#!/usr/bin/env node /** * Change orbital eccentricity */ import { KosConnection } from '../../transport/kos-connection.js'; import { changeEccentricity } from '../../mechjeb/programs/orbital/index.js'; import { getOrbitInfo } from '../../mechjeb/telemetry.js'; async function main() { // Parse command line arguments const newEcc = parseFloat(process.argv[2]); const timeRef = (process.argv[3] || 'APOAPSIS').toUpperCase(); if (isNaN(newEcc) || newEcc < 0 || newEcc >= 1) { console.error('Usage: npm run eccentricity [timeRef]'); console.error('newEcc must be between 0 (circular) and 1 (parabolic)'); console.error('Example: npm run eccentricity 0.5 APOAPSIS'); process.exit(1); } console.log(`=== Change Eccentricity to ${newEcc} at ${timeRef} ===\n`); const conn = new KosConnection({ cpuLabel: 'guidance', }); try { console.log('1. Connecting to kOS...'); await conn.connect(); console.log(' Connected!\n'); // Check current orbit using library console.log('2. Current orbit...'); const orbit = await getOrbitInfo(conn); console.log(` Eccentricity: ${orbit.eccentricity.toFixed(3)}`); console.log(` Periapsis: ${(orbit.periapsis / 1000).toFixed(1)} km`); console.log(` Apoapsis: ${(orbit.apoapsis / 1000).toFixed(1)} km\n`); // Create ECCENTRICITY node using library console.log(`3. Creating ECCENTRICITY node (${timeRef.toLowerCase()})...`); const result = await changeEccentricity(conn, newEcc, timeRef); if (!result.success) { console.log(' Failed to create ECCENTRICITY node'); console.log(` ${result.error || 'Operation error'}`); return; } console.log(' Node created!\n'); // Show node details from result console.log('4. Node info...'); console.log(` ΔV: ${result.deltaV?.toFixed(1) || '?'} m/s in ${result.timeToNode?.toFixed(0) || '?'} seconds\n`); console.log('✅ Node created! Use "npm run execute-node" to execute.'); } catch (error) { console.error('Error:', error instanceof Error ? error.message : String(error)); } finally { await conn.disconnect(); console.log('Disconnected.\n'); } } main().catch(console.error);