added more analysis of music shifts

music_shift_analysis.py

@@ -10,13 +10,13 @@ right_corner_highres_boundary = np.array([0.601410, 0.558650, 0.645789])
 # this seems to be the extent of the highres region in units such that it lies in [0...1[
 lxref = right_corner_highres_boundary - left_corner_highres_boundary
 
-# presumable the centre of the highres region:
+# presumably the centre of the highres region:
 # xc = left_corner_highres_boundary + 0.5 * lxref
 # xc = np.array([math.fmod(xc_i, 1.0) for xc_i in xc])
 # #or equivalently
 xc = (left_corner_highres_boundary + 0.5 * lxref) % 1.0
 
-print(f'our calculated centre: {xc}')
+print(f"our calculated centre: {xc}")
 
 # hardcoded because I only want to understand my specific case (read from auriga_6_ics.conf_log.txt):
 shift_unit = 2
@@ -27,41 +27,51 @@ desired_box_centre = np.array([0.5, 0.5, 0.5])
 xshift = (desired_box_centre - xc) * ncoarse / shift_unit + desired_box_centre
 xshift = xshift.astype(int) * shift_unit
 
-print(f'our music shift: {xshift}')
+print(f"our music shift: {xshift}")
 
 adrian_shift = (desired_box_centre - xc * ncoarse).astype(np.int64)
-print(f'adrians shift as noted in our music source: {adrian_shift}')
+print(f"adrians shift as noted in our music source: {adrian_shift}")
 oliver_shift = np.array([-6, 0, -12])
 assert (xshift == oliver_shift).all()
 
-print(f'difference between adrians and olivers way to calculate the shift: {adrian_shift - oliver_shift}')
+print(
+    f"difference between adrians and olivers way to calculate the shift: {adrian_shift - oliver_shift}"
+)
 
-print(f'our music shift transformed to Mpc coordinates: {xshift / ncoarse * 100}')
+print(f"our music shift transformed to Mpc coordinates: {xshift / ncoarse * 100}")
 
 
 xshift_in_mpc = np.array([-4.6875, 0, -9.375])
-#according to music output:
+# according to music output:
 highres_region_centre = np.array([0.566187, 0.517375, 0.612728]) * 100
 
 shifted_highres_centre = highres_region_centre + xshift_in_mpc
 
-print(f'our music shift applied to our calculated highresregion centre: {shifted_highres_centre}')
+print(
+    f"our music shift applied to our calculated highresregion centre: {shifted_highres_centre}"
+)
 # print(f'adrians shift applied to our calculated highresregion centre: {shifted_highres_centre}')
 
-print(f'difference between our calculated centre and the actual centre of the box: {desired_box_centre * 100 - shifted_highres_centre}')
+print(
+    f"difference between our calculated centre and the actual centre of the box: {desired_box_centre * 100 - shifted_highres_centre}"
+)
 
-h_adrian = 0.6777 #according to cosmICweb for the EAGLE sim
+h_adrian = 0.6777  # according to cosmICweb for the EAGLE sim
 
 centre_adrian = np.array([56.50153741810241, 49.40761085700951, 49.634393647291695])
 centre_music = np.array([58.25576087992683, 51.34632916228137, 51.68749302578122])
 
-original_centre_in_adrians_zoom = np.array([4.367988,1.307087,7.743252]) / h_adrian
+original_centre_in_adrians_zoom = np.array([4.367988, 1.307087, 7.743252]) / h_adrian
 
-print(f'shift from original to his zooms according to adrian: {original_centre_in_adrians_zoom}')
+print(
+    f"shift from original to his zooms according to adrian: {original_centre_in_adrians_zoom}"
+)
 
-print(f'shift from our centre to adrians: {centre_adrian - centre_music}')
+print(f"shift from our centre to adrians: {centre_adrian - centre_music}")
 
 original_centre_from_our_total_shift = xshift_in_mpc + (centre_adrian - centre_music)
 
-#addition b/c they are in different directions, should cancel each other out
-print(f'difference between adrians shift and our corrected shift: {original_centre_in_adrians_zoom + original_centre_from_our_total_shift}') 
+# addition b/c they are in different directions, should cancel each other out
+print(
+    f"difference between adrians shift and our corrected shift: {original_centre_in_adrians_zoom + original_centre_from_our_total_shift}"
+)