def current_loans_results(): mform = cl_form(request.form) if request.method == 'GET': mform = app.cl_form bool_vals = {'use_A':'A','use_B':'B','use_C':'C','use_D':'D', 'use_E':'E','use_F':'F'} constraints = {} constraints['use_grades'] = [bool_vals[key] for key in bool_vals.keys() \ if mform.data[key]] constraints['max_dp'] = mform.data['max_dp'] allowed_loans = predictions[(predictions.dp <= constraints['max_dp']) & \ (predictions.grades.isin(constraints['use_grades']))] pick_K = min([mform.data['port_size'], len(allowed_loans)]) loan_ids_string = ', '.join(allowed_loans[:pick_K]['ids'].values.astype(str)) fig = LCP.make_dp_ret_figure(predictions, pick_K, allowed_loans) plt.savefig(fig_dir + 'cl_dp_ret.png', dpi=500, format='png') plt.close() if pick_K > 0: fig = LCP.make_return_dist_fig(sim_lookup, allowed_loans, pick_K) plt.savefig(fig_dir + 'cl_ret_dist.png', dpi=500, format='png') plt.close() return render_template('current_loan_results.html', cl_form=mform, pick_K=pick_K, rnum=np.random.randint(0,100000), loan_ids=loan_ids_string)
def current_loans_results(): mform = cl_form(request.form) if request.method == 'GET': mform = app.cl_form bool_vals = { 'use_A': 'A', 'use_B': 'B', 'use_C': 'C', 'use_D': 'D', 'use_E': 'E', 'use_F': 'F' } constraints = {} constraints['use_grades'] = [bool_vals[key] for key in bool_vals.keys() \ if mform.data[key]] constraints['max_dp'] = mform.data['max_dp'] allowed_loans = predictions[(predictions.dp <= constraints['max_dp']) & \ (predictions.grades.isin(constraints['use_grades']))] pick_K = min([mform.data['port_size'], len(allowed_loans)]) loan_ids_string = ', '.join( allowed_loans[:pick_K]['ids'].values.astype(str)) fig = LCP.make_dp_ret_figure(predictions, pick_K, allowed_loans) plt.savefig(fig_dir + 'cl_dp_ret.png', dpi=500, format='png') plt.close() if pick_K > 0: fig = LCP.make_return_dist_fig(sim_lookup, allowed_loans, pick_K) plt.savefig(fig_dir + 'cl_ret_dist.png', dpi=500, format='png') plt.close() return render_template('current_loan_results.html', cl_form=mform, pick_K=pick_K, rnum=np.random.randint(0, 100000), loan_ids=loan_ids_string)
def current_loans(): global predictions, load_time cur_time = time.time() if (cur_time - load_time) > refresh_loan_time: load_time = cur_time print('Grabbing loan data at {}'.format(load_time)) predictions = LCP.get_LC_loans(auth_keys['LC_auth_key'], model_data, zip3_loc_data, use_grades) mform = cl_form(request.form) if request.method == 'POST': app.cl_form = mform return redirect('/current_loans_results') else: fig = LCP.make_dp_ret_figure(predictions, 0, predictions) plt.savefig(fig_dir + 'cl_dp_ret.png', dpi=500, format='png') plt.close() return render_template('current_loans.html', cl_form=mform, rnum=np.random.randint(0,100000), tot_loans=len(predictions))
def current_loans(): global predictions, load_time cur_time = time.time() if (cur_time - load_time) > refresh_loan_time: load_time = cur_time print('Grabbing loan data at {}'.format(load_time)) predictions = LCP.get_LC_loans(auth_keys['LC_auth_key'], model_data, zip3_loc_data, use_grades) mform = cl_form(request.form) if request.method == 'POST': app.cl_form = mform return redirect('/current_loans_results') else: fig = LCP.make_dp_ret_figure(predictions, 0, predictions) plt.savefig(fig_dir + 'cl_dp_ret.png', dpi=500, format='png') plt.close() return render_template('current_loans.html', cl_form=mform, rnum=np.random.randint(0, 100000), tot_loans=len(predictions))