cx,
cy,
seg.from_deg,
seg.to_deg,
ascendant_deg,
rot_offset_deg,
radii.bodies,
radii.transits,
color,
);
} else {
paint_aspect_line( paint_aspect_line(
window, window,
cx, cx,
@@ -803,8 +850,9 @@ fn paint_wheel(
} }
} }
} }
}
// 4. Dots de cuerpos. // 4. Dots de cuerpos (natal).
if show(LayerKind::Bodies) { if show(LayerKind::Bodies) {
let dot_r = (radii.sign_outer * 0.018).max(2.0); let dot_r = (radii.sign_outer * 0.018).max(2.0);
for layer in layers { for layer in layers {
@@ -818,6 +866,42 @@ fn paint_wheel(
} }
} }
} }
// 5. Outer ring (transit overlay): anillo guía + dots de transit.
let transit_active = layers
.iter()
.any(|l| matches!(l.kind, LayerKind::Outer) && l.module_id == "transit");
if transit_active && show(LayerKind::Outer) {
// Anillos guía para delimitar el slot.
stroke_circle(
window,
cx,
cy,
radii.transits + radii.sign_outer * 0.035,
0.6,
with_alpha(palette.dial_ring, 0.4),
);
stroke_circle(
window,
cx,
cy,
radii.transits - radii.sign_outer * 0.035,
0.6,
with_alpha(palette.dial_ring, 0.4),
);
let dot_r = (radii.sign_outer * 0.017).max(2.0);
for layer in layers {
if matches!(layer.kind, LayerKind::Outer) && layer.module_id == "transit" {
for g in &layer.glyphs {
let color = with_alpha(planet_color(palette, &g.symbol), 0.85);
let (x, y) =
polar_to_screen(g.deg, ascendant_deg, rot_offset_deg, radii.transits);
fill_circle(window, cx + x, cy + y, dot_r, color);
}
}
}
}
} }
fn paint_sign_sectors( fn paint_sign_sectors(
@@ -939,6 +1023,33 @@ fn paint_aspect_line(
} }
} }
/// Línea de aspecto natal ↔ tránsito: extremos en radios distintos.
/// El `from_deg` cae sobre el ring de cuerpos natales (`r_from`); el
/// `to_deg` sobre el ring de tránsito (`r_to`). Trazo más fino que el
/// natal-natal para no competir visualmente.
#[allow(clippy::too_many_arguments)]
fn paint_cross_aspect_line(
window: &mut Window,
cx: f32,
cy: f32,
natal_deg: f32,
transit_deg: f32,
ascendant_deg: f32,
rot_offset_deg: f32,
r_from: f32,
r_to: f32,
color: Hsla,
) {
let (xa, ya) = polar_to_screen(natal_deg, ascendant_deg, rot_offset_deg, r_from);
let (xb, yb) = polar_to_screen(transit_deg, ascendant_deg, rot_offset_deg, r_to);
let mut builder = PathBuilder::stroke(px(0.7));
builder.move_to(point(px(cx + xa), px(cy + ya)));
builder.line_to(point(px(cx + xb), px(cy + yb)));
if let Ok(path) = builder.build() {
window.paint_path(path, color);
}
}
// ===================================================================== // =====================================================================
// Helpers // Helpers
// ===================================================================== // =====================================================================
crates/modules/tahuantinsuyu/tahuantinsuyu-engine/src/bridge.rs
+118 -12
View File
@@ -9,8 +9,8 @@ use std::sync::OnceLock;
use std::time::Instant; use std::time::Instant;
use eternal_astrology::{ use eternal_astrology::{
find_aspects, Aspect, AspectKind as EAspectKind, BirthData, BodySet, ChartConfig, find_aspects, find_synastry_aspects, Aspect, AspectKind as EAspectKind, BirthData, BodySet,
HouseSystem as EHouseSystem, NatalChart, OrbTable, Zodiac as EZodiac, ChartConfig, HouseSystem as EHouseSystem, NatalChart, OrbTable, Zodiac as EZodiac,
}; };
use eternal_sky::{Ayanamsha, Body, EphemerisSession, Instant as ESInstant, Observer, SessionConfig}; use eternal_sky::{Ayanamsha, Body, EphemerisSession, Instant as ESInstant, Observer, SessionConfig};
@@ -173,10 +173,15 @@ fn aspect_kind_id(k: EAspectKind) -> &'static str {
// compute() // compute()
// ===================================================================== // =====================================================================
pub fn compute_at_offset(chart: &Chart, offset_minutes: i64) -> Result<RenderModel, EngineError> { /// Construye los tipos eternales (`BirthData`, `ChartConfig`) desde el
let t0 = Instant::now(); /// `Chart` agnóstico, aplicando el offset temporal. Devuelve también el
/// `Observer` y la `ChartConfig` para reusar en pipelines extendidas
/// (transits, sinastría) sin re-traducir.
fn build_eternal_inputs(
chart: &Chart,
offset_minutes: i64,
) -> Result<(BirthData, ChartConfig, Observer), EngineError> {
chart.validate()?; chart.validate()?;
let bd = &chart.birth_data; let bd = &chart.birth_data;
let base_instant = ESInstant::from_civil_local( let base_instant = ESInstant::from_civil_local(
bd.year, bd.year,
@@ -197,10 +202,6 @@ pub fn compute_at_offset(chart: &Chart, offset_minutes: i64) -> Result<RenderMod
) )
.map_err(|e| EngineError::Eternal(format!("Instant::from_civil_local: {:?}", e)))?; .map_err(|e| EngineError::Eternal(format!("Instant::from_civil_local: {:?}", e)))?;
// Aplicar el offset (en minutos) sumando segundos al UTC y
// reconstruyendo el `Instant`. `UTC::add_seconds` está disponible
// pero opera sobre la representación interna; el `Instant` la
// re-envuelve vía `from_utc`.
let instant = if offset_minutes == 0 { let instant = if offset_minutes == 0 {
base_instant base_instant
} else { } else {
@@ -209,29 +210,134 @@ pub fn compute_at_offset(chart: &Chart, offset_minutes: i64) -> Result<RenderMod
}; };
let observer = Observer::from_degrees(bd.latitude_deg, bd.longitude_deg, bd.altitude_m); let observer = Observer::from_degrees(bd.latitude_deg, bd.longitude_deg, bd.altitude_m);
let mut birth_e = BirthData::new(instant, observer); let mut birth_e = BirthData::new(instant, observer);
if let Some(name) = &bd.subject_name { if let Some(name) = &bd.subject_name {
birth_e = birth_e.with_name(name.clone()); birth_e = birth_e.with_name(name.clone());
} }
let config_e = ChartConfig { let config_e = ChartConfig {
house_system: map_house_system(chart.config.house_system), house_system: map_house_system(chart.config.house_system),
zodiac: map_zodiac(chart.config.zodiac, chart.config.ayanamsha.as_deref()), zodiac: map_zodiac(chart.config.zodiac, chart.config.ayanamsha.as_deref()),
bodies: map_body_set(&chart.config), bodies: map_body_set(&chart.config),
include_horizon: false, include_horizon: false,
}; };
Ok((birth_e, config_e, observer))
}
/// Computa solo la `NatalChart` (sin construir RenderModel). Útil para
/// pipelines compuestas (transits, sinastría) que necesitan el natal
/// crudo para correr `find_synastry_aspects`.
fn compute_natal_chart(
chart: &Chart,
offset_minutes: i64,
) -> Result<(NatalChart, ChartConfig, Observer), EngineError> {
let (birth_e, config_e, observer) = build_eternal_inputs(chart, offset_minutes)?;
let session = session()?; let session = session()?;
let natal = NatalChart::compute(&birth_e, &config_e, session) let natal = NatalChart::compute(&birth_e, &config_e, session)
.map_err(|e| EngineError::Eternal(format!("NatalChart::compute: {:?}", e)))?; .map_err(|e| EngineError::Eternal(format!("NatalChart::compute: {:?}", e)))?;
Ok((natal, config_e, observer))
}
pub fn compute_at_offset(chart: &Chart, offset_minutes: i64) -> Result<RenderModel, EngineError> {
let t0 = Instant::now();
let (natal, _, _) = compute_natal_chart(chart, offset_minutes)?;
let aspects = find_aspects(&natal, &OrbTable::modern_western()); let aspects = find_aspects(&natal, &OrbTable::modern_western());
Ok(build_render_model(chart, &natal, &aspects, t0))
}
let render = build_render_model(chart, &natal, &aspects, t0); /// Pipeline natal + overlay de tránsitos. Computa la carta natal
/// (eventualmente con un `offset_minutes` aplicado) **y además** una
/// segunda `NatalChart` con el mismo observer pero al instante
/// `transit_at` (usualmente `Instant::now()`). Devuelve un `RenderModel`
/// con dos capas extra:
///
/// - `LayerKind::Outer` con `module_id = "transit"` — glifos
/// planetarios del cielo actual, pintados en un anillo externo.
/// - `LayerKind::Aspects` con `module_id = "transit"` — aspectos cross
/// natal × transit (sólo mayores). Convención: `LineSeg.from_deg` =
/// longitud natal, `LineSeg.to_deg` = longitud transit.
pub fn compute_with_transits(
chart: &Chart,
offset_minutes: i64,
transit_at: ESInstant,
) -> Result<RenderModel, EngineError> {
let t0 = Instant::now();
let (natal, config_e, observer) = compute_natal_chart(chart, offset_minutes)?;
let aspects = find_aspects(&natal, &OrbTable::modern_western());
let mut render = build_render_model(chart, &natal, &aspects, t0);
// Carta de tránsito: mismo observer, mismo config, instante "ahora".
let transit_birth = BirthData::new(transit_at, observer);
let session = session()?;
let transit = NatalChart::compute(&transit_birth, &config_e, session).map_err(|e| {
EngineError::Eternal(format!("NatalChart::compute (transit): {:?}", e))
})?;
// Outer ring de glifos: planetas del cielo actual.
let outer_glyphs: Vec<Glyph> = transit
.placements
.iter()
.map(|p| Glyph {
deg: p.longitude.longitude_deg() as f32,
symbol: body_symbol(p.body).into(),
annotation: Some(format!("{:.1}°", p.longitude.degree_in_sign_decimal())),
retrograde: p.longitude_rate_rad_per_day < 0.0,
house: None,
})
.collect();
render.layers.push(Layer {
module_id: "transit".into(),
kind: LayerKind::Outer,
ring: 0.82,
z: 4,
geometry: Geometry::GlyphsOnly,
glyphs: outer_glyphs,
});
// Cross aspects natal × transit. find_synastry_aspects toma una lista
// de `AspectKind`s — usamos solo mayores para no saturar.
let cross = find_synastry_aspects(
&natal,
&transit,
&OrbTable::modern_western(),
EAspectKind::MAJORS,
);
let cross_lines: Vec<LineSeg> = cross
.iter()
.filter_map(|a| {
let natal_p = natal.placement(a.person_a_body)?;
let transit_p = transit.placement(a.person_b_body)?;
let opacity = orb_to_opacity(a.orb_abs_deg(), a.kind);
Some(LineSeg {
from_deg: natal_p.longitude.longitude_deg() as f32,
to_deg: transit_p.longitude.longitude_deg() as f32,
kind: aspect_kind_id(a.kind).into(),
// Apagamos un poco más los cross para distinguirlos del
// tejido natal-natal.
opacity: opacity * 0.75,
})
})
.collect();
render.layers.push(Layer {
module_id: "transit".into(),
kind: LayerKind::Aspects,
ring: 0.0,
z: 5,
geometry: Geometry::Lines(cross_lines),
glyphs: Vec::new(),
});
render.compute_ms = t0.elapsed().as_millis() as u64;
Ok(render) Ok(render)
} }
/// Atajo: tránsitos al instante actual del reloj.
pub fn compute_with_transits_at_now(
chart: &Chart,
offset_minutes: i64,
) -> Result<RenderModel, EngineError> {
compute_with_transits(chart, offset_minutes, ESInstant::now())
}
// ===================================================================== // =====================================================================
// NatalChart → RenderModel // NatalChart → RenderModel
// ===================================================================== // =====================================================================
crates/modules/tahuantinsuyu/tahuantinsuyu-engine/src/lib.rs
+27
View File
@@ -173,6 +173,33 @@ pub fn compute_at_offset(chart: &Chart, offset_minutes: i64) -> Result<RenderMod
} }
} }
/// Variante con overlay de tránsitos al **instante actual** (reloj de
/// pared). Computa la carta natal igual que [`compute_at_offset`] y le
/// suma dos capas extras:
///
/// - `LayerKind::Outer` con `module_id = "transit"` — glifos
/// planetarios del cielo del momento, sobre un anillo externo.
/// - `LayerKind::Aspects` con `module_id = "transit"` — líneas natal ↔
/// transit (sólo aspectos mayores). Por convención, en cada
/// `LineSeg` el `from_deg` es la longitud natal y el `to_deg` la
/// longitud del planeta de tránsito.
///
/// Sin el feature `eternal-bridge` cae al mock (sin overlay).
pub fn compute_with_transits_at_now(
chart: &Chart,
offset_minutes: i64,
) -> Result<RenderModel, EngineError> {
#[cfg(feature = "eternal-bridge")]
{
bridge::compute_with_transits_at_now(chart, offset_minutes)
}
#[cfg(not(feature = "eternal-bridge"))]
{
let _ = offset_minutes;
Ok(compute_mock(chart))
}
}
/// Stub determinista — útil para tests + para la UI sin eternal. /// Stub determinista — útil para tests + para la UI sin eternal.
pub fn compute_mock(chart: &Chart) -> RenderModel { pub fn compute_mock(chart: &Chart) -> RenderModel {
use std::time::Instant; use std::time::Instant;
crates/modules/tahuantinsuyu/tahuantinsuyu-modules/src/lib.rs
+6
View File
@@ -203,6 +203,12 @@ pub mod natal {
default: true, default: true,
hotkey: Some("P".into()), hotkey: Some("P".into()),
}, },
Control::Toggle {
key: "show_transits".into(),
label: "Tránsitos (ahora)".into(),
default: false,
hotkey: Some("T".into()),
},
Control::Slider { Control::Slider {
key: "harmonic".into(), key: "harmonic".into(),
label: "Armónico".into(), label: "Armónico".into(),