diff --git a/star_chart_spherical_projection/generate_star_chart.py b/star_chart_spherical_projection/generate_star_chart.py index f3a47c9..c2195b9 100644 --- a/star_chart_spherical_projection/generate_star_chart.py +++ b/star_chart_spherical_projection/generate_star_chart.py @@ -201,7 +201,7 @@ def _generate_stereographic_projection(starList=None, # Convert Star chart from RA hours to Radians to chart list_of_stars = _ra_to_radians(starList) - finalPositionOfStarsDict = {} # {'Common Name': {"Declination" : Declination (int), "RA": RA (str)} + final_position_of_stars_dict = {} # {'Common Name': {"Declination" : Declination (int), "RA": RA (str)} x_star_labels = [] x_ra_values = [] y_dec_values = [] @@ -246,7 +246,7 @@ def _generate_stereographic_projection(starList=None, in_range_value = True # South if in_range_value: - finalPositionOfStarsDict[name] = {"Declination" : star_declination, "RA": _radians_to_ra(star_ra)} # {'Common Name': {"Declination" : Declination (int), "RA": RA (str)} + final_position_of_stars_dict[name] = {"Declination" : star_declination, "RA": _radians_to_ra(star_ra)} # {'Common Name': {"Declination" : Declination (int), "RA": RA (str)} x_star_labels.append(name) x_ra_values.append(star_ra) y_dec_values.append(dec_ruler_position) @@ -262,13 +262,13 @@ def _generate_stereographic_projection(starList=None, in_range_value = True # South if in_range_value: - finalPositionOfStarsDict[name] = {"Declination" : float(star_declination), "RA": _radians_to_ra(star_ra)} # {'Common Name': {"Declination" : Declination (int), "RA": RA (str)} + final_position_of_stars_dict[name] = {"Declination" : float(star_declination), "RA": _radians_to_ra(star_ra)} # {'Common Name': {"Declination" : Declination (int), "RA": RA (str)} x_star_labels.append(name) x_ra_values.append(star_ra) y_dec_values.append(dec_ruler_position) logger.debug(f"Original: '{name}': {np.rad2deg(ra)} RA (degrees) and {dec} Declination (degrees)") - return x_star_labels, x_ra_values, y_dec_values, finalPositionOfStarsDict + return x_star_labels, x_ra_values, y_dec_values, final_position_of_stars_dict def plot_stereographic_projection(included_stars=[], pole=None, diff --git a/star_chart_spherical_projection/position_of_stars.py b/star_chart_spherical_projection/position_of_stars.py index 502d0ff..6b78f57 100644 --- a/star_chart_spherical_projection/position_of_stars.py +++ b/star_chart_spherical_projection/position_of_stars.py @@ -65,7 +65,7 @@ def final_position(included_stars=[], declination_min = -90 declination_max = 90 - _, _, _, finalPositionOfStarsDict = star_chart_spherical_projection._generate_stereographic_projection(starList=list_of_stars, + _, _, _, final_position_of_stars_dict = star_chart_spherical_projection._generate_stereographic_projection(starList=list_of_stars, pole="North", declination_min=declination_min, year_since_2000=year_since_2000, @@ -76,13 +76,13 @@ def final_position(included_stars=[], if save_to_csv is not None: header_options = ["Common Name", "Right Ascension (HH.MM.SS)", "Declination (DD.SS)"] star_chart_list = [] - for star_name, star_position in finalPositionOfStarsDict.items(): + for star_name, star_position in final_position_of_stars_dict.items(): star_chart_list.append([star_name, star_position["RA"], star_position["Declination"]]) df = pd.DataFrame(star_chart_list, columns=header_options) df = df.sort_values(by=["Common Name"]) df.to_csv(save_to_csv, header=header_options, index=False) - return finalPositionOfStarsDict + return final_position_of_stars_dict def position_over_time(star=None, added_star=None,