pcOpacP = 0.5 if (Quiet): LaunchNowin() else: Launch() OpenDatabase(fIn) md = GetMetaData(fIn) #Metadata #Import definitions pyv.lfmExprsEB() #Start plotting pyv.setAtts() #Some defaults Nphi = len(PhiCs) radScl = np.pi / 180.0 #Create points for k in range(Nphi): PhiC = PhiCs[k] LatC = LatCs[k] fOut = "Slc.P%d.png" % np.int(PhiC) #Generate seed points Cp = np.cos(PhiC * radScl) Sp = np.sin(PhiC * radScl) ThCp = 90 - LatC #Critical latitudes in theta
w3d.windowValid = 0 else: #Doing H+ w3d.viewNormal = (0.973617, 0.0921289, 0.208763) w3d.focus = (-1.025, 0, 0.00223994) w3d.viewUp = (-0.209201, -0.00498575, 0.97786) w3d.viewAngle = 30 w3d.parallelScale = 25.6503 w3d.nearPlane = -51.3007 w3d.farPlane = 51.3007 w3d.imagePan = (-0.0645008, 0.0175247) w3d.imageZoom = 3.7975 w3d.perspective = 1 w3d.eyeAngle = 2 w3d.centerOfRotationSet = 0 w3d.centerOfRotation = (-1.025, 0, 0.00223994) w3d.axis3DScaleFlag = 0 w3d.axis3DScales = (1, 1, 1) w3d.shear = (0, 0, 1) w3d.windowValid = 1 SetView3D(w3d) DrawPlots() #pyv.cleanLegends(plXs,plYs,plTits) pyv.setAtts() SaveWindow() if (not Quiet): OpenGUI()
v.imageZoom = 1.0 SetView3D(v) light = LightAttributes() light.type = 1 # object light.direction = (0, -0.75, -1) light.brightness = 0.3 SetLight(1, light) pyv.genPolarCoords2(dbs[2], 2, 10, 45, contours=True) speciesStr = "Species: " + species pyv.genTit(t**S=speciesStr, Pos=(0.7, 0.86), height=0.02) pyv.genTit(t**S="Energies: All", Pos=(0.7, 0.89), height=0.02) tit = pyv.genTit(t**S=title, Pos=(0.25, 0.955)) pyv.cleanLegends(plXs, plYs, plTits, plHt=0.015) pyv.setAtts(pWidth=1000, VidDir=tmpvid) DrawPlots() md = GetMetaData(dbs[2]) dt = md.times[1] - md.times[0] pyv.doTimeLoop(Ninit=0, Nfin=None, T0=T0, dt=dt, Save=True, tLabPos=(0.35, 0.05)) outVid = "vid_r_phi_mag_" + varNames[vi] + "_all.mp4" pyv.makeVid(outVid=outVid, vidDir=tmpvid, overwrite=True)