def main(): out_file = 'out_waxml.aida' writer = inlib.waxml_file() if writer.open(out_file) == False: print("can't open " + out_file) return EXIT_FAILURE entries = 1000000 rg = inlib.rgaussd(1, 2) h = inlib.histo_h1d('Gauss', 100, -5, 5) for count in range(0, entries): h.fill(rg.shoot(), 1.4) if writer.write(h, '/histo', 'rg') == False: print("can't write h1d.") return EXIT_FAILURE del rg, h, count rg = inlib.rgaussd(1, 2) rbw = inlib.rbwd(0, 1) h = inlib.histo_p1d('Profile', 100, -5, 5, -2, 2) for count in range(0, entries): h.fill(rg.shoot(), rbw.shoot(), 1) if writer.write(h, '/histo', 'prof') == False: print("can't write prof.") return EXIT_FAILURE del rg, rbw, h, count rg = inlib.rgaussd(1, 2) rbw = inlib.rbwd(0, 1) h = inlib.histo_h2d('Gauss_BW', 20, -5, 5, 20, -2, 2) for count in range(0, entries): h.fill(rg.shoot(), rbw.shoot(), 0.8) if writer.write(h, '/histo', 'rgbw') == False: print("can't write h2d.") return EXIT_FAILURE del rg, rbw, h, count writer.close() del writer return EXIT_SUCCESS
#////////////////////////////////////////// #/// same as inlib/exa/hrand ////////////// #////////////////////////////////////////// #////////////////////////////////////////// #////////////////////////////////////////// #////////////////////////////////////////// import inlib h1 = inlib.histo_h1d('The famous normal distribution', 100, -5, 5) r = inlib.rgaussd(0, 1) for I in range(0, 10000): h1.fill(r.shoot(), 1) #print h1.entries(),h.mean(),h.rms() h2 = inlib.histo_h2d('Gauss_BW', 100, -5, 5, 100, -2, 2) rg = inlib.rgaussd(1, 2) rbw = inlib.rbwd(0, 1) for I in range(0, 10000): h2.fill(rg.shoot(), rbw.shoot(), 1) #////////////////////////////////////////////////////////// #/// plotting : /////////////////////////////////////////// #////////////////////////////////////////////////////////// import exlib_sg_view_Python as vp viewer = inlib.cast_viewer(vp.get_viewer_string_pointer()) gv = inlib.cast_gui_viewer(viewer)
# Copyright (C) 2010, Guy Barrand. All rights reserved. # See the file exlib.license for terms. import inlib h = inlib.histo_h1d('Rand gauss',100,-5,5) r = inlib.rgaussd(0,1) for I in range(0,10000): h.fill(r.shoot(),1) print(h.entries());print(h.mean());print(h.rms()) del r del h