import base64 import uuid import os import re from openpyxl.chart import PieChart, LineChart, Reference from openpyxl.styles import PatternFill, Border, Side, Alignment, Font from openpyxl.drawing.image import Image from openpyxl import Workbook from openpyxl.chart.label import DataLabelList import openpyxl.utils.cell as format_cell ######################################################################################################################## # PROCEDURES # Step 1: Validate the report data # Step 2: Generate excel file # Step 3: Encode the excel file bytes to Base64 ######################################################################################################################## def export(report, name, reporting_start_datetime_local, reporting_end_datetime_local, period_type): #################################################################################################################### # Step 1: Validate the report data #################################################################################################################### if report is None: return None print(report) #################################################################################################################### # Step 2: Generate excel file from the report data #################################################################################################################### filename = generate_excel(report, name, reporting_start_datetime_local, reporting_end_datetime_local, period_type) #################################################################################################################### # Step 3: Encode the excel file to Base64 #################################################################################################################### binary_file_data = b'' try: with open(filename, 'rb') as binary_file: binary_file_data = binary_file.read() except IOError as ex: pass # Base64 encode the bytes base64_encoded_data = base64.b64encode(binary_file_data) # get the Base64 encoded data using human-readable characters. base64_message = base64_encoded_data.decode('utf-8') # delete the file from server try: os.remove(filename) except NotImplementedError as ex: pass return base64_message def generate_excel(report, name, reporting_start_datetime_local, reporting_end_datetime_local, period_type): wb = Workbook() ws = wb.active ws.title = "SpaceEnergyCategory" # Row height ws.row_dimensions[1].height = 102 for i in range(2, 2000 + 1): ws.row_dimensions[i].height = 42 # Col width ws.column_dimensions['A'].width = 1.5 ws.column_dimensions['B'].width = 25.0 for i in range(ord('C'), ord('L')): ws.column_dimensions[chr(i)].width = 15.0 # Font name_font = Font(name='Arial', size=15, bold=True) title_font = Font(name='Arial', size=15, bold=True) table_fill = PatternFill(fill_type='solid', fgColor='1F497D') f_border = Border(left=Side(border_style='medium', color='00000000'), right=Side(border_style='medium', color='00000000'), bottom=Side(border_style='medium', color='00000000'), top=Side(border_style='medium', color='00000000') ) b_border = Border( bottom=Side(border_style='medium', color='00000000'), ) b_c_alignment = Alignment(vertical='bottom', horizontal='center', text_rotation=0, wrap_text=True, shrink_to_fit=False, indent=0) c_c_alignment = Alignment(vertical='center', horizontal='center', text_rotation=0, wrap_text=True, shrink_to_fit=False, indent=0) b_r_alignment = Alignment(vertical='bottom', horizontal='right', text_rotation=0, wrap_text=True, shrink_to_fit=False, indent=0) # Img img = Image("excelexporters/myems.png") ws.add_image(img, 'A1') # Title ws['B3'].alignment = b_r_alignment ws['B3'] = 'Name:' ws['C3'].border = b_border ws['C3'].alignment = b_c_alignment ws['C3'] = name ws['D3'].alignment = b_r_alignment ws['D3'] = 'Period:' ws['E3'].border = b_border ws['E3'].alignment = b_c_alignment ws['E3'] = period_type ws['B4'].alignment = b_r_alignment ws['B4'] = 'Reporting Start Datetime:' ws['C4'].border = b_border ws['C4'].alignment = b_c_alignment ws['C4'] = reporting_start_datetime_local ws['D4'].alignment = b_r_alignment ws['D4'] = 'Reporting End Datetime:' ws['E4'].border = b_border ws['E4'].alignment = b_c_alignment ws['E4'] = reporting_end_datetime_local if "reporting_period" not in report.keys() or \ "names" not in report['reporting_period'].keys() or len(report['reporting_period']['names']) == 0: filename = str(uuid.uuid4()) + '.xlsx' wb.save(filename) return filename #################################################################################################################### reporting_period_data = report['reporting_period'] has_energy_data_flag = True if "names" not in reporting_period_data.keys() or \ reporting_period_data['names'] is None or \ len(reporting_period_data['names']) == 0: has_energy_data_flag = False if has_energy_data_flag: ws['B6'].font = title_font ws['B6'] = name + ' ' + 'Reporting Period Consumption' category = reporting_period_data['names'] ca_len = len(category) ws.row_dimensions[7].height = 60 ws['B7'].fill = table_fill ws['B8'].font = title_font ws['B8'].alignment = c_c_alignment ws['B8'] = 'Consumption' ws['B8'].border = f_border ws['B9'].font = title_font ws['B9'].alignment = c_c_alignment ws['B9'] = 'Per Unit Area' ws['B9'].border = f_border ws['B10'].font = title_font ws['B10'].alignment = c_c_alignment ws['B10'] = 'Increment Rate' ws['B10'].border = f_border col = 'B' for i in range(0, ca_len): col = chr(ord('C') + i) ws[col + '7'].fill = table_fill ws[col + '7'].font = name_font ws[col + '7'].alignment = c_c_alignment ws[col + '7'] = reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")" ws[col + '7'].border = f_border ws[col + '8'].font = name_font ws[col + '8'].alignment = c_c_alignment ws[col + '8'] = round(reporting_period_data['subtotals'][i], 2) ws[col + '8'].border = f_border ws[col + '9'].font = name_font ws[col + '9'].alignment = c_c_alignment ws[col + '9'] = round(reporting_period_data['subtotals_per_unit_area'][i], 2) \ if reporting_period_data['subtotals_per_unit_area'][i] is not None else '' ws[col + '9'].border = f_border ws[col + '10'].font = name_font ws[col + '10'].alignment = c_c_alignment ws[col + '10'] = str(round(reporting_period_data['increment_rates'][i] * 100, 2)) + "%" \ if reporting_period_data['increment_rates'][i] is not None else '' ws[col + '10'].border = f_border # TCE TCO2E end_col = col # TCE tce_col = chr(ord(end_col) + 1) ws[tce_col + '7'].fill = table_fill ws[tce_col + '7'].font = name_font ws[tce_col + '7'].alignment = c_c_alignment ws[tce_col + '7'] = 'Ton of Standard Coal (TCE)' ws[tce_col + '7'].border = f_border ws[tce_col + '8'].font = name_font ws[tce_col + '8'].alignment = c_c_alignment ws[tce_col + '8'] = round(reporting_period_data['total_in_kgce'] / 1000, 2) ws[tce_col + '8'].border = f_border ws[tce_col + '9'].font = name_font ws[tce_col + '9'].alignment = c_c_alignment ws[tce_col + '9'] = round(reporting_period_data['total_in_kgce_per_unit_area'] / 1000, 2) \ if reporting_period_data['total_in_kgce_per_unit_area'] is not None else '' ws[tce_col + '9'].border = f_border ws[tce_col + '10'].font = name_font ws[tce_col + '10'].alignment = c_c_alignment ws[tce_col + '10'] = str(round(reporting_period_data['increment_rate_in_kgce'] * 100, 2)) + "%" \ if reporting_period_data['increment_rate_in_kgce'] is not None else '' ws[tce_col + '10'].border = f_border # TCO2E tco2e_col = chr(ord(end_col) + 2) ws[tco2e_col + '7'].fill = table_fill ws[tco2e_col + '7'].font = name_font ws[tco2e_col + '7'].alignment = c_c_alignment ws[tco2e_col + '7'] = 'Ton of Carbon Dioxide Emissions (TCO2E)' ws[tco2e_col + '7'].border = f_border ws[tco2e_col + '8'].font = name_font ws[tco2e_col + '8'].alignment = c_c_alignment ws[tco2e_col + '8'] = round(reporting_period_data['total_in_kgco2e'] / 1000, 2) ws[tco2e_col + '8'].border = f_border ws[tco2e_col + '9'].font = name_font ws[tco2e_col + '9'].alignment = c_c_alignment ws[tco2e_col + '9'] = round(reporting_period_data['total_in_kgco2e_per_unit_area'] / 1000, 2) \ if reporting_period_data['total_in_kgco2e_per_unit_area'] is not None else '' ws[tco2e_col + '9'].border = f_border ws[tco2e_col + '10'].font = name_font ws[tco2e_col + '10'].alignment = c_c_alignment ws[tco2e_col + '10'] = str(round(reporting_period_data['increment_rate_in_kgco2e'] * 100, 2)) + "%" \ if reporting_period_data['increment_rate_in_kgco2e'] is not None else '' ws[tco2e_col + '10'].border = f_border else: for i in range(6, 10 + 1): ws.row_dimensions[i].height = 0.1 #################################################################################################################### has_ele_peak_flag = True if "toppeaks" not in reporting_period_data.keys() or \ reporting_period_data['toppeaks'] is None or \ len(reporting_period_data['toppeaks']) == 0: has_ele_peak_flag = False if has_ele_peak_flag: ws['B12'].font = title_font ws['B12'] = name + ' ' + 'Electricity Consumption by Time-Of-Use' ws['B13'].fill = table_fill ws['B13'].font = name_font ws['B13'].alignment = c_c_alignment ws['B13'].border = f_border ws['C13'].fill = table_fill ws['C13'].font = name_font ws['C13'].alignment = c_c_alignment ws['C13'].border = f_border ws['C13'] = 'Electricity Consumption by Time-Of-Use' ws['B14'].font = title_font ws['B14'].alignment = c_c_alignment ws['B14'] = 'TopPeak' ws['B14'].border = f_border ws['C14'].font = title_font ws['C14'].alignment = c_c_alignment ws['C14'].border = f_border ws['C14'] = round(reporting_period_data['toppeaks'][0], 2) ws['B15'].font = title_font ws['B15'].alignment = c_c_alignment ws['B15'] = 'OnPeak' ws['B15'].border = f_border ws['C15'].font = title_font ws['C15'].alignment = c_c_alignment ws['C15'].border = f_border ws['C15'] = round(reporting_period_data['onpeaks'][0], 2) ws['B16'].font = title_font ws['B16'].alignment = c_c_alignment ws['B16'] = 'MidPeak' ws['B16'].border = f_border ws['C16'].font = title_font ws['C16'].alignment = c_c_alignment ws['C16'].border = f_border ws['C16'] = round(reporting_period_data['midpeaks'][0], 2) ws['B17'].font = title_font ws['B17'].alignment = c_c_alignment ws['B17'] = 'OffPeak' ws['B17'].border = f_border ws['C17'].font = title_font ws['C17'].alignment = c_c_alignment ws['C17'].border = f_border ws['C17'] = round(reporting_period_data['offpeaks'][0], 2) pie = PieChart() pie.title = name + ' ' + 'Electricity Consumption by Time-Of-Use' labels = Reference(ws, min_col=2, min_row=14, max_row=17) pie_data = Reference(ws, min_col=3, min_row=13, max_row=17) pie.add_data(pie_data, titles_from_data=True) pie.set_categories(labels) pie.height = 6.6 pie.width = 9 s1 = pie.series[0] s1.dLbls = DataLabelList() s1.dLbls.showCatName = False s1.dLbls.showVal = True s1.dLbls.showPercent = True ws.add_chart(pie, "D13") else: for i in range(12, 18 + 1): ws.row_dimensions[i].height = 0.1 #################################################################################################################### current_row_number = 19 has_kgce_data_flag = True if "subtotals_in_kgce" not in reporting_period_data.keys() or \ reporting_period_data['subtotals_in_kgce'] is None or \ len(reporting_period_data['subtotals_in_kgce']) == 0: has_kgce_data_flag = False if has_kgce_data_flag: ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)] = name + ' ' + 'Ton of Standard Coal(TCE) by Energy Category' current_row_number += 1 table_start_row_number = current_row_number ws.row_dimensions[current_row_number].height = 60 ws['B' + str(current_row_number)].fill = table_fill ws['B' + str(current_row_number)].font = name_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)].fill = table_fill ws['C' + str(current_row_number)].font = name_font ws['C' + str(current_row_number)].alignment = c_c_alignment ws['C' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)] = 'Ton of Standard Coal(TCE) by Energy Category' current_row_number += 1 ca_len = len(reporting_period_data['names']) for i in range(0, ca_len): ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)] = reporting_period_data['names'][i] ws['B' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)].font = title_font ws['C' + str(current_row_number)].alignment = c_c_alignment ws['C' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)] = round(reporting_period_data['subtotals_in_kgce'][i] / 1000, 3) current_row_number += 1 table_end_row_number = current_row_number - 1 pie = PieChart() pie.title = name + ' ' + ws.cell(column=3, row=table_start_row_number).value labels = Reference(ws, min_col=2, min_row=table_start_row_number+1, max_row=table_end_row_number) pie_data = Reference(ws, min_col=3, min_row=table_start_row_number, max_row=table_end_row_number) pie.add_data(pie_data, titles_from_data=True) pie.set_categories(labels) pie.height = 7.25 pie.width = 9 s1 = pie.series[0] s1.dLbls = DataLabelList() s1.dLbls.showCatName = False s1.dLbls.showVal = True s1.dLbls.showPercent = True table_cell = 'D' + str(table_start_row_number) ws.add_chart(pie, table_cell) if ca_len < 4: current_row_number = current_row_number - ca_len + 4 current_row_number += 1 #################################################################################################################### has_kgco2e_data_flag = True if "subtotals_in_kgco2e" not in reporting_period_data.keys() or \ reporting_period_data['subtotals_in_kgco2e'] is None or \ len(reporting_period_data['subtotals_in_kgco2e']) == 0: has_kgco2e_data_flag = False if has_kgco2e_data_flag: ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)] = name + ' ' + 'Ton of Carbon Dioxide Emissions(TCO2E) by Energy Category' current_row_number += 1 table_start_row_number = current_row_number ws.row_dimensions[current_row_number].height = 75 ws['B' + str(current_row_number)].fill = table_fill ws['B' + str(current_row_number)].font = name_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)].fill = table_fill ws['C' + str(current_row_number)].font = name_font ws['C' + str(current_row_number)].alignment = c_c_alignment ws['C' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)] = 'Ton of Carbon Dioxide Emissions(TCO2E) by Energy Category' current_row_number += 1 ca_len = len(reporting_period_data['names']) for i in range(0, ca_len): ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)] = reporting_period_data['names'][i] ws['B' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)].font = title_font ws['C' + str(current_row_number)].alignment = c_c_alignment ws['C' + str(current_row_number)].border = f_border ws['C' + str(current_row_number)] = round(reporting_period_data['subtotals_in_kgco2e'][i] / 1000, 3) current_row_number += 1 table_end_row_number = current_row_number - 1 pie = PieChart() pie.title = name + ' ' + ws.cell(column=3, row=table_start_row_number).value labels = Reference(ws, min_col=2, min_row=table_start_row_number + 1, max_row=table_end_row_number) pie_data = Reference(ws, min_col=3, min_row=table_start_row_number, max_row=table_end_row_number) pie.add_data(pie_data, titles_from_data=True) pie.set_categories(labels) pie.height = 7.75 pie.width = 9 s1 = pie.series[0] s1.dLbls = DataLabelList() s1.dLbls.showCatName = False s1.dLbls.showVal = True s1.dLbls.showPercent = True table_cell = 'D' + str(table_start_row_number) ws.add_chart(pie, table_cell) if ca_len < 4: current_row_number = current_row_number - ca_len + 4 current_row_number += 1 ############################################### has_child_flag = True if "child_space" not in report.keys() or "energy_category_names" not in report['child_space'].keys() or \ len(report['child_space']["energy_category_names"]) == 0 \ or 'child_space_names_array' not in report['child_space'].keys() \ or report['child_space']['energy_category_names'] is None \ or len(report['child_space']['child_space_names_array']) == 0 \ or len(report['child_space']['child_space_names_array'][0]) == 0: has_child_flag = False if has_child_flag: child = report['child_space'] ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)] = name + ' ' + 'Child Spaces Data' current_row_number += 1 table_start_row_number = current_row_number chart_start_row_number = current_row_number ws.row_dimensions[current_row_number].height = 60 ws['B' + str(current_row_number)].fill = table_fill ws['B' + str(current_row_number)].font = name_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)].border = f_border ws['B' + str(current_row_number)] = 'Child Space' ca_len = len(child['energy_category_names']) col = '' for i in range(0, ca_len): col = chr(ord('C') + i) ws[col + str(current_row_number)].fill = table_fill ws[col + str(current_row_number)].font = name_font ws[col + str(current_row_number)].alignment = c_c_alignment ws[col + str(current_row_number)].border = f_border ws[col + str(current_row_number)] = child['energy_category_names'][i] + ' ' + '(' + child['units'][i] + ')' space_len = len(child['child_space_names_array'][0]) for i in range(0, space_len): current_row_number += 1 row = str(current_row_number) ws['B' + row].font = title_font ws['B' + row].alignment = c_c_alignment ws['B' + row] = child['child_space_names_array'][0][i] ws['B' + row].border = f_border col = '' for j in range(0, ca_len): col = chr(ord('C') + j) ws[col + row].font = name_font ws[col + row].alignment = c_c_alignment ws[col + row] = round(child['subtotals_array'][j][i], 2) ws[col + row].border = f_border table_end_row_number = current_row_number current_row_number += 1 _col = ord(col) + 1 # Pie for i in range(0, ca_len): pie = PieChart() labels = Reference(ws, min_col=2, min_row=table_start_row_number + 1, max_row=table_end_row_number) pie_data = Reference(ws, min_col=3 + i, min_row=table_start_row_number, max_row=table_end_row_number) pie.add_data(pie_data, titles_from_data=True) pie.set_categories(labels) pie.height = 6.6 pie.width = 8 pie.title = ws.cell(column=3 + i, row=table_start_row_number).value s1 = pie.series[0] s1.dLbls = DataLabelList() s1.dLbls.showCatName = False s1.dLbls.showVal = True s1.dLbls.showPercent = True char_col = chr(_col + i*2) chart_cell = char_col + str(chart_start_row_number) ws.add_chart(pie, chart_cell) current_row_number += 1 #################################################################################################################### has_detail_data_flag = True table_start_draw_flag = current_row_number + 1 if "timestamps" not in reporting_period_data.keys() or \ reporting_period_data['timestamps'] is None or \ len(reporting_period_data['timestamps']) == 0: has_detail_data_flag = False if has_detail_data_flag: reporting_period_data = report['reporting_period'] times = reporting_period_data['timestamps'] ca_len = len(report['reporting_period']['names']) real_timestamps_len = timestamps_data_not_equal_0(report['parameters']['timestamps']) ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)] = name + ' ' + 'Detailed Data' table_start_row_number = (current_row_number + 2) + ca_len * 6 + real_timestamps_len * 7 current_row_number = table_start_row_number time = times[0] has_data = False if len(time) > 0: has_data = True if has_data: ws.row_dimensions[current_row_number].height = 60 ws['B' + str(current_row_number)].fill = table_fill ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)].border = f_border ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)] = 'Datetime' for i in range(0, ca_len): col = chr(ord('C') + i) ws[col + str(current_row_number)].fill = table_fill ws[col + str(current_row_number)].font = title_font ws[col + str(current_row_number)].alignment = c_c_alignment ws[col + str(current_row_number)] = reporting_period_data['names'][i] + \ " (" + reporting_period_data['units'][i] + ")" ws[col + str(current_row_number)].border = f_border current_row_number += 1 for i in range(0, len(time)): ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)] = time[i] ws['B' + str(current_row_number)].border = f_border for j in range(0, ca_len): col = chr(ord('C') + j) ws[col + str(current_row_number)].font = title_font ws[col + str(current_row_number)].alignment = c_c_alignment ws[col + str(current_row_number)] = round(reporting_period_data['values'][j][i], 2) ws[col + str(current_row_number)].border = f_border current_row_number += 1 table_end_row_number = current_row_number - 1 ws['B' + str(current_row_number)].font = title_font ws['B' + str(current_row_number)].alignment = c_c_alignment ws['B' + str(current_row_number)] = 'Subtotal' ws['B' + str(current_row_number)].border = f_border for i in range(0, ca_len): col = chr(ord('C') + i) ws[col + str(current_row_number)].font = title_font ws[col + str(current_row_number)].alignment = c_c_alignment ws[col + str(current_row_number)] = round(reporting_period_data['subtotals'][i], 2) ws[col + str(current_row_number)].border = f_border # line line = LineChart() line.title = 'Reporting Period Consumption - ' + ws.cell(column=3+i, row=table_start_row_number).value labels = Reference(ws, min_col=2, min_row=table_start_row_number + 1, max_row=table_end_row_number) line_data = Reference(ws, min_col=3 + i, min_row=table_start_row_number, max_row=table_end_row_number) line.add_data(line_data, titles_from_data=True) line.set_categories(labels) line_data = line.series[0] line_data.marker.symbol = "circle" line_data.smooth = True line.x_axis.crosses = 'min' line.height = 8.25 line.width = 24 line.dLbls = DataLabelList() line.dLbls.dLblPos = 't' line.dLbls.showVal = True line.dLbls.showPercent = False chart_col = 'B' chart_cell = chart_col + str(table_start_draw_flag + 6 * i) ws.add_chart(line, chart_cell) current_row_number += 2 #################################################################################################################### current_sheet_parameters_row_number = table_start_draw_flag + ca_len * 6 + 1 has_parameters_names_and_timestamps_and_values_data = True if 'parameters' not in report.keys() or \ report['parameters'] is None or \ 'names' not in report['parameters'].keys() or \ report['parameters']['names'] is None or \ len(report['parameters']['names']) == 0 or \ 'timestamps' not in report['parameters'].keys() or \ report['parameters']['timestamps'] is None or \ len(report['parameters']['timestamps']) == 0 or \ 'values' not in report['parameters'].keys() or \ report['parameters']['values'] is None or \ len(report['parameters']['values']) == 0 or \ timestamps_data_all_equal_0(report['parameters']['timestamps']): has_parameters_names_and_timestamps_and_values_data = False if has_parameters_names_and_timestamps_and_values_data: ############################### # new worksheet ############################### parameters_data = report['parameters'] parameters_names_len = len(parameters_data['names']) file_name = "Space"+re.sub(r'[^A-Z]', '', ws.title.strip('S')) + "_" parameters_ws = wb.create_sheet(file_name + 'Parameters') parameters_timestamps_data_max_len = \ get_parameters_timestamps_lists_max_len(list(parameters_data['timestamps'])) # Row height parameters_ws.row_dimensions[1].height = 102 for i in range(2, 7 + 1): parameters_ws.row_dimensions[i].height = 42 for i in range(8, parameters_timestamps_data_max_len + 10): parameters_ws.row_dimensions[i].height = 60 # Col width parameters_ws.column_dimensions['A'].width = 1.5 parameters_ws.column_dimensions['B'].width = 25.0 for i in range(3, 12 + parameters_names_len * 3): parameters_ws.column_dimensions[format_cell.get_column_letter(i)].width = 15.0 # Img img = Image("excelexporters/myems.png") parameters_ws.add_image(img, 'A1') # Title parameters_ws['B3'].alignment = b_r_alignment parameters_ws['B3'] = 'Name:' parameters_ws['C3'].border = b_border parameters_ws['C3'].alignment = b_c_alignment parameters_ws['C3'] = name parameters_ws['D3'].alignment = b_r_alignment parameters_ws['D3'] = 'Period:' parameters_ws['E3'].border = b_border parameters_ws['E3'].alignment = b_c_alignment parameters_ws['E3'] = period_type parameters_ws['B4'].alignment = b_r_alignment parameters_ws['B4'] = 'Reporting Start Datetime:' parameters_ws['C4'].border = b_border parameters_ws['C4'].alignment = b_c_alignment parameters_ws['C4'] = reporting_start_datetime_local parameters_ws['D4'].alignment = b_r_alignment parameters_ws['D4'] = 'Reporting End Datetime:' parameters_ws['E4'].border = b_border parameters_ws['E4'].alignment = b_c_alignment parameters_ws['E4'] = reporting_end_datetime_local parameters_ws_current_row_number = 6 parameters_ws['B' + str(parameters_ws_current_row_number)].font = title_font parameters_ws['B' + str(parameters_ws_current_row_number)] = name + ' ' + 'Parameters' parameters_ws_current_row_number += 1 parameters_table_start_row_number = parameters_ws_current_row_number parameters_ws.row_dimensions[parameters_ws_current_row_number].height = 80 parameters_ws_current_row_number += 1 table_current_col_number = 2 for i in range(0, parameters_names_len): if len(parameters_data['timestamps'][i]) == 0: continue col = format_cell.get_column_letter(table_current_col_number) parameters_ws[col + str(parameters_ws_current_row_number - 1)].fill = table_fill parameters_ws[col + str(parameters_ws_current_row_number - 1)].border = f_border col = format_cell.get_column_letter(table_current_col_number + 1) parameters_ws[col + str(parameters_ws_current_row_number - 1)].fill = table_fill parameters_ws[col + str(parameters_ws_current_row_number - 1)].border = f_border parameters_ws[col + str(parameters_ws_current_row_number - 1)].font = name_font parameters_ws[col + str(parameters_ws_current_row_number - 1)].alignment = c_c_alignment parameters_ws[col + str(parameters_ws_current_row_number - 1)] = parameters_data['names'][i] table_current_row_number = parameters_ws_current_row_number for j, value in enumerate(list(parameters_data['timestamps'][i])): col = format_cell.get_column_letter(table_current_col_number) parameters_ws[col + str(table_current_row_number)].border = f_border parameters_ws[col + str(table_current_row_number)].font = title_font parameters_ws[col + str(table_current_row_number)].alignment = c_c_alignment parameters_ws[col + str(table_current_row_number)] = value col = format_cell.get_column_letter(table_current_col_number + 1) parameters_ws[col + str(table_current_row_number)].border = f_border parameters_ws[col + str(table_current_row_number)].font = title_font parameters_ws[col + str(table_current_row_number)].alignment = c_c_alignment parameters_ws[col + str(table_current_row_number)] = round(parameters_data['values'][i][j], 2) table_current_row_number += 1 table_current_col_number = table_current_col_number + 3 ################################################################################################################ # parameters chart and parameters table ################################################################################################################ ws['B' + str(current_sheet_parameters_row_number)].font = title_font ws['B' + str(current_sheet_parameters_row_number)] = name + ' ' + 'Parameters' current_sheet_parameters_row_number += 1 chart_start_row_number = current_sheet_parameters_row_number col_index = 0 for i in range(0, parameters_names_len): if len(parameters_data['timestamps'][i]) == 0: continue line = LineChart() data_col = 3 + col_index * 3 labels_col = 2 + col_index * 3 col_index += 1 line.title = 'Parameters - ' + \ parameters_ws.cell(row=parameters_table_start_row_number, column=data_col).value labels = Reference(parameters_ws, min_col=labels_col, min_row=parameters_table_start_row_number + 1, max_row=(len(parameters_data['timestamps'][i]) + parameters_table_start_row_number)) line_data = Reference(parameters_ws, min_col=data_col, min_row=parameters_table_start_row_number, max_row=(len(parameters_data['timestamps'][i]) + parameters_table_start_row_number)) line.add_data(line_data, titles_from_data=True) line.set_categories(labels) line_data = line.series[0] line_data.marker.symbol = "circle" line_data.smooth = True line.x_axis.crosses = 'min' line.height = 8.25 line.width = 24 line.dLbls = DataLabelList() line.dLbls.dLblPos = 't' line.dLbls.showVal = False line.dLbls.showPercent = False chart_col = 'B' chart_cell = chart_col + str(chart_start_row_number) chart_start_row_number += 6 ws.add_chart(line, chart_cell) current_sheet_parameters_row_number = chart_start_row_number current_sheet_parameters_row_number += 1 #################################################################################################################### filename = str(uuid.uuid4()) + '.xlsx' wb.save(filename) return filename def timestamps_data_all_equal_0(lists): for i, value in enumerate(list(lists)): if len(value) > 0: return False return True def get_parameters_timestamps_lists_max_len(parameters_timestamps_lists): max_len = 0 for i, value in enumerate(list(parameters_timestamps_lists)): if len(value) > max_len: max_len = len(value) return max_len def timestamps_data_not_equal_0(lists): number = 0 for i, value in enumerate(list(lists)): if len(value) > 0: number += 1 return number