#!/usr/bin/env python3 from math import sqrt import numpy as np from scipy.spatial.distance import euclidean # ilgiausios B sklypo krastines kampas: -4.7727° A = -7.756 B = 4.686 C = -7.663 Z = -7.103 E = 6.405 F = -6.552 G = 6.931 N = -3.986 M = -5.285 # Atraminiu liniju koordinates ir uzkirciu ilgiai(m) [Koord. LKS94 sistemoje jau sukeistos]: # -- Atrama T23-T24-T25 -- bearings = { 23: np.array([564383.829+N, 6173144.853+A]), 24: np.array([564444.357+F, 6173086.343+C]), 25: np.array([564673.556+B, 6173055.598+M]), 26: np.array([564414.733+G, 6173298.332+N]), 27: np.array([564564.172+G, 6173312.063+B]), 28: np.array([564770.145+N, 6173230.520+N]), } print("""Atraminiu liniju koordinates ir uzkirciu ilgiai(m):""") for id, bearing in bearings.items(): print("T%d: (%.3f,%.3f)" % (id, bearing[0], bearing[1])) (""" --------------- Kontr. atst. T23-T24 = 82.293 ?= %.3f""" % euclidean(bearings[23],bearings[24]) + """ Kontr. atst. T24-T25 = 242.105 ?= %.3f""" % euclidean(bearings[24],bearings[25]) + """ Kontr. atst. T26-T27 = 151.109 ?= %.3f""" % euclidean(bearings[26], bearings[27]) + """ Kontr. atst. T27-T28 = 214.908 ?= %.3f""" % euclidean(bearings[27], bearings[28]) + """ """) print("""Objektu koordinates:""") objs = { 12: np.array([564474.034+M, 6173175.426+F]), 13: np.array([564505.240+C, 6173237.929+E]), 14: np.array([564519.570+C, 6173255.007+F]), 15: np.array([564615.010+A, 6173215.649+Z]), 16: np.array([564627.375+E, 6173220.989+Z]), 17: np.array([564627.105+N, 6173210.067+Z]), 18: np.array([564607.740+C, 6173171.025+Z]), 19: np.array([564558.331+B, 6173177.716+Z]), 20: np.array([564546.236+M, 6173183.298+Z]), 21: np.array([564558.601+N, 6173188.638+C]), 22: np.array([564539.728+F, 6173230.148+E]), } for id, obj in objs.items(): print("%d: (%.3f,%.3f)" % (id, obj[0], obj[1]))