from utils.files import output def check_discrete_data(expected_file, actual_file, ndigits=7,eps=0.00001) : output_file = "check_discrete_data_full.txt" minimal_output_file = "check_discrete_data_minimal.txt" minimal_output_data = "" output_data = "" expected = [] x,y,z,r,std = 0,0,0,0,0 with open(expected_file, "r") as f: expected = f.readlines()[1:] expected = [line.replace(',','.').split('\t') for line in expected] expected = [[float(x) for x in line] for line in expected] actual = [] with open(actual_file, "r") as f: actual = f.readlines()[1:] actual = [line.split('\t') for line in actual] actual = [[float(x) for x in line if x != '\n'] for line in actual] for i in range(min(len(expected), len(actual))): x_diff = round(abs(expected[i][0] - actual[i][0]),ndigits) y_diff = round(abs(expected[i][1] - actual[i][1]),ndigits) z_diff = round(abs(expected[i][2] - actual[i][2]),ndigits) r_diff = round(abs(expected[i][3] - actual[i][3]),ndigits) std_diff = round(abs(expected[i][4] - actual[i][4]),ndigits) x += x_diff y += y_diff z += z_diff r += r_diff std += std_diff line = f"{str(i).rjust(4)}:\t X: {str(x_diff).rjust(8)}\t Y: {str(y_diff).rjust(8)}\t Z: {str(z_diff).rjust(8)}\t R: {str(r_diff).rjust(8)}\t STD: {str(std_diff).rjust(8)}" output_data += line + "\n" if x_diff > eps or y_diff > eps or z_diff > eps or r_diff > eps or std_diff > eps: minimal_output_data += line + "\n" output.save_output_file(output_file, output_data) output.save_output_file(minimal_output_file, minimal_output_data) x = round(x/len(expected),ndigits) y = round(y/len(expected),ndigits) z = round(z/len(expected),ndigits) r = round(r/len(expected),ndigits) std = round(std/len(expected),ndigits) print() print("Analyse données discretisées:") print(f"difference moyenne X: {x}") print(f"difference moyenne Y: {y}") print(f"difference moyenne Z: {z}") print(f"difference moyenne R: {r}") print(f"difference moyenne STD: {std}") print(f"diff globale des fichiers: {(x+y+z+r+std)/5}") print(f"Voir {output_file} pour plus de détails") print(f"Voir {minimal_output_file} pour les différences significatives") print("_"*80) def check_raw_data(expected_file, actual_file, ndigits=7,eps=0.00001) : output_file = "check_raw_data_full.txt" minimal_output_file = "check_raw_data_minimal.txt" minimal_output_data = "" output_data = "" expected = [] x,y,z,t,r,xmoy,ymoy = 0,0,0,0,0,0,0 with open(expected_file, "r") as f: expected = f.readlines()[1:] expected = [line.replace(',','.').split('\t') for line in expected] expected = [[float(x) for x in line] for line in expected] actual = [] with open(actual_file, "r") as f: actual = f.readlines()[1:] actual = [line.split('\t') for line in actual] actual = [[float(x) for x in line if x != '\n'] for line in actual] for i in range(min(len(expected), len(actual))): x_diff = round(abs(expected[i][0] - actual[i][0]),ndigits) y_diff = round(abs(expected[i][1] - actual[i][1]),ndigits) z_diff = round(abs(expected[i][2] - actual[i][2]),ndigits) t_diff = round(abs(expected[i][3] - actual[i][3]),ndigits) r_diff = round(abs(expected[i][4] - actual[i][4]),ndigits) xmoy_diff = round(abs(expected[i][5] - actual[i][5]),ndigits) ymoy_diff = round(abs(expected[i][6] - actual[i][6]),ndigits) x += x_diff y += y_diff z += z_diff t += t_diff r += r_diff xmoy += xmoy_diff ymoy += ymoy_diff line = f"{str(i).rjust(4)}:\t X: {str(x_diff).rjust(8)}\t Y: {str(y_diff).rjust(8)}\t Z: {str(z_diff).rjust(8)}\t T: {str(t_diff).rjust(8)}\t R: {str(r_diff).rjust(8)}\t Xmoy: {str(xmoy_diff).rjust(8)}\t Ymoy: {str(ymoy_diff).rjust(8)}" output_data += line + "\n" if x_diff > eps: minimal_output_data += f"{i} : X diff {x_diff}\n" if y_diff > eps: minimal_output_data += f"{i} : Y diff {y_diff}\n" if z_diff > eps: minimal_output_data += f"{i} : Z diff {z_diff}\n" if t_diff > eps: minimal_output_data += f"{i} : teta diff{ t_diff}\n" if r_diff > eps: minimal_output_data += f"{i} : R diff {r_diff}\n" if xmoy_diff > eps: minimal_output_data += f"{i} : Xi-Xmoy diff {xmoy_diff}\n" if ymoy_diff > eps: minimal_output_data += f"{i} : Yi-Ymoy diff{ymoy_diff}\n" output.save_output_file(output_file, output_data) output.save_output_file(minimal_output_file, minimal_output_data) x = round(x/len(expected),ndigits) y = round(y/len(expected),ndigits) z = round(z/len(expected),ndigits) t = round(t/len(expected),ndigits) r = round(r/len(expected),ndigits) xmoy = round(xmoy/len(expected),ndigits) ymoy = round(ymoy/len(expected),ndigits) print() print("Analyse données brutes :") print(f"diff moyenne de x : {x}") print(f"diff moyenne de y : {y}") print(f"diff moyenne de z : {z}") print(f"diff moyenne de t : {t}") print(f"diff moyenne de r : {r}") print(f"diff moyenne de xmoy : {xmoy}") print(f"diff moyenne de ymoy : {ymoy}") print(f"diff gloabale des fichiers : {(x+y+z+t+r+xmoy+ymoy)/7}") print(f"Voir {output_file} pour plus de détails") print(f"Voir {minimal_output_file} pour les différences significatives") print("_"*80)