def create_team_sheet(xlsx_workbook, team_name):
blank_team_sheet = xlsx_workbook.get_sheet_by_name('Team Sheet')
decision_sheet = xlsx_workbook.get_sheet_by_name('Decision Sheet')
# find an opening in the decision sheet for this team's data
dest_cell = '%s1' % get_column_letter( decision_sheet.max_column+1)
team_sheet = xlsx_workbook.copy_worksheet(blank_team_sheet)
team_sheet.title = team_name
team_sheet['A1'] = team_name
# Define start Range(target_start) in the new Worksheet
min_col, min_row, max_col, max_row = range_boundaries(dest_cell)
source_range = 'D1:E30'
for row, row_cells in enumerate(decision_sheet[source_range], min_row):
for column, cell in enumerate(row_cells, min_col):
cell_value = cell.value
if cell_value is not None:
cell_value = cell_value.replace('Team 1', team_name)
cell_value = cell_value.replace('Team Sheet', team_name)
if cell_value.startswith('=PRODUCT'):
frags = cell_value.split(',')
frags[1] = frags[1].replace('D', get_column_letter(column-1))
cell_value = ','.join(frags)
if cell_value.startswith('=SUM'):
cell_value = cell_value.replace('E', get_column_letter(column) )
decision_sheet.cell(row=row, column=column).value = cell_value
decision_sheet.cell(row=row, column=column).fill = copy(cell.fill)
return team_sheet
def set_number_format( _worksheet, _table_begin_cell, _table_end_cell, _number_formats, _has_header = False ):
begin_column = _worksheet[_table_begin_cell].column
begin_column_index = column_index_from_string(begin_column)
begin_row = _worksheet[_table_begin_cell].row
end_column = _worksheet[_table_end_cell].column
end_column_index = column_index_from_string(end_column)
end_row = _worksheet[_table_end_cell].row
# print("begin: " + begin_column + ", index: " + str(begin_column_index) + ", row: " + str(begin_row))
# print("end: " + end_column + ", index: " + str(end_column_index) + ", row: " + str(end_row))
styling_header = _has_header
styling_first_table_row = True
styling_index = 0
styling_max_column = end_column_index - begin_column_index
for table_row in range(begin_row, end_row+1):
if styling_header:
styling_header = False
continue
for table_col in range(begin_column_index, end_column_index+1):
cell = _worksheet.cell(column=table_col, row=table_row)
cell.number_format = _number_formats[get_column_letter(table_col)]
def _getExcelCellName(col, row):
"""Returns the excel cell name for a row and column (zero-indexed)
>>> _getExcelCellName(0,0)
'A1'
>>> _getExcelCellName(2,1)
'C2'
"""
# BEWARE - openpyxl uses indexing at 1, to fit with Excel
return "%s%i" % (get_column_letter(col + 1), row + 1)
def set_col_widths(self):
from openpyxl.utils.cell import get_column_letter
from openpyxl.cell import Cell
TYPE_STRING = Cell.TYPE_STRING
for idx, width in sorted(self._col_widths.iteritems()):
letter = get_column_letter(idx + 1)
self.sheet.column_dimensions[letter].width = 1 + min(width, 50)
for row in self._rows:
values = []
for val in row:
if val:
value = val.value
cell = Cell(self.sheet, column='A', row=1)
if isinstance(value, basestring):
cell.set_explicit_value(value, data_type=TYPE_STRING)
else:
cell.value = value
cell.style = val.style
else:
cell = val
values.append(cell)
self.sheet.append(values)
self._rows[:] = ()
def get_cell_value(self, row, col):
col_letter = get_column_letter(col)
return self.ws[str(col_letter) + str(row)].value
def set_column_width(self, dimension_width_list):
col=1
for col_width in dimension_width_list:
if col_width is not None:
self.ws.column_dimensions[get_column_letter(col)].width = col_width
col+=1
print(excel_file.sheetnames)
excel_file.remove(excel_file["Sheet"])
excel_file.remove(excel_file["Sheet"])
sheet1 = excel_file.create_sheet(index=0, title="Column")
sheet2 = excel_file.create_sheet(index=0, title="매출표")
print(excel_file.sheetnames)
for col in sheet1.iter_cols(min_col=1, max_col=6, min_row=1, max_row=3):
for each_cell in col:
each_cell.value = utils.get_column_letter(each_cell.column)
each_cell.alignment = Alignment(horizontal="right", vertical="center")
each_cell.font = Font(
bold=True, name="Arial", size=12, underline="single", color="1bb638"
)
for col in sheet2.iter_cols(min_col=1, max_col=6, min_row=1, max_row=3):
for each_cell in col:
each_cell.value = utils.get_column_letter(each_cell)
each_cell.alignment = Alignment(horizontal="right", vertical="center")
each_cell.font = Font(italic=True, name="Consoras", size=10, color="ff0000")
def generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
ws = wb.active
# 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='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
data_font = Font(name='Franklin Gothic Book', size=11)
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)
c_r_alignment = Alignment(vertical='bottom',
horizontal='center',
text_rotation=0,
wrap_text=True,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
ws.add_image(img, 'B1')
# Title
ws.row_dimensions[3].height = 60
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['D3'].font = name_font
ws['D3'].alignment = b_r_alignment
ws['D3'] = 'Period:'
ws['E3'].border = b_border
ws['E3'].alignment = b_c_alignment
ws['E3'].font = name_font
ws['E3'] = period_type
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws['G3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
ws.merge_cells("G3:H3")
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_cost_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_cost_data_flag = False
if has_cost_data_flag:
ws['B6'].font = title_font
ws['B6'] = name + ' 报告期成本'
category = reporting_period_data['names']
ca_len = len(category)
ws.row_dimensions[7].height = 60
ws['B7'].fill = table_fill
ws['B7'].border = f_border
ws['B8'].font = title_font
ws['B8'].alignment = c_c_alignment
ws['B8'] = '成本'
ws['B8'].border = f_border
ws['B9'].font = title_font
ws['B9'].alignment = c_c_alignment
ws['B9'] = '单位面积值'
ws['B9'].border = f_border
ws['B10'].font = title_font
ws['B10'].alignment = c_c_alignment
ws['B10'] = '环比'
ws['B10'].border = f_border
col = ''
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)
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
col = chr(ord(col) + 1)
ws[col + '7'].fill = table_fill
ws[col + '7'].font = name_font
ws[col + '7'].alignment = c_c_alignment
ws[col + '7'] = "总计 (" + reporting_period_data['total_unit'] + ")"
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['total'], 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['total_per_unit_area'], 2)
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['total_increment_rate'] * 100, 2)) + "%" \
if reporting_period_data['total_increment_rate'] is not None else "-"
ws[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 + ' 分时用电成本'
ws.row_dimensions[13].height = 60
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'] = '分时用电成本'
ws['B14'].font = title_font
ws['B14'].alignment = c_c_alignment
ws['B14'] = '尖'
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'] = '峰'
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'] = '平'
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'] = '谷'
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 + '分时用电成本'
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 = 7.25
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_subtotals_data_flag = True
if 'subtotals' not in reporting_period_data.keys() or \
reporting_period_data['subtotals'] is None:
has_subtotals_data_flag = False
if has_subtotals_data_flag:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' 成本占比'
current_row_number += 1
table_start_row_number = current_row_number
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)] = '成本占比'
current_row_number += 1
category = reporting_period_data['names']
ca_len = len(category)
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] + \
' (' + reporting_period_data['units'][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)] = round(
reporting_period_data['subtotals'][i], 3)
ws['C' + str(current_row_number)].border = f_border
current_row_number += 1
table_end_row_number = current_row_number - 1
pie = PieChart()
pie.title = name + ' 成本占比'
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 = 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, 'D' + str(table_start_row_number))
if ca_len < 4:
current_row_number = current_row_number - ca_len + 4
current_row_number += 1
#####################################
reporting_period_data = report['reporting_period']
times = reporting_period_data['timestamps']
has_detail_data_flag = True
ca_len = len(report['reporting_period']['names'])
real_timestamps_len = timestamps_data_not_equal_0(
report['parameters']['timestamps'])
table_row = (current_row_number + 1) + ca_len * 6 + real_timestamps_len * 7
current_end_row_number = (current_row_number + 1) + ca_len * 6 + len(
times[0]) + 3 + real_timestamps_len * 7
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:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' 详细数据'
ws.row_dimensions[table_row].height = 60
ws['B' + str(table_row)].fill = table_fill
ws['B' + str(table_row)].font = title_font
ws['B' + str(table_row)].border = f_border
ws['B' + str(table_row)].alignment = c_c_alignment
ws['B' + str(table_row)] = '日期时间'
time = times[0]
has_data = False
max_row = 0
if len(time) > 0:
has_data = True
max_row = table_row + len(time)
if has_data:
for i in range(0, len(time)):
col = 'B'
row = str(table_row + 1 + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = time[i]
ws[col + row].border = f_border
for i in range(0, ca_len):
col = chr(ord('C') + i)
ws[col + str(table_row)].fill = table_fill
ws[col + str(table_row)].font = title_font
ws[col + str(table_row)].alignment = c_c_alignment
ws[col + str(table_row)] = reporting_period_data['names'][
i] + " (" + reporting_period_data['units'][i] + ")"
ws[col + str(table_row)].border = f_border
# 39 data
time = times[i]
time_len = len(time)
for j in range(0, time_len):
row = str(table_row + 1 + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(
reporting_period_data['values'][i][j], 2)
ws[col + row].border = f_border
line = LineChart()
line.title = \
'报告期成本 - ' + reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
labels = Reference(ws,
min_col=2,
min_row=table_row + 1,
max_row=max_row)
line_data = Reference(ws,
min_col=3 + i,
min_row=table_row,
max_row=max_row)
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(current_row_number + 1 + 6 * i)
table_start_draw_flag = current_row_number
ws.add_chart(line, chart_cell)
row = str(max_row + 1)
ws['B' + row].font = title_font
ws['B' + row].alignment = c_c_alignment
ws['B' + row] = '小计'
ws['B' + row].border = f_border
col = ''
for i in range(0, ca_len):
col = chr(ord('C') + i)
row = str(max_row + 1)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(reporting_period_data['subtotals'][i], 2)
ws[col + row].border = f_border
col = chr(ord(col) + 1)
ws[col + str(table_row)].fill = table_fill
ws[col + str(table_row)].font = title_font
ws[col + str(table_row)].alignment = c_c_alignment
ws[col +
str(table_row
)] = '总计 (' + report['reporting_period']['total_unit'] + ')'
ws[col + str(table_row)].border = f_border
total_sum = 0
for j in range(0, len(time)):
row = str(table_row + 1 + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
every_day_sum = reporting_period_values_every_day_sum(
reporting_period_data, j, ca_len)
total_sum += every_day_sum
ws[col + row] = round(every_day_sum, 2)
ws[col + row].border = f_border
row = str(table_row + 1 + len(time))
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(total_sum, 2)
ws[col + row].border = f_border
current_row_number = current_end_row_number
########################################
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 + ' 子空间数据'
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['B' + str(current_row_number)] = '子空间'
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] + ')'
col = chr(ord(col) + 1)
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
)] = '总计 (' + report['reporting_period']['total_unit'] + ')'
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 = ''
every_day_sum = 0
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
every_day_sum += child['subtotals_array'][j][i]
ws[col + row] = round(child['subtotals_array'][j][i], 2)
ws[col + row].border = f_border
col = chr(ord(col) + 1)
ws[col + row].font = name_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(every_day_sum, 2)
ws[col + row].border = f_border
table_end_row_number = current_row_number
current_row_number += 1
chart_start_row_number = current_row_number
# 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
chart_cell = ''
if i % 2 == 0:
chart_cell = 'B' + str(chart_start_row_number)
else:
chart_cell = 'E' + str(chart_start_row_number)
chart_start_row_number += 5
ws.add_chart(pie, chart_cell)
current_row_number = chart_start_row_number
if ca_len % 2 == 1:
current_row_number += 5
current_row_number += 1
##########################################
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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['D3'].font = name_font
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'].font = name_font
parameters_ws['E3'] = period_type
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws[
'G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 = 'B'
for i in range(0, parameters_names_len):
if len(parameters_data['timestamps'][i]) == 0:
continue
parameters_ws[table_current_col_number +
str(parameters_ws_current_row_number -
1)].fill = table_fill
parameters_ws[table_current_col_number +
str(parameters_ws_current_row_number -
1)].border = f_border
col = chr(ord(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 = 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 = chr(ord(col) + 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 = chr(ord(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 + ' 相关参数'
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 = '相关参数 - ' + \
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 set_column_width(sheet, start_column, widthes):
start_column_idx = column_index_from_string(start_column)
for index in range(len(widthes)):
column_letter = get_column_letter(start_column_idx + index)
sheet.column_dimensions[column_letter].width = widthes[index]
spread.share('*****@*****.**', perm_type='user', role='owner')
#data_path = 'C:\\python\\examples\\2.4\\data'
data_path = './'
file_list = os.listdir(data_path)
for fname in file_list:
if fname[-4:] != 'xlsx':
continue
file_path = os.path.join(data_path, fname)
wb = load_workbook(file_path, read_only=True)
ws = wb.active
row_count = ws.max_row
col_count = ws.max_column
worksheet = spread.add_worksheet(fname, row_count, col_count)
cells = worksheet.range('A1:' + get_column_letter(col_count) + str(row_count))
idx = 0
for row in ws.iter_rows():
for cell in row:
cells[idx].value = str(cell.value)
idx = idx + 1
worksheet.update_cells(cells)
#spread.share('직원[email protected]', perm_type='user', role='reader')
#spread.share('직원[email protected]', perm_type='user', role='writer')
#spread.share('직원[email protected]', perm_type='user', role='reader')
for j in range(1, 23):
wb[country].cell(row=row,
column=j).value = rawsheet.cell(row=i,
column=1).value
wb[country].cell(row=row, column=j).hyperlink = rawsheet.cell(
row=i, column=1).hyperlink
i += 1
row += 1
for j in range(1, 23):
for i in range(1, int(rows / 22 + 1)):
cell_length = len(as_text(wb[country].cell(row=i, column=j).value))
if cell_length > max_len:
wb[country].column_dimensions[get_column_letter(
j)].width = cell_length
max_len = cell_length
else:
wb[country].column_dimensions[get_column_letter(
j)].width = max_len
wb[country].delete_cols(1)
wb.save(master_sheet)
print(country + " Done.")
end = time.time()
exec_time = end - start
print("\n\t\t Execution Time : ", exec_time, "\n")
def generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
# todo
ws = wb.active
# Row height
ws.row_dimensions[1].height = 102
for i in range(2, 2000 + 1):
ws.row_dimensions[i].height = 42
# for i in range(2, 11 + 1):
# ws.row_dimensions[i].height = 30
#
# for i in range(12, 43 + 1):
# ws.row_dimensions[i].height = 30
# 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='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
data_font = Font(name='Franklin Gothic Book', size=11)
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)
c_r_alignment = Alignment(vertical='bottom',
horizontal='center',
text_rotation=0,
wrap_text=True,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
ws.add_image(img, 'B1')
# Title
ws.row_dimensions[3].height = 60
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['D3'].font = name_font
ws['D3'].alignment = b_r_alignment
ws['D3'] = 'Period:'
ws['E3'].border = b_border
ws['E3'].alignment = b_c_alignment
ws['E3'].font = name_font
ws['E3'] = period_type
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws['G3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
ws.merge_cells("G3:H3")
if "reporting_period" not in report.keys() or \
"values" not in report['reporting_period'].keys() or len(report['reporting_period']['values']) == 0:
filename = str(uuid.uuid4()) + '.xlsx'
wb.save(filename)
return filename
###############################
has_cost_data_flag = True
if "values" not in report['reporting_period'].keys() or len(
report['reporting_period']['values']) == 0:
has_cost_data_flag = False
if has_cost_data_flag:
ws['B6'].font = title_font
ws['B6'] = name + '报告期成本'
reporting_period_data = report['reporting_period']
category = report['meter']['energy_category_name']
ca_len = len(category)
ws.row_dimensions[7].height = 60
ws['B7'].fill = table_fill
ws['B7'].border = f_border
ws['B8'].font = title_font
ws['B8'].alignment = c_c_alignment
ws['B8'] = '成本'
ws['B8'].border = f_border
ws['B9'].font = title_font
ws['B9'].alignment = c_c_alignment
ws['B9'] = '环比'
ws['B9'].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'] = report['meter']['energy_category_name'] + " (" + report[
'meter']['unit_of_measure'] + ")"
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['total_in_category'],
2)
ws[col + '8'].border = f_border
ws[col + '9'].font = name_font
ws[col + '9'].alignment = c_c_alignment
ws[col + '9'] = str(round(reporting_period_data['increment_rate'] * 100, 2)) + "%" \
if reporting_period_data['increment_rate'] is not None else "-"
ws[col + '9'].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'] = "吨标准煤 (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'] = str(round(reporting_period_data['increment_rate'] * 100, 2)) + "%" \
if reporting_period_data['increment_rate'] is not None else "-"
ws[tce_col + '9'].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'] = "吨二氧化碳排放 (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'] = str(round(reporting_period_data['increment_rate'] * 100, 2)) + "%" \
if reporting_period_data['increment_rate'] is not None else "-"
ws[tco2e_col + '9'].border = f_border
else:
for i in range(6, 9 + 1):
ws.rows_dimensions[i].height = 0.1
######################################
has_cost_datail_flag = True
reporting_period_data = report['reporting_period']
category = report['meter']['energy_category_name']
ca_len = len(category)
times = reporting_period_data['timestamps']
parameters_names_len = len(report['parameters']['names'])
parameters_data = report['parameters']
parameters_parameters_datas_len = 0
for i in range(0, parameters_names_len):
if len(parameters_data['timestamps'][i]) == 0:
continue
parameters_parameters_datas_len += 1
if "values" not in reporting_period_data.keys() or len(
reporting_period_data['values']) == 0:
has_cost_datail_flag = False
if has_cost_datail_flag:
start_detail_data_row_number = 13 + (parameters_parameters_datas_len +
ca_len) * 6
ws['B11'].font = title_font
ws['B11'] = name + '详细数据'
ws.row_dimensions[start_detail_data_row_number].height = 60
ws['B' + str(start_detail_data_row_number)].fill = table_fill
ws['B' + str(start_detail_data_row_number)].font = title_font
ws['B' + str(start_detail_data_row_number)].border = f_border
ws['B' + str(start_detail_data_row_number)].alignment = c_c_alignment
ws['B' + str(start_detail_data_row_number)] = '日期时间'
time = times
has_data = False
max_row = 0
if len(time) > 0:
has_data = True
max_row = start_detail_data_row_number + len(time)
if has_data:
end_data_row_number = start_detail_data_row_number
for i in range(0, len(time)):
col = 'B'
end_data_row_number += 1
row = str(end_data_row_number)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = time[i]
ws[col + row].border = f_border
ws['B' + str(end_data_row_number + 1)].font = title_font
ws['B' + str(end_data_row_number + 1)].alignment = c_c_alignment
ws['B' + str(end_data_row_number + 1)] = '总计'
ws['B' + str(end_data_row_number + 1)].border = f_border
for i in range(0, ca_len):
col = chr(ord('C') + i)
ws[col + str(start_detail_data_row_number)].fill = table_fill
ws[col + str(start_detail_data_row_number)].font = title_font
ws[col +
str(start_detail_data_row_number)].alignment = c_c_alignment
ws[col + str(start_detail_data_row_number)] = \
report['meter']['energy_category_name']+" (" + report['meter']['unit_of_measure'] + ")"
ws[col + str(start_detail_data_row_number)].border = f_border
time = times
time_len = len(time)
for j in range(0, time_len):
row = str(start_detail_data_row_number + 1 + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(reporting_period_data['values'][j],
2)
ws[col + row].border = f_border
ws[col + str(end_data_row_number + 1)].font = title_font
ws[col +
str(end_data_row_number + 1)].alignment = c_c_alignment
ws[col + str(end_data_row_number + 1)] = round(
reporting_period_data['total_in_category'], 2)
ws[col + str(end_data_row_number + 1)].border = f_border
line = LineChart()
line.title = '报告期成本 - ' + report['meter']['energy_category_name'] + \
" (" + report['meter']['unit_of_measure'] + ")"
line_data = Reference(ws,
min_col=3,
min_row=start_detail_data_row_number,
max_row=max_row)
line.series.append(Series(line_data, title_from_data=True))
labels = Reference(ws,
min_col=2,
min_row=start_detail_data_row_number + 1,
max_row=max_row)
line.set_categories(labels)
line_data = line.series[0]
line_data.marker.symbol = "circle"
line_data.smooth = True
line.x_axis.crosses = 'min'
line.dLbls = DataLabelList()
line.dLbls.dLblPos = 't'
line.dLbls.showVal = True
line.height = 8.25
line.width = 24
ws.add_chart(line, "B12")
else:
for i in range(11, 43 + 1):
ws.row_dimensions[i].height = 0.0
##########################################
has_parameters_names_and_timestamps_and_values_data = True
# 12 is the starting line number of the last line chart in the report period
time_len = len(reporting_period_data['timestamps'])
current_sheet_parameters_row_number = 12 + ca_len * 6
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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['D3'].font = name_font
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'].font = name_font
parameters_ws['E3'] = period_type
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws[
'G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 = 'B'
for i in range(0, parameters_names_len):
if len(parameters_data['timestamps'][i]) == 0:
continue
parameters_ws[table_current_col_number +
str(parameters_ws_current_row_number -
1)].fill = table_fill
parameters_ws[table_current_col_number +
str(parameters_ws_current_row_number -
1)].border = f_border
col = decimal_to_column(
column_to_decimal(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 = 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 = decimal_to_column(column_to_decimal(col) + 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 = decimal_to_column(
column_to_decimal(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 + ' 相关参数'
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 = '相关参数 - ' + \
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 Avg3handMax(excelFiles, startStr, indexList, firstbound, secondbound,
thirdbound, fourthbound, listduplicate):
# for excelFiles in os.listdir("excel_output"):
wb = openpyxl.load_workbook("excel_output/" + excelFiles)
rawdata = wb['Original Data']
avg_3h = wb['3h Average']
regionMax = wb['Regional Hour Max']
everything = wb['Everything Together']
numberRow = rawdata.max_row
numberColumn = rawdata.max_column
regionalMaxcolum = len(indexList) + 2
rawdata_delta = rawdata.max_column + 1
regional_delta = regionalMaxcolum + 2
# creates graph for region max
# hourly reg max: get_column_letter(len(indexList) + 4) + str(r)
concentration_data = Reference(regionMax,
min_col=len(indexList) + 4,
min_row=1,
max_row=numberRow)
dates_data = Reference(regionMax, min_col=1, min_row=2, max_row=numberRow)
qc24regionmax_chart = ScatterChart()
qc24regionmax_chart.title = "Quebec Monthly Max Graph"
qc24regionmax_chart.style = 2
qc24regionmax_chart.y_axis.title = "Concentration"
qc24regionmax_chart.x_axis.number_format = 'dd'
qc24regionmax_chart.x_axis.majorTimeUnit = "days"
qc24regionmax_chart.x_axis.title = "Date"
qc24hSeries = Series(concentration_data, dates_data, title_from_data=True)
qc24regionmax_chart.series.append(qc24hSeries)
regionMax.add_chart(qc24regionmax_chart,
get_column_letter(len(indexList) + 6) + "1")
for sheets in wb.worksheets:
sheets.freeze_panes = "C2"
# copies row/column from old set
if sheets != wb['Original Data']:
for r in range(1, numberRow + 1):
for c in range(1, 3):
# write the stations
if r is 1:
for allC in range(1, numberColumn + 1):
# creates the 3h avg station row header
if sheets == avg_3h:
sheets[get_column_letter(allC) + str(r)] \
= '=(\'Original Data\'!' + get_column_letter(allC) + str(r) + ')'
# write region max row header
if excelFiles.startswith(startStr):
for i, p in enumerate(indexList):
if sheets == regionMax:
sheets[get_column_letter(i + 3) +
str(r)] = p
# write time and date for both 3h avg and region max sheet
if r is 2 or r is 3:
for allC in range(3, numberColumn + 1):
sheets[get_column_letter(allC) + str(r)] = ''
sheets[
get_column_letter(c) +
str(r)] = '=(\'Original Data\'!' + get_column_letter(
c) + str(r) + ')'
# applies conditional formatting rule
if excelFiles.startswith(startStr):
if sheets == everything:
if startStr == "PM25":
addcolor(everything, 2 * rawdata_delta + regional_delta,
numberRow, firstbound, secondbound, thirdbound,
fourthbound)
if startStr == ("NO2" or "O3"):
addcolor(everything, rawdata_delta + regional_delta,
numberRow, firstbound, secondbound, thirdbound,
fourthbound)
if sheets != everything:
addcolor(sheets, numberColumn, numberRow, firstbound,
secondbound, thirdbound, fourthbound)
# rounds everything to integer
for i in range(0, numberRow - 3):
for o in range(3, numberColumn + 1):
avg_3h[get_column_letter(o) + str(i + 4)] = \
'=IF((COUNTA(\'Original Data\'!' + get_column_letter(o) + str(i + 2) + ':' + get_column_letter(o) \
+ str(i + 4) + '))>1,ROUND(AVERAGE(\'Original Data\'!' + \
get_column_letter(o) + str(i + 2) + ':' + get_column_letter(o) + str(i + 4) + '),0),-999)'
# calculate region max, this one has to be based on 3h avg
if startStr == "PM25":
regionMax[get_column_letter(len(indexList) + 4) + '1'] = "Hour QC Max"
for r in range(4, numberRow + 1):
for c, data in zip(range(3, len(indexList) + 3), listduplicate):
sData = data[0] + 3
endData = data[-1] + 3
regionMax[get_column_letter(c) + str(r)] = '=MAX(\'3h Average\'!' \
+ get_column_letter(sData) \
+ str(r) + ':' + \
get_column_letter(endData) \
+ str(r) + ')'
# for the hourly max, it has to exclude the temis region
for name in indexList:
if name == "Temis.":
temisLetter = get_column_letter(
indexList.index("Temis.") + 3)
regionMax[get_column_letter(len(indexList) + 4) + str(r)] \
= '=IF(MAX(' + get_column_letter(3) + str(r) + ':' \
+ get_column_letter(regionalMaxcolum) + str(r) + ')=' \
+ temisLetter + str(r) + ',LARGE(' + get_column_letter(3) + str(r) + ':' \
+ get_column_letter(regionalMaxcolum) + str(r) + ',2),MAX(' + get_column_letter(3) + str(
r) + ':' \
+ get_column_letter(regionalMaxcolum) + str(r) + '))'
# This part of script rewrite all data into one sheet
for r in range(1, rawdata.max_row + 1):
for c in range(1, rawdata.max_column + 1):
# ROUND(\'Original Data\'!' + get_column_letter(c) + str(r) + ',0))
everything[get_column_letter(c) + str(
r
)] = '=IF((\'Original Data\'!' + get_column_letter(c) + str(
r) + ')="",-999,(\'Original Data\'!' + get_column_letter(
c) + str(r) + '))'
# 3h avgs copy
delta = rawdata.max_column + 1
for avg_C in range(3, avg_3h.max_column + 1):
for avg_R in range(1, avg_3h.max_row + 1):
everything[get_column_letter(avg_C + delta) + str(
avg_R
)] = '=IF((\'3h Average\'!' + get_column_letter(avg_C) + str(
avg_R) + ')="",-999,(\'3h Average\'!' + get_column_letter(
avg_C) + str(avg_R) + '))'
# reg hour max copy
avg3h_delta = avg_3h.max_column
for reg_C in range(3, len(indexList) + 5):
for reg_R in range(1, regionMax.max_row + 1):
everything[get_column_letter(reg_C + delta + avg3h_delta) + str(
reg_R
)] = '=IF((\'Regional Hour Max\'!' + get_column_letter(
reg_C
) + str(
reg_R
) + ')="",-999,(\'Regional Hour Max\'!' + get_column_letter(
reg_C) + str(reg_R) + '))'
else:
# NO2 and O3 are based on direct observation
# a bit of a hack but 3h avg are not needed for them so I just remove the sheet
wb.remove_sheet(avg_3h)
regionMax[get_column_letter(len(indexList) + 4) + '1'] = "Hour QC Max"
for r in range(2, numberRow + 1):
for c, data in zip(range(3, len(indexList) + 3), listduplicate):
sData = data[0] + 3
endData = data[-1] + 3
regionMax[get_column_letter(c) + str(r)] = '=MAX(\'Original Data\'!' \
+ get_column_letter(sData) \
+ str(r) + ':' + \
get_column_letter(endData) \
+ str(r) + ')'
# for hourly max
regionMax[get_column_letter(len(indexList) + 4) + str(r)] = '=MAX(' + get_column_letter(3) + str(
r) + ':' \
+ get_column_letter(regionalMaxcolum) + str(
r) + ')'
# This part of script rewrite all data into one sheet
for r in range(1, rawdata.max_row + 1):
for c in range(1, rawdata.max_column + 1):
everything[get_column_letter(c) + str(
r
)] = '=IF((\'Original Data\'!' + get_column_letter(c) + str(
r) + ')="",-999,(\'Original Data\'!' + get_column_letter(
c) + str(r) + '))'
# reg hour max copy
delta = rawdata.max_column + 1
for reg_C in range(3, len(indexList) + 5):
for reg_R in range(1, regionMax.max_row + 1):
everything[get_column_letter(reg_C + delta) + str(
reg_R
)] = '=IF((\'Regional Hour Max\'!' + get_column_letter(
reg_C
) + str(
reg_R
) + ')="",-999,(\'Regional Hour Max\'!' + get_column_letter(
reg_C) + str(reg_R) + '))'
# write daily max for all 3 file
regionMax[get_column_letter(len(indexList) + 5) + '1'] = "Daily Max"
for day in range(len(listofDate)):
for r in range(4, numberRow + 1):
regionMax[get_column_letter(len(indexList) + 5) +
str(2 + day * 24)] = '=MAX(' + get_column_letter(
len(indexList) +
4) + str(2 + day * 24) + ':' + get_column_letter(
len(indexList) + 4) + str(25 + day * 24) + ')'
# does it for everything sheet
dailyMaxLetter = get_column_letter(everything.max_column + 1)
qcHourMaxLetter = get_column_letter(everything.max_column)
everything[dailyMaxLetter + '1'] = "Daily Max"
for day in range(len(listofDate)):
for r in range(4, numberRow + 1):
everything[dailyMaxLetter +
str(2 + day * 24)] = '=MAX(' + qcHourMaxLetter + str(
2 + day * 24) + ':' + qcHourMaxLetter + str(
25 + day * 24) + ')'
wb.save("excel_output/" + excelFiles)
def generate_excel(report,
name,
reporting_start_datetime_local,
reporting_end_datetime_local,
period_type):
wb = Workbook()
ws = wb.active
ws.title = "EquipmentIncome"
# 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_cost_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_cost_data_flag = False
if has_cost_data_flag:
ws['B5'].font = title_font
ws['B5'] = name + ' ' + 'Reporting Period Income'
category = reporting_period_data['names']
ca_len = len(category)
ws.row_dimensions[7].height = 60
ws['B6'].fill = table_fill
ws['B6'].border = f_border
ws['B7'].font = title_font
ws['B7'].alignment = c_c_alignment
ws['B7'] = 'Reporting Period Income'
ws['B7'].border = f_border
ws['B8'].font = title_font
ws['B8'].alignment = c_c_alignment
ws['B8'] = 'Increment Rate'
ws['B8'].border = f_border
col = ''
for i in range(0, ca_len):
col = chr(ord('C') + i)
ws[col + '6'].fill = table_fill
ws[col + '6'].font = name_font
ws[col + '6'].alignment = c_c_alignment
ws[col + '6'] = reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
ws[col + '6'].border = f_border
ws[col + '7'].font = name_font
ws[col + '7'].alignment = c_c_alignment
ws[col + '7'] = round(reporting_period_data['subtotals'][i], 2)
ws[col + '7'].border = f_border
ws[col + '8'].font = name_font
ws[col + '8'].alignment = c_c_alignment
ws[col + '8'] = str(round(reporting_period_data['increment_rates'][i] * 100, 2)) + "%" \
if reporting_period_data['increment_rates'][i] is not None else "-"
ws[col + '8'].border = f_border
col = chr(ord(col) + 1)
ws[col + '6'].fill = table_fill
ws[col + '6'].font = name_font
ws[col + '6'].alignment = c_c_alignment
ws[col + '6'] = "Total (" + reporting_period_data['total_unit'] + ")"
ws[col + '6'].border = f_border
ws[col + '7'].font = name_font
ws[col + '7'].alignment = c_c_alignment
ws[col + '7'] = round(reporting_period_data['total'], 2)
ws[col + '7'].border = f_border
ws[col + '8'].font = name_font
ws[col + '8'].alignment = c_c_alignment
ws[col + '8'] = str(round(reporting_period_data['total_increment_rate'] * 100, 2)) + "%" \
if reporting_period_data['total_increment_rate'] is not None else "-"
ws[col + '8'].border = f_border
else:
for i in range(6, 8 + 1):
ws.row_dimensions[i].height = 0.1
####################################################################################################################
current_row_number = 10
has_subtotals_data_flag = True
if "subtotals" not in reporting_period_data.keys() or \
reporting_period_data['subtotals'] is None or \
len(reporting_period_data['subtotals']) == 0:
has_subtotals_data_flag = False
if has_subtotals_data_flag:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' ' + 'Incomes by Energy Category'
current_row_number += 1
table_start_row_number = current_row_number
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)] = 'Incomes'
ws['D' + str(current_row_number)].fill = table_fill
ws['D' + str(current_row_number)].font = name_font
ws['D' + str(current_row_number)].alignment = c_c_alignment
ws['D' + str(current_row_number)].border = f_border
ws['D' + str(current_row_number)] = 'Proportion'
current_row_number += 1
ca_len = len(reporting_period_data['names'])
income_sum = Decimal(0.0)
for i in range(0, ca_len):
income_sum = round(reporting_period_data['subtotals'][i], 2) + income_sum
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'][i], 2)
ws['D' + str(current_row_number)].font = title_font
ws['D' + str(current_row_number)].alignment = c_c_alignment
ws['D' + str(current_row_number)].border = f_border
ws['D' + str(current_row_number)] = '{:.2%}'.format(round(
reporting_period_data['subtotals'][i], 2) / income_sum) \
if income_sum is not None and income_sum != Decimal(0.0) \
else ''
current_row_number += 1
table_end_row_number = current_row_number - 1
pie = PieChart()
pie.title = name + ' ' + 'Incomes by Energy Category'
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 = 6.6
pie.width = 9
s1 = pie.series[0]
s1.dLbls = DataLabelList()
s1.dLbls.showCatName = False
s1.dLbls.showVal = True
s1.dLbls.showPercent = True
table_cell = 'F' + str(table_start_row_number - 1)
ws.add_chart(pie, table_cell)
if ca_len < 4:
current_row_number = current_row_number - ca_len + 4
else:
for i in range(13, 22 + 1):
ws.row_dimensions[i].height = 0.1
####################################################################################################################
current_row_number = 14
reporting_period_data = report['reporting_period']
times = reporting_period_data['timestamps']
has_detail_data_flag = True
ca_len = len(report['reporting_period']['names'])
real_timestamps_len = timestamps_data_not_equal_0(report['parameters']['timestamps'])
table_row = (current_row_number + 1) + ca_len * 6 + real_timestamps_len * 7
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:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' ' + 'Detailed Data'
ws.row_dimensions[table_row].height = 60
ws['B' + str(table_row)].fill = table_fill
ws['B' + str(table_row)].font = title_font
ws['B' + str(table_row)].border = f_border
ws['B' + str(table_row)].alignment = c_c_alignment
ws['B' + str(table_row)] = 'Datetime'
time = times[0]
has_data = False
max_row = 0
if len(time) > 0:
has_data = True
max_row = table_row + len(time)
if has_data:
for i in range(0, len(time)):
col = 'B'
row = str(table_row + 1 + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = time[i]
ws[col + row].border = f_border
for i in range(0, ca_len):
col = chr(ord('C') + i)
ws[col + str(table_row)].fill = table_fill
ws[col + str(table_row)].font = title_font
ws[col + str(table_row)].alignment = c_c_alignment
ws[col + str(table_row)] = reporting_period_data['names'][i] + " (" + reporting_period_data['units'][
i] + ")"
ws[col + str(table_row)].border = f_border
# 39 data
time = times[i]
time_len = len(time)
for j in range(0, time_len):
row = str(table_row + 1 + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(reporting_period_data['values'][i][j], 2)
ws[col + row].border = f_border
line = LineChart()
line.title = 'Reporting Period Income - ' + reporting_period_data['names'][i] + \
" (" + reporting_period_data['units'][i] + ")"
labels = Reference(ws, min_col=2, min_row=table_row + 1, max_row=max_row)
line_data = Reference(ws, min_col=3 + i, min_row=table_row, max_row=max_row)
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(current_row_number + 1 + 6 * i)
ws.add_chart(line, chart_cell)
row = str(max_row + 1)
ws['B' + row].font = title_font
ws['B' + row].alignment = c_c_alignment
ws['B' + row] = 'Subtotal'
ws['B' + row].border = f_border
col = ''
for i in range(0, ca_len):
col = chr(ord('C') + i)
row = str(max_row + 1)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(reporting_period_data['subtotals'][i], 2)
ws[col + row].border = f_border
col = chr(ord(col) + 1)
ws[col + str(table_row)].fill = table_fill
ws[col + str(table_row)].font = title_font
ws[col + str(table_row)].alignment = c_c_alignment
ws[col + str(table_row)] = 'Total (' + report['reporting_period']['total_unit'] + ')'
ws[col + str(table_row)].border = f_border
total_sum = 0
for j in range(0, len(time)):
row = str(table_row + 1 + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
periodic_sum = reporting_period_values_periodic_sum(reporting_period_data, j, ca_len)
total_sum += periodic_sum
ws[col + row] = round(periodic_sum, 2)
ws[col + row].border = f_border
row = str(table_row + 1 + len(time))
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(total_sum, 2)
ws[col + row].border = f_border
else:
for i in range(37, 69 + 1):
ws.row_dimensions[i].height = 0.1
####################################################################################################################
current_sheet_parameters_row_number = current_row_number + 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 = (re.sub(r'[^A-Z]', '', ws.title))+'_'
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 add_style_tox(tox_dataframe, PATH):
wb = load_workbook(PATH)
ws = wb['Tox']
nb_rows, nb_columns = tox_dataframe.shape
thin = Side(border_style='thin', color='FF000000')
medium = Side(border_style='medium', color='FF000000')
double = Side(border_style='double', color='FF000000')
no_border = Side(border_style=None)
font_Arial9 = Font(size=9, name='Arial')
font_title = Font(name='Arial', size=10, bold=True, color='FF000000')
font_small_title = Font(name='Arial', size=8, bold=False, color='FF000000')
alignment_center = Alignment(horizontal='center', vertical='center')
## COLUMN WIDTH ##
ws.column_dimensions['A'].width = 3
ws.column_dimensions['B'].width = 12
ws.column_dimensions['C'].width = 10
ws.column_dimensions['D'].width = 45
ws.column_dimensions['E'].width = 14
ws.row_dimensions[3].height = 45
# Nettoyage Fin du tableau
cell = ws['S4']
cell.border = no_border
# Nettoyage entre 2 tableaux
cell = ws['F4']
cell.border = Border(top=no_border, bottom=no_border)
ws.column_dimensions['F'].width = 3
medium_border = Border(left=medium,
right=medium,
top=medium,
bottom=medium)
normal_cells_border = Border(left=thin, right=thin, top=thin, bottom=thin)
header_stations_font = Font(size=10,
bold=True,
name='Arial',
color='FFFFFF')
header_stations_fill = PatternFill(fill_type='solid',
start_color='808080',
end_color='808080')
center_alignment = Alignment(horizontal='center', vertical='center')
## REFORMATAGE STATIONS DATA
columns_stations = ['B', 'C', 'D', 'E']
for column in columns_stations:
for row in range(5, 5 + nb_rows):
cell = ws[column + str(row)]
if column == 'B':
if row == 5 + nb_rows - 1:
cell.border = Border(left=medium,
top=thin,
right=thin,
bottom=medium)
else:
cell.border = Border(left=medium,
top=thin,
right=thin,
bottom=thin)
elif column == 'E':
if row == 5 + nb_rows - 1:
cell.border = Border(left=thin,
top=thin,
right=medium,
bottom=medium)
else:
cell.border = Border(left=thin,
top=thin,
right=medium,
bottom=thin)
elif row == 5 + nb_rows - 1:
cell.border = Border(left=thin,
top=thin,
right=thin,
bottom=medium)
else:
cell.border = normal_cells_border
cell.font = font_Arial9
cell.alignment = center_alignment
## REFORMATAGE VALUE HEADER ##
titres_columns = ['G', 'H', 'I', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R']
dict_titre_columns = {
'G': 'Survie Male - 7 jours',
'H': 'Alimentation',
'I': 'Neurotoxicité AChE',
'K': 'Survie Femelle',
'L': 'Nombre jours exposition in situ',
'M': 'n',
'N': 'Fécondité',
'O': 'n',
'P': 'Cycle de mue',
'Q': 'n',
'R': 'Perturbation endocrinienne'
}
subtitle = ['L', 'N', 'P', 'R', 'G', 'H', 'I', 'K']
n_merge = ['L3:L4', 'M3:M4', 'O3:O4', 'Q3:Q4']
ws['N4'].value = "indice"
ws['P4'].value = "valeur observée (valeur attendue)"
ws['R4'].value = "surface ovocytaire moyenne (µm²)"
# Nettoyage entre 2 tableaux
cell = ws['J4']
cell.border = Border(top=no_border, bottom=no_border)
ws.column_dimensions['J'].width = 3
# Merge et style des colonnes
for merge_column in n_merge:
ws.merge_cells(merge_column)
top_left_cell = ws[merge_column[0:2]]
top_left_cell.value = dict_titre_columns[merge_column[0]]
top_left_cell.font = font_title
top_left_cell.border = medium_border
# Style des titres
for column in titres_columns:
if column in ['L', 'P', 'R']:
ws.column_dimensions[column].width = 35
elif column in ['M', 'O', 'Q']:
ws.column_dimensions[column].width = 5
else:
ws.column_dimensions[column].width = 20
cell = ws[column + "3"]
cell.value = dict_titre_columns[column]
cell.font = font_title
cell.alignment = center_alignment
cell.border = medium_border
# Style des sous-titres
for column in subtitle:
cell = ws[column + "4"]
cell.font = font_small_title
cell.border = medium_border
# Nettoyage des borders des données cachées
ws["T4"].border = Border(top=no_border,
left=no_border,
right=no_border,
bottom=no_border)
ws["u4"].border = Border(top=no_border,
left=no_border,
right=no_border,
bottom=no_border)
## STYLE VALUE DATA
columns = [
get_column_letter(col_idx) for col_idx in range(6, nb_columns + 2)
]
little_border_columns = [
'G', 'H', 'I', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R'
]
na = ['L', 'M', 'N', 'O', 'P', 'Q', 'R']
body_fill_ok = PatternFill(fill_type='solid',
start_color='027ee3',
end_color='027ee3') #bleu
body_fill_not_ok_1 = PatternFill(fill_type='solid',
start_color='69a64b',
end_color='69a64b') #green
body_fill_not_ok_2 = PatternFill(fill_type='solid',
start_color='d1c452',
end_color='d1c452') #yellow
body_fill_not_ok_3 = PatternFill(fill_type='solid',
start_color='cc7931',
end_color='cc7931') #orange
body_fill_not_ok_4 = PatternFill(fill_type='solid',
start_color='ab2222',
end_color='ab2222') #red
body_fill_NA = PatternFill(fill_type='solid',
start_color='abadb0',
end_color='abadb0') # grey
# la requete qui retourne les resultats des constantes r2 selon le paramétre
threshold_data = QueryScript(
f" SELECT parameter, threshold FROM {env.DATABASE_TREATED}.r2_threshold WHERE threshold IS NOT NULL and version= {env.CHOSEN_VERSION()}"
).execute()
threshold_list = []
for column in columns:
threshold = None
if column == 'H':
threshold = []
for element in threshold_data:
if element[0] == 'alimentation':
threshold.append(element[1])
threshold_list.append(threshold)
if column == 'I':
threshold = []
for element in threshold_data:
if element[0] == 'neurotoxicité AChE':
threshold.append(element[1])
threshold_list.append(threshold)
if column == 'N':
threshold = []
for element in threshold_data:
if element[0] == 'reproduction':
threshold.append(element[1])
threshold_list.append(threshold)
if column == 'P':
threshold = []
for element in threshold_data:
if element[0] == 'mue':
threshold.append(element[1])
if column == 'R':
threshold = []
for element in threshold_data:
if element[0] == 'perturbation endocrinienne':
threshold.append(element[1])
if threshold:
value = None
for row in range(5, nb_rows + 5):
cell = ws[column + str(row)]
if isinstance(cell.value, float) or isinstance(
cell.value, int) or (isinstance(cell.value, str)
and cell.value[:2] != "NA"):
value = -float(cell.value) if cell.value else None
if cell.value != None:
already_done = False
if column == 'H':
survival_result = float(
ws['G' +
str(row)].value if ws['G' + str(row)].value
and ws['G' + str(row)].value != 'NA' else 0)
if survival_result != None and survival_result < 70:
if survival_result < 50:
already_done = True
else:
cell.fill = body_fill_NA
already_done = True
if not already_done:
if value and value >= threshold[0]:
if len(threshold) >= 1 and value >= threshold[1]:
if len(threshold
) >= 2 and value >= threshold[2]:
if len(threshold
) >= 3 and value >= threshold[3]:
cell.fill = body_fill_not_ok_4
else:
cell.fill = body_fill_not_ok_3
else:
cell.fill = body_fill_not_ok_2
else:
cell.fill = body_fill_not_ok_1
else:
cell.fill = body_fill_ok
if column == 'G' or column == 'H' or column == 'I' or column == 'K':
cell = ws[column + "4"]
cell.value = '%'
# pour faire les bordures des colones et ligne selon les case et les centrer
for column in little_border_columns:
for row in range(5, 5 + nb_rows):
ws[column + str(row)].border = normal_cells_border
ws[column + str(row)].alignment = alignment_center
# colorer les cycle de mue et la Perturbation endocrinienne
for row in range(5, nb_rows + 5):
mue = ws["T" + str(row)].value
surface_retard = ws["U" + str(row)].value
if ws["O" + str(row)].value:
try:
value = int(ws["O" + str(row)].value)
if int(ws["O" + str(row)].value) >= 10:
if ws["R" + str(
row
)].value == "NA" or surface_retard == "Conforme BC1":
ws["R" + str(row)].fill = body_fill_ok
else:
ws["R" + str(row)].fill = body_fill_not_ok_4
if mue == "NA":
ws["P" + str(row)].fill = body_fill_NA
if mue == "Conforme":
ws["P" + str(row)].fill = body_fill_ok
if mue == "Retard modéré":
ws["P" + str(row)].fill = body_fill_NA
if mue == "Retard fort":
ws["P" + str(row)].fill = body_fill_not_ok_4
else:
ws["R" + str(row)].fill = body_fill_NA
ws["P" + str(row)].fill = body_fill_NA
ws["N" + str(row)].fill = body_fill_NA
except ValueError:
ws["R" + str(row)].fill = body_fill_NA
ws["P" + str(row)].fill = body_fill_NA
ws["N" + str(row)].fill = body_fill_NA
else:
ws["R" + str(row)].fill = body_fill_NA
ws["P" + str(row)].fill = body_fill_NA
ws["N" + str(row)].fill = body_fill_NA
ws["S" + str(row)].value = ""
ws["T" + str(row)].value = ""
ws["U" + str(row)].value = ""
#si la survie femelle est egale à 0 ou bien il y'a pas donner la coloration de la ligne sera grise
for row in range(5, nb_rows + 5):
value = ws["K" + str(row)].value
testNone = value is None
testInt = isinstance(value, int) and float(value) == 0
testStr = isinstance(value, str) and value[:4] == 'None'
if testNone or testInt or testStr:
for column in na:
ws[column + str(row)].value = "NA"
if column == "N" or column == "P" or column == "R":
ws[column + str(row)].fill = body_fill_NA
ws.freeze_panes = ws["F8"]
wb.save(PATH)
wb.close()
wb = load_workbook(PATH)
ws = wb['Tox']
## Add threshold table
ws.insert_rows(1)
ws.insert_rows(1)
ws.insert_rows(1)
ws["F1"].value = "Effet faible"
ws["F2"].value = "Effet modéré"
ws["F3"].value = "Effet élevé"
ws["F4"].value = "Effet très élevé"
ws.column_dimensions['F'].width = 20
header_columns = [
get_column_letter(col_idx)
for col_idx in list(range(2, nb_columns + 2))
]
for letter in header_columns[5:]:
index = None
if letter == 'H':
index = 0
if letter == 'I':
index = 1
if letter == 'N':
index = 2
if index != None:
[threshold, graduate_25, graduate_50,
graduate_75] = threshold_list[index]
ws[letter + "1"].value = -threshold
ws[letter + "1"].border = medium_border
ws[letter + "2"].value = -graduate_25
ws[letter + "2"].border = medium_border
ws[letter + "3"].value = -graduate_50
ws[letter + "3"].border = medium_border
ws[letter + "4"].value = -graduate_75
ws[letter + "4"].border = medium_border
## REFORMATAGE STATIONS HEADER ##
merging_cells = ['B5:B7', 'C5:C7', 'D5:D7', 'E5:E7']
border_cells = ['B5', 'B7', 'C5', 'C7', 'D5', 'D7', 'E5', 'E7']
merging_names = ['Campagne', 'Numéro', 'Station de mesure', 'Code Agence']
# merger les cellules selon la taille de l'entete d'excel
for i in range(len(merging_cells)):
cells = merging_cells[i]
top_left_cell = ws[cells[0:2]]
name = merging_names[i]
ws.merge_cells(cells)
top_left_cell.value = name
top_left_cell.font = header_stations_font
top_left_cell.fill = header_stations_fill
top_left_cell.alignment = center_alignment
for cell in border_cells:
ws[cell].border = medium_border
wb.save(PATH)
wb.close()
def generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
ws = wb.active
# 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='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
data_font = Font(name='Franklin Gothic Book', size=11)
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)
c_r_alignment = Alignment(vertical='bottom',
horizontal='center',
text_rotation=0,
wrap_text=True,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
# img = Image("myems.png")
img.width = img.width * 1.06
img.height = img.height * 1.06
ws.add_image(img, 'B1')
# Title
ws.row_dimensions[3].height = 60
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['D3'].font = name_font
ws['D3'].alignment = b_r_alignment
ws['D3'] = 'Period:'
ws['E3'].border = b_border
ws['E3'].alignment = b_c_alignment
ws['E3'].font = name_font
ws['E3'] = period_type
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws['G3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local[:
10] + "__" + reporting_end_datetime_local[:
10]
ws.merge_cells("G3:H3")
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
#################################################
# First: 能耗分析
# 6: title
# 7: table title
# 8~10 table_data
# Total: 5 rows
# if has not energy data: set low height for rows
#################################################
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 + ' 能耗分析'
category = reporting_period_data['names']
ca_len = len(category)
ws.row_dimensions[7].height = 60
ws['B7'].fill = table_fill
ws['B7'].border = f_border
ws['B8'].font = title_font
ws['B8'].alignment = c_c_alignment
ws['B8'] = '能耗'
ws['B8'].border = f_border
ws['B9'].font = title_font
ws['B9'].alignment = c_c_alignment
ws['B9'] = '单位面积能耗'
ws['B9'].border = f_border
ws['B10'].font = title_font
ws['B10'].alignment = c_c_alignment
ws['B10'] = '环比'
ws['B10'].border = f_border
col = ''
for i in range(0, ca_len):
col = chr(ord('C') + i)
row = '7'
cell = col + row
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)
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'] = "吨标准煤 (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)
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'] = "吨二氧化碳排放 (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)
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
#################################################
# Second: 分时电耗
# 12: title
# 13: table title
# 14~17 table_data
# Total: 6 rows
################################################
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 + ' 分时电耗'
ws.row_dimensions[13].height = 60
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'] = '分时电耗'
ws['B14'].font = title_font
ws['B14'].alignment = c_c_alignment
ws['B14'] = '尖'
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'] = '峰'
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'] = '平'
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'] = '谷'
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 + ' 分时电耗'
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 = 7.25 # cm 1.05*5 1.05cm = 30 pt
pie.width = 9
# pie.title = "Pies sold by category"
s1 = pie.series[0]
s1.dLbls = DataLabelList()
s1.dLbls.showCatName = False # 标签显示
s1.dLbls.showVal = True # 数量显示
s1.dLbls.showPercent = True # 百分比显示
# s1 = CharacterProperties(sz=1800) # 图表中字体大小 *100
ws.add_chart(pie, "D13")
else:
for i in range(12, 18 + 1):
ws.row_dimensions[i].height = 0.1
################################################
# Fourth: 能耗详情
# current_row_number: title
# current_row_number+1 ~ current_row_number+1+ca_len*6-1: line
# current_row_number+1+ca_len*6: table title
# current_row_number+1+ca_len*6~: table_data
################################################
current_row_number = 19
reporting_period_data = report['reporting_period']
times = reporting_period_data['timestamps']
has_detail_data_flag = True
ca_len = len(report['reporting_period']['names'])
parameters_names_len = len(report['parameters']['names'])
parameters_parameters_datas_len = 0
for i in range(0, parameters_names_len):
if len(report['parameters']['timestamps'][i]) == 0:
continue
parameters_parameters_datas_len += 1
table_row = current_row_number + (ca_len +
parameters_parameters_datas_len) * 6 + 2
chart_start_row_number = 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:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' 详细数据'
ws.row_dimensions[table_row].height = 60
ws['B' + str(table_row)].fill = table_fill
ws['B' + str(table_row)].font = title_font
ws['B' + str(table_row)].border = f_border
ws['B' + str(table_row)].alignment = c_c_alignment
ws['B' + str(table_row)] = '日期时间'
time = times[0]
has_data = False
max_row = 0
if len(time) > 0:
has_data = True
max_row = table_row + len(time)
print("max_row", max_row)
if has_data:
for i in range(0, len(time)):
col = 'B'
row = str(table_row + 1 + i)
# col = chr(ord('B') + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = time[i]
ws[col + row].border = f_border
for i in range(0, ca_len):
# 38 title
col = chr(ord('C') + i)
ws[col + str(table_row)].fill = table_fill
ws[col + str(table_row)].font = title_font
ws[col + str(table_row)].alignment = c_c_alignment
ws[col + str(table_row)] = reporting_period_data['names'][i] + \
" (" + reporting_period_data['units'][i] + ")"
ws[col + str(table_row)].border = f_border
# 39 data
time = times[i]
time_len = len(time)
for j in range(0, time_len):
row = str(table_row + 1 + j)
# col = chr(ord('B') + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(
reporting_period_data['values'][i][j], 2)
ws[col + row].border = f_border
current_row_number = table_row + 1 + len(times[0])
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)].border = f_border
ws['B' + str(current_row_number)] = '小计'
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)].border = f_border
ws[col + str(current_row_number)] = round(
reporting_period_data['subtotals'][i], 2)
# line
# 39~: line
line = LineChart()
line.title = '报告期消耗 - ' + ws.cell(column=3 + i,
row=table_row).value
labels = Reference(ws,
min_col=2,
min_row=table_row + 1,
max_row=max_row)
line_data = Reference(ws,
min_col=3 + i,
min_row=table_row,
max_row=max_row) # openpyxl bug
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 # cm 1.05*5 1.05cm = 30 pt
line.width = 24
# pie.title = "Pies sold by category"
line.dLbls = DataLabelList()
line.dLbls.dLblPos = 't'
# line.dLbls.showCatName = True # label show
line.dLbls.showVal = True # val show
line.dLbls.showPercent = True # percent show
# s1 = CharacterProperties(sz=1800) # font size *100
chart_col = 'B'
chart_cell = chart_col + str(chart_start_row_number + 6 * i)
ws.add_chart(line, chart_cell)
##########################################
has_parameters_names_and_timestamps_and_values_data = True
# 12 is the starting line number of the last line chart in the report period
ca_len = len(report['reporting_period']['names'])
current_sheet_parameters_row_number = chart_start_row_number + ca_len * 6
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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['D3'].font = name_font
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'].font = name_font
parameters_ws['E3'] = period_type
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws[
'G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 + ' 相关参数'
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 = '相关参数 - ' + \
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 generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
ws = wb.active
# 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='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
# data_font = Font(name='Franklin Gothic Book', size=11)
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=False,
shrink_to_fit=False,
indent=0)
c_c_alignment = Alignment(vertical='center',
horizontal='center',
text_rotation=0,
wrap_text=False,
shrink_to_fit=False,
indent=0)
b_r_alignment = Alignment(vertical='bottom',
horizontal='right',
text_rotation=0,
wrap_text=False,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
# img = Image("myems.png")
img.width = img.width * 0.85
img.height = img.height * 0.85
ws.add_image(img, 'B1')
# Title
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['D3'].font = name_font
ws['D3'].alignment = b_r_alignment
ws['D3'] = 'Period:'
ws['E3'].border = b_border
ws['E3'].alignment = b_c_alignment
ws['E3'].font = name_font
ws['E3'] = period_type
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws['G3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
ws.merge_cells("G3:H3")
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
#################################################
# First: 统计分析
# 6: title
# 7: table title
# 8~ca_len table_data
#################################################
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
filename = str(uuid.uuid4()) + '.xlsx'
wb.save(filename)
return filename
if has_energy_data_flag:
ws['B6'].font = title_font
ws['B6'] = name + ' 统计分析'
category = reporting_period_data['names']
# table_title
ws['B7'].fill = table_fill
ws['B7'].font = title_font
ws['B7'].alignment = c_c_alignment
ws['B7'] = '报告期'
ws['B7'].border = f_border
ws['C7'].font = title_font
ws['C7'].alignment = c_c_alignment
ws['C7'] = '算术平均数'
ws['C7'].border = f_border
ws['D7'].font = title_font
ws['D7'].alignment = c_c_alignment
ws['D7'] = '中位数'
ws['D7'].border = f_border
ws['E7'].font = title_font
ws['E7'].alignment = c_c_alignment
ws['E7'] = '最小值'
ws['E7'].border = f_border
ws['F7'].font = title_font
ws['F7'].alignment = c_c_alignment
ws['F7'] = '最大值'
ws['F7'].border = f_border
ws['G7'].font = title_font
ws['G7'].alignment = c_c_alignment
ws['G7'] = '样本标准差'
ws['G7'].border = f_border
ws['H7'].font = title_font
ws['H7'].alignment = c_c_alignment
ws['H7'] = '样本方差'
ws['H7'].border = f_border
# table_data
for i, value in enumerate(category):
row = i * 2 + 8
ws['B' + str(row)].font = name_font
ws['B' + str(row)].alignment = c_c_alignment
ws['B' + str(row)] = reporting_period_data['names'][
i] + " (" + reporting_period_data['units'][i] + " )"
ws['B' + str(row)].border = f_border
ws['B' + str(row + 1)].font = name_font
ws['B' + str(row + 1)].alignment = c_c_alignment
ws['B' + str(row + 1)] = "环比"
ws['B' + str(row + 1)].border = f_border
ws['C' + str(row)].font = name_font
ws['C' + str(row)].alignment = c_c_alignment
ws['C' + str(row)] = reporting_period_data['means'][i] \
if reporting_period_data['means'][i] is not None else ''
ws['C' + str(row)].border = f_border
ws['C' + str(row)].number_format = '0.00'
ws['C' + str(row + 1)].font = name_font
ws['C' + str(row + 1)].alignment = c_c_alignment
ws['C' + str(row + 1)] = str(round(reporting_period_data['means_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['means_increment_rate'][i] is not None else '0.00%'
ws['C' + str(row + 1)].border = f_border
ws['D' + str(row)].font = name_font
ws['D' + str(row)].alignment = c_c_alignment
ws['D' + str(row)] = reporting_period_data['medians'][i] \
if reporting_period_data['medians'][i] is not None else ''
ws['D' + str(row)].border = f_border
ws['D' + str(row)].number_format = '0.00'
ws['D' + str(row + 1)].font = name_font
ws['D' + str(row + 1)].alignment = c_c_alignment
ws['D' + str(row + 1)] = str(round(reporting_period_data['medians_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['medians_increment_rate'][i] is not None else '0.00%'
ws['D' + str(row + 1)].border = f_border
ws['E' + str(row)].font = name_font
ws['E' + str(row)].alignment = c_c_alignment
ws['E' + str(row)] = reporting_period_data['minimums'][i] \
if reporting_period_data['minimums'][i] is not None else ''
ws['E' + str(row)].border = f_border
ws['E' + str(row)].number_format = '0.00'
ws['E' + str(row + 1)].font = name_font
ws['E' + str(row + 1)].alignment = c_c_alignment
ws['E' + str(row + 1)] = str(round(reporting_period_data['minimums_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['minimums_increment_rate'][i] is not None else '0.00%'
ws['E' + str(row + 1)].border = f_border
ws['F' + str(row)].font = name_font
ws['F' + str(row)].alignment = c_c_alignment
ws['F' + str(row)] = reporting_period_data['maximums'][i] \
if reporting_period_data['maximums'][i] is not None else ''
ws['F' + str(row)].border = f_border
ws['F' + str(row)].number_format = '0.00'
ws['F' + str(row + 1)].font = name_font
ws['F' + str(row + 1)].alignment = c_c_alignment
ws['F' + str(row + 1)] = str(round(reporting_period_data['maximums_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['maximums_increment_rate'][i] is not None else '0.00%'
ws['F' + str(row + 1)].border = f_border
ws['G' + str(row)].font = name_font
ws['G' + str(row)].alignment = c_c_alignment
ws['G' + str(row)] = reporting_period_data['stdevs'][i] \
if reporting_period_data['stdevs'][i] is not None else ''
ws['G' + str(row)].border = f_border
ws['G' + str(row)].number_format = '0.00'
ws['G' + str(row + 1)].font = name_font
ws['G' + str(row + 1)].alignment = c_c_alignment
ws['G' + str(row + 1)] = str(round(reporting_period_data['stdevs_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['stdevs_increment_rate'][i] is not None else '0.00%'
ws['G' + str(row + 1)].border = f_border
ws['H' + str(row)].font = name_font
ws['H' + str(row)].alignment = c_c_alignment
ws['H' + str(row)] = reporting_period_data['variances'][i] \
if reporting_period_data['variances'][i] is not None else ''
ws['H' + str(row)].border = f_border
ws['H' + str(row)].number_format = '0.00'
ws['H' + str(row + 1)].font = name_font
ws['H' + str(row + 1)].alignment = c_c_alignment
ws['H' + str(row + 1)] = str(round(reporting_period_data['variances_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['variances_increment_rate'][i] is not None else '0.00%'
ws['H' + str(row + 1)].border = f_border
########################################################
# Second: 详细数据
# analysis_end_row_number+1~ analysis_end_row_number+1+line_charts_row_number+: line
# detailed_start_row_number~ : the detailed data table
########################################################
has_timestamps_flag = True
if "timestamps" not in reporting_period_data.keys() or \
reporting_period_data['timestamps'] is None or \
len(reporting_period_data['timestamps']) == 0:
has_timestamps_flag = False
if has_timestamps_flag:
timestamps = reporting_period_data['timestamps'][0]
values = reporting_period_data['values']
names = reporting_period_data['names']
ca_len = len(names)
time_len = len(timestamps)
real_timestamps_len = timestamps_data_not_equal_0(
report['parameters']['timestamps'])
# the detailed title
line_charts_row_number = 6 * ca_len + 1
analysis_end_row_number = 9 + 2 * ca_len
detailed_start_row_number = analysis_end_row_number + line_charts_row_number + real_timestamps_len * 7
ws['B' + str(detailed_start_row_number)].font = title_font
ws['B' + str(detailed_start_row_number)] = name + ' 详细数据'
# the detailed table_title
ws['B' + str(detailed_start_row_number + 1)].fill = table_fill
ws['B' + str(detailed_start_row_number + 1)].font = name_font
ws['B' + str(detailed_start_row_number + 1)].alignment = c_c_alignment
ws['B' + str(detailed_start_row_number + 1)] = "时间"
ws['B' + str(detailed_start_row_number + 1)].border = f_border
for i in range(0, ca_len):
col = chr(ord('C') + i)
ws[col + str(detailed_start_row_number + 1)].font = name_font
ws[col +
str(detailed_start_row_number + 1)].alignment = c_c_alignment
ws[col + str(detailed_start_row_number + 1)] = names[
i] + " - (" + reporting_period_data['units'][i] + ")"
ws[col + str(detailed_start_row_number + 1)].border = f_border
# the detailed table_date
for i in range(0, time_len):
rows = i + detailed_start_row_number + 2
ws['B' + str(rows)].font = name_font
ws['B' + str(rows)].alignment = c_c_alignment
ws['B' + str(rows)] = timestamps[i]
ws['B' + str(rows)].border = f_border
for index in range(0, ca_len):
col = chr(ord('C') + index)
ws[col + str(rows)].font = name_font
ws[col + str(rows)].alignment = c_c_alignment
ws[col + str(rows)] = values[index][i]
ws[col + str(rows)].number_format = '0.00'
ws[col + str(rows)].border = f_border
# 小计
row_subtotals = detailed_start_row_number + 2 + time_len
ws['B' + str(row_subtotals)].font = name_font
ws['B' + str(row_subtotals)].alignment = c_c_alignment
ws['B' + str(row_subtotals)] = "小计"
ws['B' + str(row_subtotals)].border = f_border
for i in range(0, ca_len):
col = chr(ord('C') + i)
ws[col + str(row_subtotals)].font = name_font
ws[col + str(row_subtotals)].alignment = c_c_alignment
ws[col +
str(row_subtotals)] = reporting_period_data['subtotals'][i]
ws[col + str(row_subtotals)].border = f_border
ws[col + str(row_subtotals)].number_format = '0.00'
####################################################################################################################
# third: LineChart
# LineChart requires data from the detailed data table in the Excel file
# so print the detailed data table first and then print LineChart
####################################################################################################################
for i in range(0, ca_len):
line = LineChart()
line.title = "报告期消耗" + " - " + names[
i] + "(" + reporting_period_data['units'][i] + ")"
line.style = 10
line.height = 8.40 # cm 1.05*8 1.05cm = 30 pt
line.width = 24
line.x_axis.majorTickMark = 'in'
line.y_axis.majorTickMark = 'in'
line.dLbls = DataLabelList()
line.dLbls.dLblPos = 't'
line.dLbls.showVal = True
times = Reference(ws,
min_col=2,
min_row=detailed_start_row_number + 2,
max_row=detailed_start_row_number + 2 + time_len)
line_data = Reference(ws,
min_col=3 + i,
min_row=detailed_start_row_number + 1,
max_row=detailed_start_row_number + 1 +
time_len)
line.add_data(line_data, titles_from_data=True)
line.set_categories(times)
ser = line.series[0]
ser.marker.symbol = "diamond"
ser.marker.size = 5
ws.add_chart(line, 'B' + str(analysis_end_row_number + 6 * i))
#####################################
has_associated_equipment_flag = True
if "associated_equipment" not in report.keys() or \
"energy_category_names" not in report['associated_equipment'].keys() or \
len(report['associated_equipment']["energy_category_names"]) == 0 \
or 'associated_equipment_names_array' not in report['associated_equipment'].keys() \
or report['associated_equipment']['associated_equipment_names_array'] is None \
or len(report['associated_equipment']['associated_equipment_names_array']) == 0 \
or len(report['associated_equipment']['associated_equipment_names_array'][0]) == 0:
has_associated_equipment_flag = False
if has_associated_equipment_flag:
associated_equipment = report['associated_equipment']
current_row_number = detailed_start_row_number + 4 + time_len
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' 相关设备数据'
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['B' + str(current_row_number)] = '相关设备'
ca_len = len(associated_equipment['energy_category_names'])
for i in range(0, ca_len):
row = chr(ord('C') + i)
ws[row + str(current_row_number)].fill = table_fill
ws[row + str(current_row_number)].font = name_font
ws[row + str(current_row_number)].alignment = c_c_alignment
ws[row + str(current_row_number)].border = f_border
ws[row + str(current_row_number)] = \
reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
associated_equipment_len = len(
associated_equipment['associated_equipment_names_array'][0])
for i in range(0, associated_equipment_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] = associated_equipment[
'associated_equipment_names_array'][0][i]
ws['B' + row].border = f_border
for j in range(0, ca_len):
col = chr(ord('C') + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(
associated_equipment['subtotals_array'][j][i], 2)
ws[col + row].border = f_border
####################################################################################################################
current_sheet_parameters_row_number = analysis_end_row_number + 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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['D3'].font = name_font
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'].font = name_font
parameters_ws['E3'] = period_type
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws[
'G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 + ' 相关参数'
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 = '相关参数 - ' + \
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 generate_excel(report,
name,
reporting_start_datetime_local,
reporting_end_datetime_local,
period_type):
wb = Workbook()
ws = wb.active
ws.title = "EquipmentLoad"
# 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
####################################################################################################################
# First: Statistics
# 6: title
# 7: table title
# 8~2*ca_len table_data
####################################################################################################################
reporting_period_data = report['reporting_period']
if "names" not in reporting_period_data.keys() or \
reporting_period_data['names'] is None or \
len(reporting_period_data['names']) == 0:
filename = str(uuid.uuid4()) + '.xlsx'
wb.save(filename)
return filename
ws['B6'].font = title_font
ws['B6'] = name + ' ' + 'Statistics'
category = reporting_period_data['names']
# table_title
ws['B7'].fill = table_fill
ws['B7'].font = title_font
ws['B7'].alignment = c_c_alignment
ws['B7'] = 'Reporting Period'
ws['B7'].border = f_border
ws['C7'].font = title_font
ws['C7'].alignment = c_c_alignment
ws['C7'] = 'Average Load'
ws['C7'].border = f_border
ws['D7'].font = title_font
ws['D7'].alignment = c_c_alignment
ws['D7'] = 'Maximum Load'
ws['D7'].border = f_border
ws['E7'].font = title_font
ws['E7'].alignment = c_c_alignment
ws['E7'] = 'Load Factor'
ws['E7'].border = f_border
# table_data
for i, value in enumerate(category):
row = i * 2 + 8
ws['B' + str(row)].font = name_font
ws['B' + str(row)].alignment = c_c_alignment
ws['B' + str(row)] = reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + "/H )"
ws['B' + str(row)].border = f_border
ws['B' + str(row + 1)].font = name_font
ws['B' + str(row + 1)].alignment = c_c_alignment
ws['B' + str(row + 1)] = 'Increment Rate'
ws['B' + str(row + 1)].border = f_border
ws['C' + str(row)].font = name_font
ws['C' + str(row)].alignment = c_c_alignment
ws['C' + str(row)] = round(reporting_period_data['averages'][i], 2) \
if reporting_period_data['averages'][i] is not None else ''
ws['C' + str(row)].border = f_border
ws['C' + str(row)].number_format = '0.00'
ws['C' + str(row + 1)].font = name_font
ws['C' + str(row + 1)].alignment = c_c_alignment
ws['C' + str(row + 1)] = str(round(reporting_period_data['averages_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['averages_increment_rate'][i] is not None else '0.00%'
ws['C' + str(row + 1)].border = f_border
ws['D' + str(row)].font = name_font
ws['D' + str(row)].alignment = c_c_alignment
ws['D' + str(row)] = round(reporting_period_data['maximums'][i], 2) \
if reporting_period_data['maximums'][i] is not None else ''
ws['D' + str(row)].border = f_border
ws['D' + str(row)].number_format = '0.00'
ws['D' + str(row + 1)].font = name_font
ws['D' + str(row + 1)].alignment = c_c_alignment
ws['D' + str(row + 1)] = str(round(reporting_period_data['maximums_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['maximums_increment_rate'][i] is not None else '0.00%'
ws['D' + str(row + 1)].border = f_border
ws['E' + str(row)].font = name_font
ws['E' + str(row)].alignment = c_c_alignment
ws['E' + str(row)] = round(reporting_period_data['factors'][i], 2) \
if reporting_period_data['factors'][i] is not None else ''
ws['E' + str(row)].border = f_border
ws['E' + str(row)].number_format = '0.00'
ws['E' + str(row + 1)].font = name_font
ws['E' + str(row + 1)].alignment = c_c_alignment
ws['E' + str(row + 1)] = str(round(reporting_period_data['factors_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['factors_increment_rate'][i] is not None else '0.00%'
ws['E' + str(row + 1)].border = f_border
####################################################################################################################
# Third: Detailed Data
# row_sat~ row_sat + 6*cal_len: line
# row_da: table title
# row_da + 1~: table_data
####################################################################################################################
has_timestamps_flag = True
if "timestamps" not in reporting_period_data.keys() or \
reporting_period_data['timestamps'] is None or \
len(reporting_period_data['timestamps']) == 0:
has_timestamps_flag = False
if has_timestamps_flag:
timestamps = reporting_period_data['timestamps'][0]
names = reporting_period_data['names']
ca_len = len(names)
real_timestamps_len = timestamps_data_not_equal_0(report['parameters']['timestamps'])
time_len = len(timestamps)
# row_lines == the number of rows of lines
row_lines = 6 * ca_len
# row_sat == the number of rows of statistical analysis table
row_sat = 9 + 2 * ca_len
# row_da == the number of rows of Detailed data
row_da = row_sat + row_lines + real_timestamps_len * 7 + 2
ws['B' + str(row_da)].font = title_font
ws['B' + str(row_da)] = name + ' ' + 'Detailed Data'
# table_title
ws['B' + str(row_da + 1)].fill = table_fill
ws['B' + str(row_da + 1)].font = name_font
ws['B' + str(row_da + 1)].alignment = c_c_alignment
ws['B' + str(row_da + 1)] = "Datetime"
ws['B' + str(row_da + 1)].border = f_border
for i in range(0, ca_len):
col_average = chr(ord('C') + 2 * i)
col_maximum = chr(ord('D') + 2 * i)
ws[col_average + str(row_da + 1)].font = name_font
ws[col_average + str(row_da + 1)].alignment = c_c_alignment
ws[col_average + str(row_da + 1)] = names[i] + " Average Load(" + reporting_period_data['units'][
i] + "/H)"
ws[col_average + str(row_da + 1)].border = f_border
ws[col_maximum + str(row_da + 1)].font = name_font
ws[col_maximum + str(row_da + 1)].alignment = c_c_alignment
ws[col_maximum + str(row_da + 1)] = names[i] + " Maximum Load(" + reporting_period_data['units'][
i] + "/H)"
ws[col_maximum + str(row_da + 1)].border = f_border
# table_date
for i in range(0, time_len):
rows = i + row_da + 2
ws['B' + str(rows)].font = name_font
ws['B' + str(rows)].alignment = c_c_alignment
ws['B' + str(rows)] = timestamps[i]
ws['B' + str(rows)].border = f_border
for index in range(0, ca_len):
col_average = chr(ord('C') + 2 * index)
col_maximum = chr(ord('D') + 2 * index)
ws[col_average + str(rows)].font = name_font
ws[col_average + str(rows)].alignment = c_c_alignment
ws[col_average + str(rows)] = reporting_period_data['sub_averages'][index][i] \
if reporting_period_data['sub_maximums'][index] is not None else ''
ws[col_average + str(rows)].number_format = '0.00'
ws[col_average + str(rows)].border = f_border
ws[col_maximum + str(rows)].font = name_font
ws[col_maximum + str(rows)].alignment = c_c_alignment
ws[col_maximum + str(rows)] = reporting_period_data['sub_maximums'][index][i] \
if reporting_period_data['sub_maximums'][index] is not None else ''
ws[col_maximum + str(rows)].number_format = '0.00'
ws[col_maximum + str(rows)].border = f_border
current_row_number = row_da + 1 + time_len
# LineChart
for i in range(0, ca_len):
lc = LineChart()
lc.title = "Reporting Period Maximum Load"
lc.style = 10
lc.x_axis.majorTickMark = 'in'
lc.y_axis.majorTickMark = 'in'
lc.smooth = True
lc.x_axis.crosses = 'min'
lc.height = 8.25
lc.width = 24
lc.dLbls = DataLabelList()
lc.dLbls.dLblPos = 't'
lc.dLbls.showVal = True
times = Reference(ws, min_col=2, min_row=row_da + 2,
max_row=row_da + 2 + time_len)
lc_data = Reference(ws, min_col=2 + 2 * (i+1), min_row=row_da + 1,
max_row=row_da + 1 + time_len)
lc.add_data(lc_data, titles_from_data=True)
lc.set_categories(times)
ser = lc.series[0]
ser.marker.symbol = "diamond"
ser.marker.size = 5
chart_col = 'B'
chart_cell = str(row_sat + 6 * i)
ws.add_chart(lc, chart_col + chart_cell)
####################################################################################################################
current_sheet_parameters_row_number = row_sat + 1 + 6 * ca_len
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 = (re.sub(r'[^A-Z]', '', ws.title))+'_'
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 set_row_values(self, row, row_data_values):
col=1
for i in row_data_values:
if i is not None:
self.ws[get_column_letter(col)+str(row)]=i
col+=1
def _to_reference(row, column):
column_letter = get_column_letter(column)
return column_letter + str(row)
def cell_coords(row_index, col_index):
col_letter = get_column_letter(col_index + 1)
return f"{col_letter}{row_index+1}"
def generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
ws = wb.active
# 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='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
data_font = Font(name='Franklin Gothic Book', size=11)
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)
c_r_alignment = Alignment(vertical='bottom',
horizontal='center',
text_rotation=0,
wrap_text=True,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
ws.add_image(img, 'B1')
# Title
ws.row_dimensions[3].height = 60
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['D3'].font = name_font
ws['D3'].alignment = b_r_alignment
ws['D3'] = 'Period:'
ws['E3'].border = b_border
ws['E3'].alignment = b_c_alignment
ws['E3'].font = name_font
ws['E3'] = period_type
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws['G3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
ws.merge_cells("G3:H3")
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
##################################
current_row_number = 6
reporting_period_data = report['reporting_period']
has_names_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_names_data_flag = False
if has_names_data_flag:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' 报告期消耗'
current_row_number += 1
category = reporting_period_data['names']
ca_len = len(category)
ws.row_dimensions[current_row_number].height = 60
ws['B' + str(current_row_number)].fill = table_fill
ws['B' + str(current_row_number)].border = f_border
col = 'C'
for i in range(0, ca_len):
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)] = \
reporting_period_data['names'][i] + " " + reporting_period_data['energy_category_names'][i] + \
" (" + reporting_period_data['units'][i] + ")"
col = chr(ord(col) + 1)
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)].border = f_border
ws['B' + str(current_row_number)] = '消耗'
col = 'C'
for i in range(0, ca_len):
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)] = round(
reporting_period_data['subtotals'][i], 2)
col = chr(ord(col) + 1)
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)].border = f_border
ws['B' + str(current_row_number)] = '单位面积值'
col = 'C'
for i in range(0, ca_len):
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)] = round(
reporting_period_data['subtotals_per_unit_area'][i], 2)
col = chr(ord(col) + 1)
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)].border = f_border
ws['B' + str(current_row_number)] = '环比'
col = 'C'
for i in range(0, ca_len):
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)] = str(
round(reporting_period_data['increment_rates'][i] * 100, 2)) + '%' \
if reporting_period_data['increment_rates'][i] is not None else '-'
col = chr(ord(col) + 1)
current_row_number += 2
category_dict = group_by_category(
reporting_period_data['energy_category_names'])
for category_dict_name, category_dict_values in category_dict.items():
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = \
name + ' ' + category_dict_name + ' (' + reporting_period_data['units'][category_dict_values[0]] + \
') 分项消耗占比'
current_row_number += 1
table_start_row_number = current_row_number
ws['B' + str(current_row_number)].fill = table_fill
ws['B' + str(current_row_number)].border = f_border
ws['C' + str(current_row_number)].font = name_font
ws['C' + str(current_row_number)].fill = table_fill
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)] = '消耗'
current_row_number += 1
for i in category_dict_values:
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)].border = f_border
ws['B' + str(current_row_number)] = \
reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
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)] = round(
reporting_period_data['subtotals'][i], 3)
current_row_number += 1
table_end_row_number = current_row_number - 1
pie = PieChart()
pie.title = \
name + ' ' + category_dict_name + ' (' + reporting_period_data['units'][category_dict_values[0]] + \
') 分项消耗占比'
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 = 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, 'D' + str(table_start_row_number))
if len(category_dict_values) < 4:
current_row_number = current_row_number - len(
category_dict_values) + 4
current_row_number += 1
#######################
has_values_data = True
has_timestamps_data = True
if 'values' not in reporting_period_data.keys() or \
reporting_period_data['values'] is None or \
len(reporting_period_data['values']) == 0:
has_values_data = False
if 'timestamps' not in reporting_period_data.keys() or \
reporting_period_data['timestamps'] is None or \
len(reporting_period_data['timestamps']) == 0 or \
len(reporting_period_data['timestamps'][0]) == 0:
has_timestamps_data = False
current_row_number += 1
chart_start_row_number = current_row_number
if has_values_data and has_timestamps_data:
ca_len = len(reporting_period_data['names'])
time = reporting_period_data['timestamps'][0]
parameters_names_len = len(report['parameters']['names'])
parameters_parameters_datas_len = 0
ws['B' + str(current_row_number - 1)].font = title_font
ws['B' + str(current_row_number - 1)] = name + ' 详细数据'
for i in range(0, parameters_names_len):
if len(report['parameters']['timestamps'][i]) == 0:
continue
parameters_parameters_datas_len += 1
current_row_number = current_row_number + (
ca_len + parameters_parameters_datas_len) * 6 + 2
detail_data_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 = title_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)] = '日期时间'
col = 'C'
for i in range(0, ca_len):
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)].border = f_border
ws[col + str(current_row_number)] = \
reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
col = chr(ord(col) + 1)
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)].border = f_border
ws['B' + str(current_row_number)] = time[i]
col = 'C'
for j in range(0, ca_len):
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)].border = f_border
ws[col + str(current_row_number)] = round(reporting_period_data['values'][j][i], 2) \
if reporting_period_data['values'][j][i] is not None else 0.00
col = chr(ord(col) + 1)
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)].border = f_border
ws['B' + str(current_row_number)] = '小计'
col = 'C'
for i in range(0, ca_len):
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)].border = f_border
ws[col + str(current_row_number)] = round(
reporting_period_data['subtotals'][i], 2)
col = chr(ord(col) + 1)
current_row_number += 2
format_time_width_number = 1.0
min_len_number = 1.0
min_width_number = 11.0 # format_time_width_number * min_len_number + 4 and min_width_number > 11.0
if period_type == 'hourly':
format_time_width_number = 4.0
min_len_number = 2
min_width_number = 12.0
elif period_type == 'daily':
format_time_width_number = 2.5
min_len_number = 4
min_width_number = 14.0
elif period_type == 'monthly':
format_time_width_number = 2.1
min_len_number = 4
min_width_number = 12.4
elif period_type == 'yearly':
format_time_width_number = 1.5
min_len_number = 5
min_width_number = 11.5
for i in range(0, ca_len):
line = LineChart()
line.title = '报告期消耗 - ' + \
reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
labels = Reference(ws,
min_col=2,
min_row=detail_data_table_start_row_number + 1,
max_row=table_end_row_number)
line_data = Reference(ws,
min_col=3 + i,
min_row=detail_data_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 = format_time_width_number * len(time) if len(
time) > min_len_number else min_width_number
if line.width > 24:
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(chart_start_row_number + 6 * i)
ws.add_chart(line, chart_cell)
##########################################
has_parameters_names_and_timestamps_and_values_data = True
ca_len = len(report['reporting_period']['names'])
current_sheet_parameters_row_number = chart_start_row_number + ca_len * 6
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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['D3'].font = name_font
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'].font = name_font
parameters_ws['E3'] = period_type
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws[
'G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 + ' 相关参数'
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 = '相关参数 - ' + \
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 generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
ws = wb.active
ws.title = "ShopFloorEnergyCategory"
# 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
####################################################################################################################
# First: Consumption
# 6: title
# 7: table title
# 8~10 table_data
# Total: 5 rows
# if has not energy data: set low height for rows
####################################################################################################################
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 + ' ' + 'Consumption'
category = reporting_period_data['names']
ca_len = len(category)
ws.row_dimensions[7].height = 60
ws['B7'].fill = table_fill
ws['B7'].border = f_border
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 = ''
for i in range(0, ca_len):
col = chr(ord('C') + i)
row = '7'
cell = col + row
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)
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)
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)
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
####################################################################################################################
# Second: Electricity Consumption by Time-Of-Use
# 12: title
# 13: table title
# 14~17 table_data
# Total: 6 rows
####################################################################################################################
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.row_dimensions[13].height = 60
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 = 7.25
pie.width = 9
s1 = pie.series[0]
s1.dLbls = DataLabelList()
s1.dLbls.showCatName = False # 标签显示
s1.dLbls.showVal = True # 数量显示
s1.dLbls.showPercent = True # 百分比显示
ws.add_chart(pie, "D13")
else:
for i in range(12, 18 + 1):
ws.row_dimensions[i].height = 0.1
####################################################################################################################
# Third: Ton of Standard Coal(TCE) by Energy Category
# current_row_number: title
# current_row_number + 1: table title
# current_row_number + 1 + ca_len table_data
# Total: 2 + ca_len rows
####################################################################################################################
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
####################################################################################################################
# Fourth: Ton of Carbon Dioxide Emissions(TCO2E) by Energy Category
# current_row_number: title
# current_row_number + 1: table title
# current_row_number + 1 + ca_len table_data
# Total: 2 + ca_len rows
####################################################################################################################
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
####################################################################################################################
# Fifth: Detailed Data
# current_row_number: title
# current_row_number+1 ~ current_row_number+1+ca_len*6-1: line
# current_row_number+1+ca_len*6: table title
# current_row_number+1+ca_len*6~: table_data
####################################################################################################################
reporting_period_data = report['reporting_period']
times = reporting_period_data['timestamps']
has_detail_data_flag = True
ca_len = len(report['reporting_period']['names'])
parameters_names_len = len(report['parameters']['names'])
parameters_parameters_datas_len = 0
for i in range(0, parameters_names_len):
if len(report['parameters']['timestamps'][i]) == 0:
continue
parameters_parameters_datas_len += 1
table_row = current_row_number + (ca_len +
parameters_parameters_datas_len) * 6 + 2
chart_start_row_number = 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:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' ' + 'Detailed Data'
ws.row_dimensions[table_row].height = 60
ws['B' + str(table_row)].fill = table_fill
ws['B' + str(table_row)].font = title_font
ws['B' + str(table_row)].border = f_border
ws['B' + str(table_row)].alignment = c_c_alignment
ws['B' + str(table_row)] = 'Datetime'
time = times[0]
has_data = False
max_row = 0
if len(time) > 0:
has_data = True
max_row = table_row + len(time)
if has_data:
for i in range(0, len(time)):
col = 'B'
row = str(table_row + 1 + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = time[i]
ws[col + row].border = f_border
for i in range(0, ca_len):
# 38 title
col = chr(ord('C') + i)
ws[col + str(table_row)].fill = table_fill
ws[col + str(table_row)].font = title_font
ws[col + str(table_row)].alignment = c_c_alignment
ws[col + str(table_row)] = reporting_period_data['names'][i] + \
" (" + reporting_period_data['units'][i] + ")"
ws[col + str(table_row)].border = f_border
# 39 data
time = times[i]
time_len = len(time)
for j in range(0, time_len):
row = str(table_row + 1 + j)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(
reporting_period_data['values'][i][j], 2)
ws[col + row].border = f_border
current_row_number = table_row + 1 + len(times[0])
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)].border = f_border
ws['B' + str(current_row_number)] = 'Subtotal'
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)].border = f_border
ws[col + str(current_row_number)] = round(
reporting_period_data['subtotals'][i], 2)
# line
# 39~: line
line = LineChart()
line.title = 'Reporting Period Consumption - ' + ws.cell(
column=3 + i, row=table_row).value
labels = Reference(ws,
min_col=2,
min_row=table_row + 1,
max_row=max_row)
line_data = Reference(ws,
min_col=3 + i,
min_row=table_row,
max_row=max_row) # openpyxl bug
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 # val show
line.dLbls.showPercent = True # percent show
chart_col = 'B'
chart_cell = chart_col + str(chart_start_row_number + 6 * i)
ws.add_chart(line, chart_cell)
####################################################################################################################
has_parameters_names_and_timestamps_and_values_data = True
ca_len = len(report['reporting_period']['names'])
current_sheet_parameters_row_number = chart_start_row_number + ca_len * 6
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 = (re.sub(r'[^A-Z]', '', ws.title)) + '_'
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 read_input_table(wb,excel_index):
#Read in the top value in the sheet
input_table_sheet = excel_index['Input table sheet']
#Set worksheet to the input table sheet
ws_input = wb['Input Table']
input_table_offset = excel_index['Input table offset']
total_towers = excel_index['Total number of towers']
cur_tower_row = 1
table_start_row = cur_tower_row + input_table_offset
all_towers = []
cur_tower_num = 1
while cur_tower_num <= total_towers:
#create tower object
cur_tower = Tower(0,0,0,0,0,0,0,0,0,0,0)
#read member material
member_mat = ws_input['B'+str(cur_tower_row + 1)].value
cur_tower.member_mat = member_mat
#read rod material
rod_mat = ws_input['B'+str(cur_tower_row + 2)].value
cur_tower.rod_mat = rod_mat
#read building footprint in square inches
footprint = ws_input['B'+str(cur_tower_row + 3)].value
cur_tower.footprint = footprint
#read floor plans
floor_pln_col = excel_index['Floor plan col']
cur_floor_row = cur_tower_row + input_table_offset
floor_plans = []
while ws_input[floor_pln_col + str(cur_floor_row)].value is not None:
floor_pln = ws_input[floor_pln_col + str(cur_floor_row)].value
floor_plans.append(floor_pln)
cur_floor_row = cur_floor_row + 1
cur_tower.floor_plans = floor_plans
#read floor heights
floor_heights_col = excel_index['Floor height col']
cur_floor_row = cur_tower_row + input_table_offset
floor_heights = []
while ws_input[floor_heights_col + str(cur_floor_row)].value is not None:
floor_height = ws_input[floor_heights_col + str(cur_floor_row)].value
floor_heights.append(floor_height)
cur_floor_row = cur_floor_row + 1
cur_tower.floor_heights = floor_heights
#read column properties
col_props_start_col = excel_index['Column properties start']
col_props_end_col = excel_index['Column properties end']
cur_floor_row = cur_tower_row + input_table_offset
cur_col = col_props_start_col
col_props = {}
face = 1
while ws_input[cur_col + str(cur_floor_row)].value is not None:
col_props[face] = []
while cur_col != get_column_letter(column_index_from_string(col_props_end_col)+1):
col_prop = ws_input[cur_col + str(cur_floor_row)].value
col_props[face] = col_prop
cur_col = get_column_letter(column_index_from_string(cur_col)+1)
cur_col = col_props_start_col
cur_floor_row = cur_floor_row + 1
cur_tower.col_props = col_props
#read bracing properties
bracing_types_start_col = excel_index['Bracing type start']
bracing_types_end_col= excel_index['Bracing type end']
cur_floor_row = cur_tower_row + input_table_offset
cur_col = bracing_types_start_col
bracing_types = {}
face = 1
while ws_input[cur_col + str(cur_floor_row)].value is not None:
bracing_types[face] = []
while cur_col != get_column_letter(column_index_from_string(bracing_types_end_col)+1):
bracing_type = ws_input[cur_col + str(cur_floor_row)].value
bracing_types[face].append(bracing_type)
cur_col = get_column_letter(column_index_from_string(cur_col)+1)
cur_col = bracing_types_start_col
cur_floor_row = cur_floor_row + 1
face += 1
cur_tower.bracing_types = bracing_types
#read floor masses
floor_masses_col = excel_index['Floor mass col']
cur_floor_row = cur_tower_row + input_table_offset
floor_masses = []
while ws_input[floor_masses_col + str(cur_floor_row)].value is not None:
floor_mass = ws_input[floor_masses_col + str(cur_floor_row)].value
floor_masses.append(floor_mass)
cur_floor_row = cur_floor_row + 1
cur_tower.floor_masses = floor_masses
#read floor bracing types
floor_bracing_col = excel_index['Floor bracing col']
cur_floor_row = cur_tower_row + input_table_offset
floor_bracing_types = []
while ws_input[floor_bracing_col + str(cur_floor_row)].value is not None:
floor_bracing = ws_input[floor_bracing_col + str(cur_floor_row)].value
floor_bracing_types.append(floor_bracing)
cur_floor_row = cur_floor_row + 1
cur_tower.floor_bracing_types = floor_bracing_types
#read number of sides
side = []
side_start_col = excel_index['Bracing type start']
side_end_col= excel_index['Bracing type end']
cur_side_row = cur_tower_row + input_table_offset - 1
cur_col = side_start_col
while cur_col != get_column_letter(column_index_from_string(side_end_col)+1):
side_num = ws_input[cur_col + str(cur_side_row)].value
side.append(side_num)
cur_col = get_column_letter(column_index_from_string(cur_col)+1)
cur_tower.side = side
#increment
cur_tower.number = cur_tower_num
all_towers.append(cur_tower)
cur_tower_num = cur_tower_num + 1
cur_tower_row = cur_floor_row + 1
return all_towers
def set_sheet_column_widths(self, sheet, widths):
for index, width in enumerate(widths):
sheet.column_dimensions[get_column_letter(index +
1)].width = widths[index]
def add_auto_filters(sheet, start_column, start_row, length):
start_column_idx = column_index_from_string(start_column)
end_column = get_column_letter(start_column_idx + length - 1)
filter_range = start_column + str(start_row) + ':' + end_column + str(start_row)
sheet.auto_filter.ref = filter_range
def mod_radfrac(worksheet, large_arr):
rad_arr = []
tempChangeFlag = 0
temp_row = find_row_with_key(worksheet, "Calculated temperature [C]")
if (temp_row == 0):
tempChangeFlag = 1
temp_row = find_row_with_key(worksheet, "Calculated temperature [K]")
for arr in large_arr:
current_block_name = (worksheet[(get_column_letter(arr[0] - 1) +
"2")].value)
if (current_block_name == "RadFrac"):
rad_arr = arr
for col in worksheet.iter_cols(min_col=rad_arr[0] - 1,
max_col=rad_arr[0] - 1,
min_row=111,
max_row=111):
for cell in col:
cell.value = "Heat In, MW"
cell.fill = GREEN_HIGHLIGHT
for col in worksheet.iter_cols(min_col=rad_arr[0] - 1,
max_col=rad_arr[0] - 1,
min_row=112,
max_row=112):
for cell in col:
cell.value = "Heat Out, MW"
cell.fill = GREEN_HIGHLIGHT
for col in worksheet.iter_cols(min_col=rad_arr[0],
max_col=rad_arr[len(rad_arr) - 1],
min_row=33,
max_row=33): #Reboiler heat
for cell in col:
temp = cell.value
cell.offset(row=111 - 33).value = temp
for col in worksheet.iter_cols(min_col=rad_arr[0],
max_col=rad_arr[len(rad_arr) - 1],
min_row=27,
max_row=27): #Condensor heat duty
for cell in col:
temp = cell.value
cell.offset(row=112 - 27).value = temp
for col in worksheet.iter_cols(min_col=rad_arr[0],
max_col=rad_arr[len(rad_arr) - 1],
min_row=110,
max_row=110):
for cell in col:
val1_off = cell.offset(row=32 - 110).value + 273.15
val1 = cell.offset(row=1).value / val1_off
val2_off = cell.offset(row=25 - 110).value + 273.15
val2 = cell.offset(row=2).value / val2_off
temp = cell.value - (val1 + val2) * 1000
cell.value = temp
for col in worksheet.iter_cols(min_col=rad_arr[0],
max_col=rad_arr[len(rad_arr) - 1],
min_row=temp_row,
max_row=temp_row):
for cell in col:
print(cell.value)
def generate_excel(report, name, reporting_start_datetime_local,
reporting_end_datetime_local, period_type):
wb = Workbook()
# todo
ws = wb.active
ws.title = "TenantLoad"
# 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 \
"timestamps" not in report['reporting_period'].keys() or len(report['reporting_period']['timestamps']) == 0:
filename = str(uuid.uuid4()) + '.xlsx'
wb.save(filename)
return filename
####################################################################################################################
has_names_data_flag = True
if "names" not in report['reporting_period'].keys() or len(
report['reporting_period']['names']) == 0:
has_names_data_flag = False
current_row_number = 6
if has_names_data_flag:
reporting_period_data = report['reporting_period']
category = reporting_period_data['names']
ca_len = len(category)
ws['B' + str(current_row_number)].font = title_font
ws['B' +
str(current_row_number)] = name + 'Reporting Period Average Load'
current_row_number += 1
ws.row_dimensions[current_row_number].height = 60
ws['B' + str(current_row_number)].fill = table_fill
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)].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)] = reporting_period_data['names'][i] + \
" (" + reporting_period_data['units'][i] + "/H)"
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)].border = f_border
ws['B' + str(current_row_number)] = 'Average Load'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = round(reporting_period_data['averages'][i], 2) \
if reporting_period_data['averages'][i] is not None else 'N/A'
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)].border = f_border
ws['B' + str(current_row_number)] = 'Per Unit Area'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = round(reporting_period_data['averages_per_unit_area'][i], 2) \
if reporting_period_data['averages_per_unit_area'][i] is not None else 'N/A'
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)].border = f_border
ws['B' + str(current_row_number)] = 'Increment Rate'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = str(
round(reporting_period_data['averages_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['averages_increment_rate'][i] is not None else "-"
current_row_number += 2
ws['B' + str(current_row_number)].font = title_font
ws['B' +
str(current_row_number)] = name + 'Reporting Period Maximum Load'
current_row_number += 1
ws.row_dimensions[current_row_number].height = 60
ws['B' + str(current_row_number)].fill = table_fill
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)].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)] = reporting_period_data['names'][i] + \
" (" + reporting_period_data['units'][i] + "/H)"
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)].border = f_border
ws['B' + str(current_row_number)] = 'Maximum Load'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = round(reporting_period_data['maximums'][i], 2) \
if reporting_period_data['maximums'][i] is not None else 'N/A'
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)].border = f_border
ws['B' + str(current_row_number)] = 'Per Unit Area'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = round(reporting_period_data['maximums_per_unit_area'][i], 2) \
if reporting_period_data['maximums_per_unit_area'][i] is not None else 'N/A'
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)].border = f_border
ws['B' + str(current_row_number)] = 'Increment Rate'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = str(
round(reporting_period_data['maximums_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['maximums_increment_rate'][i] is not None else "-"
current_row_number += 2
ws['B' + str(current_row_number)].font = title_font
ws['B' +
str(current_row_number)] = name + 'Reporting Period Load Factor'
current_row_number += 1
ws.row_dimensions[current_row_number].height = 60
ws['B' + str(current_row_number)].fill = table_fill
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)].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)] = reporting_period_data['names'][i]
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)].border = f_border
ws['B' + str(current_row_number)] = 'Load Factor'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = round(reporting_period_data['factors'][i], 2) \
if reporting_period_data['factors'][i] is not None else '-'
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)].border = f_border
ws['B' + str(current_row_number)] = 'Increment Rate'
for i in range(0, ca_len):
col = chr(ord('C') + i)
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)] = str(
round(reporting_period_data['factors_increment_rate'][i] * 100, 2)) + "%" \
if reporting_period_data['factors_increment_rate'][i] is not None else "-"
current_row_number += 2
has_sub_averages_data_flag = True
has_sub_maximums_data_flag = True
if "sub_averages" not in report['reporting_period'].keys() or len(
report['reporting_period']['sub_averages']) == 0:
has_sub_averages_data_flag = False
if "sub_averages" not in report['reporting_period'].keys() or len(
report['reporting_period']['sub_averages']) == 0:
has_sub_maximums_data_flag = False
if has_sub_averages_data_flag or has_sub_maximums_data_flag:
reporting_period_data = report['reporting_period']
category = reporting_period_data['names']
ca_len = len(category)
times = reporting_period_data['timestamps']
time = times[0]
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'
current_row_number += 1
chart_start_number = current_row_number
current_row_number += real_timestamps_len * 7
if has_sub_averages_data_flag:
current_row_number = (current_row_number + ca_len * 6)
if has_sub_maximums_data_flag:
current_row_number = (current_row_number + ca_len * 6)
table_start_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 = title_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)] = 'Datetime'
col = 'C'
for i in range(0, ca_len):
if has_sub_averages_data_flag:
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)].border = f_border
ws[col + str(current_row_number)] = reporting_period_data['names'][i] + \
" Average Load(" + reporting_period_data['units'][i] + "/H)"
col = chr(ord(col) + 1)
if has_sub_maximums_data_flag:
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)].border = f_border
ws[col + str(current_row_number)] = reporting_period_data['names'][i] + \
" Maximum Load(" + reporting_period_data['units'][i] + "/H)"
col = chr(ord(col) + 1)
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)].border = f_border
ws['B' + str(current_row_number)] = time[i]
col = 'C'
for j in range(0, ca_len):
if has_sub_averages_data_flag:
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)].border = f_border
ws[col + str(current_row_number)] = round(reporting_period_data['sub_averages'][j][i], 2) \
if reporting_period_data['sub_averages'][j][i] is not None else 0.00
col = chr(ord(col) + 1)
if has_sub_maximums_data_flag:
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)].border = f_border
ws[col + str(current_row_number)] = round(reporting_period_data['sub_maximums'][j][i], 2) \
if reporting_period_data['sub_maximums'][j][i] is not None else 0.00
col = chr(ord(col) + 1)
current_row_number += 1
table_end_number = current_row_number - 1
current_chart_col_number = 3
current_chart_row_number = chart_start_number
for i in range(0, ca_len):
labels = Reference(ws,
min_col=2,
min_row=table_start_number + 1,
max_row=table_end_number)
if has_sub_averages_data_flag:
line = LineChart()
line.title = 'Reporting Period Average Load - ' + ws.cell(
column=current_chart_col_number,
row=table_start_number).value
datas = Reference(ws,
min_col=current_chart_col_number,
min_row=table_start_number,
max_row=table_end_number)
line.add_data(datas, 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
ws.add_chart(line, "B" + str(current_chart_row_number))
current_chart_row_number += 6
current_chart_col_number += 1
if has_sub_maximums_data_flag:
line = LineChart()
line.title = 'Reporting Period Maximum Load - ' + ws.cell(
column=current_chart_col_number,
row=table_start_number).value
datas = Reference(ws,
min_col=current_chart_col_number,
min_row=table_start_number,
max_row=table_end_number)
line.add_data(datas, 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
ws.add_chart(line, "B" + str(current_chart_row_number))
current_chart_row_number += 6
current_chart_col_number += 1
####################################################################################################################
current_sheet_parameters_row_number = current_chart_row_number + 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 = (re.sub(r'[^A-Z]', '', ws.title)) + '_'
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 step_fourteen(worksheet):
mass_balance_row = find_row_with_key(worksheet, "Mass balance kg/hr")
block_arr = get_block_arr(worksheet)
spec_arr = []
large_arr = []
sumVal = 0
for block_range in block_arr:
for x in range(block_range[0], block_range[1] + 1):
spec_arr.append(x)
large_arr.append(spec_arr)
spec_arr = []
for arr in large_arr:
current_block_name = (worksheet[(get_column_letter(arr[0] - 1) +
"2")].value)
for col in arr:
sumVal = float(0.0)
curr = worksheet[(get_column_letter(col) + "67")].value #Inlet1
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "71")].value #Inlet2
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "75")].value #Inlet3
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "79")].value #Inlet4
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "83")].value #Outlet1
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "87")].value #Outlet2
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "91")].value #Outlet3
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "95")].value #Outlet4
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "99")].value #Outlet5
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "103")].value #Outlet6
if (curr != None):
sumVal -= float(curr)
writeCell = worksheet[(get_column_letter(col) + "108")]
if (abs(sumVal <= 10)):
writeCell.value = round_val(
sumVal) #Write Cell - i.e Mass Balance
else:
writeCell.value = round_val(
sumVal) #Write Cell - i.e Mass Balance
print("MB_Error, Mass Balance is: " + str(sumVal))
print("See block: " + current_block_name)
# return 0
for arr in large_arr:
current_block_name = (worksheet[(get_column_letter(arr[0] - 1) +
"2")].value)
for col in arr:
sumVal = float(0.0) #Debug
curr = worksheet[(get_column_letter(col) + "68")].value #Inlet1
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "72")].value #Inlet2
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "76")].value #Inlet3
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "80")].value #Inlet4
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "84")].value #Outlet1
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "88")].value #Outlet2
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "92")].value #Outlet3
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "96")].value #Outlet4
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "100")].value #Outlet5
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "104")].value #Outlet6
if (curr != None):
sumVal -= float(curr)
curr = worksheet[(get_column_letter(col) + "106")].value #Work MW
if (curr != None):
sumVal += float(curr)
curr = worksheet[(get_column_letter(col) + "107")].value #Heat MW
if (curr != None):
sumVal += float(curr)
writeCell = worksheet[(get_column_letter(col) + "109")]
if (abs(sumVal) <= 1):
writeCell.value = round_val(
sumVal) #Write Cell - i.e Energy Balance
else:
writeCell.value = round_val(
sumVal) #Write Cell - i.e Energy Balance
print("MB_Error, Energy Balance is: " + str(sumVal))
print("See block: " + current_block_name)
# return 0
for arr in large_arr:
current_block_name = (worksheet[(get_column_letter(arr[0] - 1) +
"2")].value)
for col in arr:
sumVal = float(0.0)
curr = worksheet[(get_column_letter(col) + "85")].value #Outlet1
if (curr != None):
sumVal += curr
curr = worksheet[(get_column_letter(col) + "89")].value #Outlet2
if (curr != None):
sumVal += curr
curr = worksheet[(get_column_letter(col) + "93")].value #Outlet3
if (curr != None):
sumVal += curr
curr = worksheet[(get_column_letter(col) + "97")].value #Outlet4
if (curr != None):
sumVal += curr
curr = worksheet[(get_column_letter(col) + "101")].value #Outlet5
if (curr != None):
sumVal += curr
curr = worksheet[(get_column_letter(col) + "105")].value #Outlet6
if (curr != None):
sumVal += curr
curr = worksheet[(get_column_letter(col) + "69")].value #Inlet1
if (curr != None):
sumVal -= curr
curr = worksheet[(get_column_letter(col) + "73")].value #Inlet2
if (curr != None):
sumVal -= curr
curr = worksheet[(get_column_letter(col) + "77")].value #Inlet3
if (curr != None):
sumVal -= curr
curr = worksheet[(get_column_letter(col) + "81")].value #Inlet4
if (curr != None):
sumVal -= curr
curr = worksheet[(get_column_letter(col) +
"107")].value #Heat Duty
if (curr != None):
sumVal -= curr
writeCell = worksheet[(get_column_letter(col) + "110")]
if (abs(sumVal) >= -1):
writeCell.value = round_val(
sumVal) #Write Cell - i.e Entropy generation
else:
writeCell.value = round_val(
sumVal
) #Manual bypass, should throw error according to specs
print("Sgen_Error, Entropy Balance is: " + str(sumVal))
print("See block: " + current_block_name)
mod_radfrac(worksheet, large_arr)
add_temperature(worksheet)
return 1
def set_row_format(self, row, row_format):
col=1
for i in row_format:
if i is not None:
self.ws[get_column_letter(col)+str(row)].number_format=i
col+=1
def add_style_nqe(nqe_dataframe, PATH, dict_t0):
wb = load_workbook(PATH)
ws = wb['NQE Biote']
nb_rows, nb_columns = nqe_dataframe.shape
header_row = '4'
header_columns = [get_column_letter(col_idx) for col_idx in list(range(2, nb_columns + 2))]
borders = Border(left=Side(border_style='thin', color='FFFFFF'),
right=Side(border_style='thin', color='FFFFFF'),
top=Side(border_style='thin', color='FFFFFF'),
bottom=Side(border_style='thin', color='FFFFFF'))
for letter in [get_column_letter(col_idx) for col_idx in range(1, nb_columns+5)]:
for number in range(1, nb_rows+7):
ws[letter+str(number)].border = borders
t0_threshold_list = QueryScript(f" SELECT sandre, concentration_t0_max FROM {env.DATABASE_TREATED}.r3 WHERE version= {env.CHOSEN_VERSION()}").execute()
t0_threshold = {}
for sandre, concentration in t0_threshold_list :
if concentration :
t0_threshold[sandre] = concentration
## UNIT
[unit_crustacean, sandre_crustacean, NQE_crustacean] = chemistry.get_unit_NQE(elements_crustacean.keys())
parameter_crustacean = [elements_crustacean[element] for element in elements_crustacean]
[unit_fish, sandre_fish, NQE_fish] = chemistry.get_unit_NQE(elements_fish.keys())
parameter_fish = [elements_fish[element] for element in elements_fish]
index = 0
sandre_checked = sandre_crustacean
unit_checked = unit_crustacean
for letter in header_columns[5:]:
index =None
if ws[letter + '4'].value and int(ws[letter + '4'].value) in sandre_crustacean:
index = sandre_crustacean.index(int(ws[letter + '4'].value))
if not index:
index = sandre_crustacean.index(ws[letter + '4'].value)
sandre_checked = sandre_crustacean
parameter_checked = parameter_crustacean
unit_checked = unit_crustacean
elif ws[letter + '4'].value and int(ws[letter + '4'].value) in sandre_fish:
index = sandre_fish.index(int(ws[letter + '4'].value))
if not index:
index = sandre_fish.index(ws[letter + '4'].value)
sandre_checked = sandre_fish
parameter_checked = parameter_fish
unit_checked = unit_fish
if index!=None:
ws[letter + '2'].value = unit_checked[index]
ws[letter + '3'].value = sandre_checked[index]
ws[letter + '4'].value = parameter_checked[index]
## HEADER STYLE ##
ws['B2'].value = 'Campagne'
ws['C2'].value = '#'
ws['D2'].value = 'Station de mesure'
ws['E2'].value = 'Code agence'
header_cells = [c+header_row for c in header_columns]
header_font = Font(size=8, bold=True, name='Arial')
header_alignment_rotate = Alignment(horizontal='center', vertical='bottom', text_rotation=90)
header_alignment_no_rotate = Alignment(horizontal='center', vertical='bottom')
borders = Border(left=Side(border_style='thin', color='FF000000'),
right=Side(border_style='thin', color='FF000000'),
top=Side(border_style='thin', color='FF000000'),
bottom=Side(border_style='thin', color='FF000000'))
ws.column_dimensions['B'].width=3
ws.column_dimensions['C'].width=3
ws.column_dimensions['D'].width=30
ws.column_dimensions['E'].width=8
for letter in header_columns[:4]:
for number in range(2,5):
ws[letter+str(number)].border = borders
ws[letter+str(number)].font = header_font
ws['B2'].alignment = header_alignment_rotate
ws['C2'].alignment = header_alignment_no_rotate
ws['D2'].alignment = header_alignment_no_rotate
ws['E2'].alignment = header_alignment_rotate
header_font = Font(size=8, name='Arial')
for letter in header_columns[4:]:
if (ws[letter+'5'].value !=None and ws[letter+'5'].value !='') :
ws.column_dimensions[letter].width=6
ws[letter+'4'].alignment = header_alignment_rotate
ws[letter+'4'].font = header_font
ws[letter+'3'].alignment = header_alignment_no_rotate
ws[letter+'3'].font = header_font
ws[letter+'2'].alignment = header_alignment_no_rotate
ws[letter+'2'].font = header_font
else :
ws.column_dimensions[letter].width=2
## ADD T0
t0_mp = []
for mp in dict_t0:
if not dict_t0[mp]['code_t0_id'] in t0_mp and dict_t0[mp]['code_t0_id']:
t0_mp.append(dict_t0[mp]['code_t0_id'])
if len(t0_mp) > 1 or len(t0_mp) == 0:
query_tuple_t0 = tuple(t0_mp)
else:
query_tuple_t0 = f"({t0_mp[0]})"
reference_dict = {}
if len(t0_mp):
reference_result = QueryScript(f"SELECT reference, id FROM {env.DATABASE_RAW}.Measurepoint WHERE id IN {query_tuple_t0}").execute()
else:
reference_result = []
for reference in reference_result:
reference_dict.update({reference[1]:reference[0]})
t0_result=[]
if len(t0_mp):
t0_result = QueryScript(f"SELECT sandre, prefix, value, Pack.measurepoint_id, Measurepoint.reference FROM {env.DATABASE_RAW}.Analysis JOIN {env.DATABASE_RAW}.Pack ON Pack.id= Analysis.pack_id JOIN {env.DATABASE_RAW}.Measurepoint ON Pack.measurepoint_id=Measurepoint.id WHERE Pack.measurepoint_id IN {query_tuple_t0};").execute()
dict_t0_result= {}
for element in t0_result:
if not element[3] in dict_t0_result:
dict_t0_result.update({element[3]: {element[0]:element[1] + str(element[2]) if element[1] else str(element[2]), 'reference': element[4]}})
else :
dict_t0_result[element[3]][element[0]] = element[1] + str(element[2]) if element[1] else str(element[2])
t0_font = Font(size=6, name='Arial')
t0_border = Border(left=Side(border_style='thin', color='000000'),
right=Side(border_style='thin', color='000000'),
top=Side(border_style='thin', color='000000'),
bottom=Side(border_style='thin', color='000000'))
t0_not_valid = Border(left=Side(border_style='medium', color='FF0000'),
right=Side(border_style='medium', color='FF0000'),
top=Side(border_style='medium', color='FF0000'),
bottom=Side(border_style='medium', color='FF0000'))
body_alignment = Alignment(horizontal='center', vertical='center')
for index, t0 in enumerate(t0_mp):
ws['B'+str(nb_rows+5+index)].font = t0_font
ws['B'+str(nb_rows+5+index)].border = t0_border
ws['C'+str(nb_rows+5+index)].font = t0_font
ws['C'+str(nb_rows+5+index)].border = t0_border
ws['D'+str(nb_rows+5+index)].font = t0_font
ws['D'+str(nb_rows+5+index)].border = t0_border
if t0 in dict_t0_result :
ws['D'+str(nb_rows+5+index)].value = dict_t0_result[t0]['reference']
else :
ws['D'+str(nb_rows+5+index)].value = reference_dict[t0]
ws['E'+str(nb_rows+5+index)].font = t0_font
ws['E'+str(nb_rows+5+index)].border = t0_border
for letter in header_columns[5:]:
sandre = ws[letter +'3'].value
if t0 in dict_t0_result and str(sandre) in dict_t0_result[t0]:
ws[letter+str(nb_rows+5+index)].value = dict_t0_result[t0][str(sandre)]
if str(sandre) in t0_threshold and str(dict_t0_result[t0][str(sandre)])[0]!='<' and float(dict_t0_result[t0][str(sandre)]) > t0_threshold[str(sandre)] :
ws[letter+str(nb_rows+5+index)].border = t0_not_valid
else :
ws[letter+str(nb_rows+5+index)].border = t0_border
ws[letter+str(nb_rows+5+index)].font = t0_font
ws[letter+str(nb_rows+5+index)].alignment = body_alignment
elif sandre != None :
ws[letter+str(nb_rows+5+index)].value = 'ND'
ws[letter+str(nb_rows+5+index)].font = t0_font
ws[letter+str(nb_rows+5+index)].border = t0_border
ws[letter+str(nb_rows+5+index)].alignment = body_alignment
## BODY STYLE ##
body_rows = [str(r) for r in list(range(5, nb_rows + 5 + len(t0_mp)))]
body_columns = header_columns[5:]
body_font = Font(size=6, name='Arial')
body_fill_ok = PatternFill(fill_type='solid', start_color='318CE7', end_color='318CE7')
body_fill_nd = PatternFill(fill_type='solid', start_color='FFFFFF', end_color='FFFFFF')
body_fill_not_ok = PatternFill(fill_type='solid', start_color='BB0B0B', end_color='BB0B0B')
body_alignment = Alignment(horizontal='center', vertical='center')
for column in header_columns:
for row in body_rows:
if column in ['B','C','D','E']:
ws[column+row].border = borders
ws[column+row].font = body_font
for column in body_columns:
sandre_checked = ws[column+'3'].value
if sandre_checked!='' and sandre_checked!=None:
try :
index = sandre_crustacean.index(sandre_checked)
threshold = NQE_crustacean[index]
except :
threshold = ''
for row in body_rows:
cell = ws[column+row]
value = cell.value
cell.font = body_font
if value!=None :
cell.alignment = body_alignment
if (value!="ND" and value!='0.0' and threshold!='') and ((value!='' and value[0]=='<') or float(value)<threshold):
cell.fill = body_fill_ok
elif (value!="ND" and value!='0.0' and threshold!='' and float(value)>=threshold):
cell.fill = body_fill_not_ok
for index,mp in enumerate(dict_t0):
try :
if ws[header_columns[-1] + str(index+5)].value and ws[header_columns[-1] + str(index+5)].value in dict_t0:
index_t0_associated = t0_mp.index(dict_t0[ws[header_columns[-1] + str(index+5)].value]['code_t0_id'])
for column in header_columns[5:]:
t0_ok = True if ws[column + str(5+nb_rows+index_t0_associated)].border != t0_not_valid else False
if ws[column + str(5+nb_rows+index_t0_associated)].value!= None and ws[column + str(5+nb_rows+index_t0_associated)].value!= '':
if not t0_ok :
ws[column + str(5+index)].border = t0_not_valid
ws[column + str(5+index)].font = body_font
else :
ws[column + str(5+index)].border = borders
ws[column + str(5+index)].font = body_font
except ValueError :
for column in header_columns[5:]:
ws[column + str(5+index)].border = borders
ws[column + str(5+index)].font = body_font
ws.delete_cols(len(header_columns)+1,1)
for letter in header_columns[5:]:
for number in range(5, nb_rows+21):
ws[letter + str(number)].value = str(ws[letter + str(number)].value).replace(".", ",") if ws[letter + str(number)].value else ''
ws.freeze_panes = ws["F6"]
wb.save(PATH)
wb.close()
wb = load_workbook(PATH)
ws = wb['NQE Biote']
## Add threshold table
ws.insert_rows(1)
ws.insert_rows(1)
ws["F2"].value = "Seuil NQE"
ws.column_dimensions['F'].width=10
for letter in header_columns[5:]:
if ws[letter + "5"].value :
try :
index_found = sandre_crustacean.index(ws[letter + "5"].value)
NQE_found = NQE_crustacean[index_found]
ws[letter+"1"].border = borders
ws[letter+"2"].value = NQE_found
ws[letter+"2"].border = borders
except ValueError :
try :
index_found = sandre_fish.index(ws[letter + "5"].value)
NQE_found = NQE_fish[index_found]
ws[letter+"1"].border = borders
ws[letter+"2"].value = NQE_found
ws[letter+"2"].border = borders
except ValueError :
continue
## Merge unit
current_unit = ws['G4'].value
first_letter = 'G'
last_letter = 'G'
index = 6
while index <len(header_columns):
while index <len(header_columns) and ws[header_columns[index] + '4'].value == current_unit :
last_letter = header_columns[index]
index +=1
ws.merge_cells(first_letter + '4:'+last_letter+'4')
if index<len(header_columns):
first_letter = last_letter = header_columns[index]
current_unit = ws[first_letter +'4'].value
index+=1
first_letter = 'G'
last_letter = 'G'
index = 6
while index <len(header_columns)-1:
while index <len(header_columns) and ws[header_columns[index] + '5'].value in elements_crustacean or ws[header_columns[index] + '5'].value in elements_fish :
last_letter = header_columns[index]
index +=1
if ws[header_columns[index-1] + '5'].value in elements_crustacean :
ws[first_letter+'1'].value = 'NQE Crustacé'
ws.merge_cells(first_letter + '1:'+last_letter+'1')
elif ws[header_columns[index-1] + '5'].value in elements_fish :
ws[first_letter+'1'].value = 'NQE Poisson'
ws.merge_cells(first_letter + '1:'+last_letter+'1')
if index<len(header_columns)-1:
index+=1
first_letter = last_letter = header_columns[index]
ws.merge_cells('B4:B6')
ws.merge_cells('C4:C6')
ws.merge_cells('D4:D6')
ws.merge_cells('E4:E6')
wb.save(PATH)
wb.close()
def export_nach_excel(namedtuple_in: namedtuple,
detail_name: str,
data_list: list,
filename_postfix="",
filename_in=None,
mappings=dict(),
export_name=None,
export_beschreibung=None):
if filename_in is None:
if export_name is None:
# Export Name aus Nametuple ableiten
export_name = namedtuple_in.__name__.capitalize()
export_beschreibung = None
else:
if export_name is not None or export_beschreibung is not None:
raise RuntimeError(
"'filename_in' und 'export_name' oder 'export_beschreibung' "
"dürfen nicht zusammen angegeben werden!")
# filename_in wird verwendet um
# 1. den ersten Teil bis zum " " als echten Dateinamen zu verwenden
# 2. eine zusätzliche Infozeile auszugeben
# Hinweis: bei zu langen Dateinamen unter Windows/Excel, kommt es zu einer kaputten Excel Datei,
# die beim Öffnen dann immer zuerst autom. durch Excel repariert werden muss
if "~" in filename_in:
# Filename~Export Name~Beschreibung
export_name = filename_in.split("~")[0]
export_beschreibung = filename_in.split(
"~")[1] + ": " + filename_in.split("~")[2]
else:
export_name = filename_in if " " not in filename_in else filename_in.split(
" ")[0]
export_beschreibung = filename_in
timestamp = datetime.datetime.now().strftime("_Export_%Y-%m-%d_%H_%M")
filename = "{}_{}_{}_{}.xlsx".format(filename_postfix, export_name,
detail_name, timestamp)
filename = re.sub(r'^_', '', filename)
filename = filename.replace(" ", "_")
filename = re.sub(r'_{2,9}', '_', filename)
temp_dir = tempfile.gettempdir()
export_file_path = os.path.join(temp_dir, filename)
wb = Workbook()
ws = wb.active
ws.title = export_name
column_header = PatternFill(start_color='AAAAAA',
end_color='AAAAAA',
fill_type='solid')
if export_beschreibung is not None:
row = 4
ws.cell(column=1, row=1, value=export_beschreibung)
ws.cell(column=1,
row=2,
value="Datum: {}".format(
datetime.datetime.now().strftime("%d.%m.%Y %H:%M")))
ws.merge_cells('A1:H1')
ws.merge_cells('A2:H2')
else:
row = 1
column = 1
for name in namedtuple_in._fields:
ws.cell(column=column, row=row, value=name.capitalize())
col = ws["{}{}".format(get_column_letter(column), row)]
col.font = Font(bold=True)
col.fill = column_header
column += 1
row += 1
for data in data_list:
column = 1
for name, value in data._asdict().items():
try:
if name in mappings:
mapped_value = mappings[name](value)
else:
mapped_value = map_str_value(value)
except Exception:
logger.warning(
"Fehler bei mapped_value, Wert: '{}'".format(value))
mapped_value = value
cell = ws.cell(column=column, row=row, value=mapped_value)
if isinstance(mapped_value, datetime.date):
cell.number_format = 'DD.MM.YYYY'
column += 1
row += 1
wb.save(filename=export_file_path)
return export_file_path
elif a == 'CPD':
a = "CPD(承诺交单日期)"
CPDPos = x.column
elif a == '国家':
CountryPos = x.column
elif a == '备货单': #备货单和整机标识,通常二选一
BillPos = x.column
elif a == '整机标识':
WholeDevicePos = x.column
content1.append(a)
#第一行遍历完,到最后一列
print(BillPos)
if x.row == 1:
content1.extend(['version', 'IsMain', 'Date', 'Site', 'Region'])
else:
b = get_column_letter(VerCodePos) + str(x.row)
a = "=VLOOKUP({0}, '{1}'!C2:F5, 4, FALSE)".format(b, FileNameVerList)
content1.append(a)
a = "=VLOOKUP({0}, '{1}'!C2:F5, 2, FALSE)".format(b, FileNameVerList)
content1.append(a)
b = get_column_letter(ASDPos) + str(x.row)
a = "=TEXT({0},\"YYYY/MM\")".format(b)
content1.append(a)
if BillPos != 0:
b = get_column_letter(BillPos) + str(x.row)
a = "=VLOOKUP({0}, L{1}:L5, 1, FALSE)".format(b, x.row)
content1.append(a)
b = get_column_letter(CountryPos) + str(x.row)
def set_cell_value(self, row, col, value):
col_letter = get_column_letter(col)
self.ws[str(col_letter) + str(row)] = value
def write_common(sheet, report_dict):
title = 'Общие метрики'
subtitles = ['', 'Сессии', 'Заказы', 'Выручка', 'Конверсия', 'RPS', 'AOV']
row_names = [
'Всего', 'Сессии без поиска', 'Сессии с поиском', 'С поиском / Всего'
]
cells = {
key: report_dict[key]
for key in {
'orders_total', 'revenue_total', 'sessions_total',
'autocomplete_and_search_sessions_total',
'autocomplete_and_search_sessions_revenue',
'autocomplete_and_search_sessions_orders_total'
}
}
# styling title
sheet['A1'] = title
sheet['A1'].style = 'title'
sheet.merge_cells('A1:G1')
# styling subtitle
for s_row in range(2, 3):
for s_col in range(1, 8):
s_ind = get_column_letter(s_col) + str(s_row)
sheet[s_ind] = subtitles[s_col - 1]
sheet[s_ind].style = 'subtitle'
# styling percents
for pc_row in range(3, 6):
sheet['E' + str(pc_row)].number_format = '0.00%'
for pc_col in range(2, 5):
sheet[get_column_letter(pc_col) + '6'].number_format = '0.00%'
# styling floats
for fl_row in range(3, 6):
for fl_col in range(6, 8):
fl_ind = get_column_letter(fl_col) + str(fl_row)
sheet[fl_ind].number_format = '#,##0.00'
# writing row names
for rn_row in range(3, 7):
sheet['A' + str(rn_row)] = row_names[rn_row - 3]
# total
sheet['B3'] = cells['sessions_total']
sheet['C3'] = cells['orders_total']
sheet['D3'] = cells['revenue_total']
try:
sheet['E3'] = round(sheet['C3'].value / sheet['B3'].value)
except ZeroDivisionError:
sheet['E3'] = 0
try:
sheet['F3'] = round(sheet['D3'].value / sheet['B3'].value, 2)
except ZeroDivisionError:
sheet['F3'] = 0
try:
sheet['G3'] = round(sheet['D3'].value / sheet['C3'].value, 2)
except ZeroDivisionError:
sheet['G3'] = 0
# sessions without search
sheet['B4'] = cells['sessions_total'] - cells[
'autocomplete_and_search_sessions_total']
sheet['C4'] = cells['orders_total'] - cells[
'autocomplete_and_search_sessions_orders_total']
sheet['D4'] = cells['revenue_total'] - cells[
'autocomplete_and_search_sessions_revenue']
try:
sheet['E4'] = round(sheet['C4'].value / sheet['B4'].value, 2)
except ZeroDivisionError:
sheet['E4'] = 0
try:
sheet['F4'] = round(sheet['D4'].value / sheet['B4'].value, 2)
except ZeroDivisionError:
sheet['F4'] = 0
try:
sheet['G4'] = round(sheet['D4'].value / sheet['C4'].value, 2)
except ZeroDivisionError:
sheet['G4'] = 0
# sessions with search
sheet['B5'] = cells['autocomplete_and_search_sessions_total']
sheet['C5'] = cells['autocomplete_and_search_sessions_orders_total']
sheet['D5'] = cells['autocomplete_and_search_sessions_revenue']
try:
sheet['E5'] = round(sheet['C5'].value / sheet['B5'].value, 2)
except ZeroDivisionError:
sheet['E5'] = 0
try:
sheet['F5'] = round(sheet['D5'].value / sheet['B5'].value, 2)
except ZeroDivisionError:
sheet['F5'] = 0
try:
sheet['G5'] = round(sheet['D5'].value / sheet['C5'].value, 2)
except ZeroDivisionError:
sheet['G5'] = 0
# with search / total
try:
sheet['B6'] = round(
cells['autocomplete_and_search_sessions_total'] /
cells['sessions_total'], 2)
except ZeroDivisionError:
sheet['B6'] = 0
try:
sheet['C6'] = round(
cells['autocomplete_and_search_sessions_orders_total'] /
cells['orders_total'], 2)
except ZeroDivisionError:
sheet['C6'] = 0
try:
sheet['D6'] = round(
cells['autocomplete_and_search_sessions_revenue'] /
cells['revenue_total'], 2)
except ZeroDivisionError:
sheet['D6'] = 0
import openpyxl
import sys
from openpyxl.utils.cell import get_column_letter
if len(sys.argv) < 2:
print('usage: py transposition.py [xlsx]')
exit()
xlsxFile = sys.argv[1]
# Open xlsx and read it
wbRead = openpyxl.load_workbook(xlsxFile)
sheetRead = wbRead.get_active_sheet()
# Create sheet to be write
wbWrite = openpyxl.Workbook()
sheetWrite = wbWrite.get_active_sheet()
# Transposition
for i in range(1, sheetRead.max_row+1):
for j in range(1, sheetRead.max_column+1):
coordRead = get_column_letter(j)+str(i)
coordWrite = get_column_letter(i)+str(j)
sheetWrite[coordWrite] = sheetRead[coordRead].value
# save sheet to file
wbWrite.save(xlsxFile+'.trans.xlsx')
wb = Workbook()
ws = wb.active
for r_idx, row in enumerate(rows, 1):
for c_idx, value in enumerate(row, 1):
ws.cell(row=r_idx, column=c_idx, value=value)
# Set column widths based on title width or fixed number
widths = {}
for column in ws.columns:
if column[0].value is None: # no column header => Fixed with
widths[column[0].column] = 10.5
else: # if column header is present => min width resp. maximum
widths[column[0].column] = max(len(str(column[0].value)) * 1.45, 10.5)
ws.column_dimensions[get_column_letter(column[0].column)].width = widths[column[0].column]
# Insert formatted table from A1 to max column/max row
tab = Table(displayName="MeineTabelle", ref='A1:' + get_column_letter(ws.max_column) + str(ws.max_row))
style = TableStyleInfo(name="TableStyleLight9", showFirstColumn=False,
showLastColumn=False, showRowStripes=True, showColumnStripes=True)
tab.tableStyleInfo = style
ws.add_table(tab)
# conditional formatting
redFill = PatternFill(start_color='EE1111',end_color='EE1111',fill_type='solid')
greenFill = PatternFill(start_color='EE1111',end_color='11EE11',fill_type='solid')
ws.conditional_formatting.add('A2:B'+str(ws.max_row),CellIsRule(operator='equal', formula=[1], stopIfTrue=True, fill=greenFill))
ws.conditional_formatting.add('A2:B'+str(ws.max_row),CellIsRule(operator='notEqual', formula=[1], stopIfTrue=True, fill=redFill))
lightbluefill = PatternFill(start_color='CCCCFF',end_color='CCCCFF',fill_type='solid')
def generate_excel(report,
name,
reporting_start_datetime_local,
reporting_end_datetime_local,
period_type):
wb = Workbook()
ws = wb.active
# Row height
ws.row_dimensions[1].height = 102
for i in range(2, 8):
ws.row_dimensions[i].height = 42
# for i in range(2, 6 + 1):
# ws.row_dimensions[i].height = 30
# Col width
ws.column_dimensions['A'].width = 1.5
ws.column_dimensions['B'].width = 25.0
for i in range(ord('C'), ord('V')):
ws.column_dimensions[chr(i)].width = 15.0
# Font
name_font = Font(name='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
data_font = Font(name='Franklin Gothic Book', size=11)
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)
c_r_alignment = Alignment(vertical='bottom',
horizontal='center',
text_rotation=0,
wrap_text=True,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
ws.add_image(img, 'B1')
# Title
ws.row_dimensions[3].height = 60
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws['G3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
ws.merge_cells("G3:H3")
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
################################################
# First: 趋势
# 6: title
# 7: table title
# 8~ table_data
################################################
has_data_flag = True
reporting_period_data = report['reporting_period']
if "names" not in reporting_period_data.keys() or \
reporting_period_data['names'] is None or \
len(reporting_period_data['names']) == 0:
has_data_flag = False
if "timestamps" not in reporting_period_data.keys() or \
reporting_period_data['timestamps'] is None or \
len(reporting_period_data['timestamps']) == 0:
has_data_flag = False
if "values" not in reporting_period_data.keys() or \
reporting_period_data['values'] is None or \
len(reporting_period_data['values']) == 0:
has_data_flag = False
ca = reporting_period_data['names']
ca_len = len(ca)
temp_max_row = 0
times = reporting_period_data['timestamps']
category = report['meter']['energy_category_name']
parameters_names_len = len(report['parameters']['names'])
parameters_data = report['parameters']
parameters_parameters_datas_len = 0
for i in range(0, parameters_names_len):
if len(parameters_data['timestamps'][i]) == 0:
continue
parameters_parameters_datas_len += 1
start_detail_data_row_num = 9 + (parameters_parameters_datas_len + ca_len) * 6
if has_data_flag:
time = times[0]
for time in times:
if len(time) > 0:
break
has_data = False
max_row = 0
current_sheet_parameters_row_number = 7
temp_max_row = max_row
for i in range(8, len(time) + 6 + ca_len * 6 + len(category) * 6 + 2):
ws.row_dimensions[i].height = 42
if len(time) > 0:
has_data = True
current_sheet_parameters_row_number = 7 + ca_len * 6
if has_data:
max_row = start_detail_data_row_num + len(time)
# print("max_row", max_row)
ws['B6'].font = title_font
ws['B6'] = name + ' 趋势'
ws.row_dimensions[start_detail_data_row_num - 1].height = 60
ws['B' + str(start_detail_data_row_num - 1)].fill = table_fill
ws['B' + str(start_detail_data_row_num - 1)].font = title_font
ws['B' + str(start_detail_data_row_num - 1)].border = f_border
ws['B' + str(start_detail_data_row_num - 1)].alignment = c_c_alignment
ws['B' + str(start_detail_data_row_num - 1)] = '日期时间'
for i in range(0, len(time)):
col = 'B'
row = str(start_detail_data_row_num + i)
# col = chr(ord('B') + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = time[i]
ws[col + row].border = f_border
for i in range(0, ca_len):
# 38 title
col = format_cell.get_column_letter(3 + i)
ws[col + str(start_detail_data_row_num - 1)].fill = table_fill
ws[col + str(start_detail_data_row_num - 1)].font = title_font
ws[col + str(start_detail_data_row_num - 1)].alignment = c_c_alignment
ws[col + str(start_detail_data_row_num - 1)] = reporting_period_data['names'][i]
ws[col + str(start_detail_data_row_num - 1)].border = f_border
for j in range(0, len(time)):
row = str(start_detail_data_row_num + j)
# col = chr(ord('B') + i)
ws[col + row].font = title_font
ws[col + row].alignment = c_c_alignment
ws[col + row] = round(reporting_period_data['values'][i][j], 3) if \
len(reporting_period_data['values'][i]) > 0 and \
reporting_period_data['values'][i][j] is not None else " "
ws[col + row].border = f_border
# line
# 39~: line
line = LineChart()
line.title = '趋势值 - ' + reporting_period_data['names'][i]
labels = Reference(ws, min_col=2, min_row=start_detail_data_row_num, max_row=max_row-1)
line_data = Reference(ws, min_col=3 + i, min_row=start_detail_data_row_num+1, max_row=max_row-1)
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 # cm 1.05*5 1.05cm = 30 pt
line.width = 36
# pie.title = "Pies sold by category"
line.dLbls = DataLabelList()
# line.dLbls.showCatName = True # label show
line.dLbls.dLblPos = 't'
line.dLbls.showVal = False # val show
line.dLbls.showPercent = False # percent show
# s1 = CharacterProperties(sz=1800) # font size *100
chart_col = chr(ord('B'))
chart_cell = chart_col + str(7 + 6*i)
ws.add_chart(line, chart_cell)
else:
pass
##########################################
has_parameters_names_and_timestamps_and_values_data = True
# 12 is the starting line number of the last line chart in the report period
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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 + ' 相关参数'
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 = '相关参数 - ' + \
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 generate_excel(report,
name,
reporting_start_datetime_local,
reporting_end_datetime_local,
period_type):
wb = Workbook()
ws = wb.active
# Row height
ws.row_dimensions[1].height = 118
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 = 20.0
ws.column_dimensions['C'].width = 20.0
for i in range(ord('D'), ord('I')):
ws.column_dimensions[chr(i)].width = 15.0
# Font
name_font = Font(name='Constantia', size=15, bold=True)
title_font = Font(name='宋体', size=15, bold=True)
data_font = Font(name='Franklin Gothic Book', size=11)
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=False,
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=False,
shrink_to_fit=False,
indent=0)
c_r_alignment = Alignment(vertical='bottom',
horizontal='center',
text_rotation=0,
wrap_text=False,
shrink_to_fit=False,
indent=0)
# Img
img = Image("excelexporters/myems.png")
# img = Image("myems.png")
ws.add_image(img, 'B1')
# Title
ws['B3'].font = name_font
ws['B3'].alignment = b_r_alignment
ws['B3'] = 'Name:'
ws['C3'].border = b_border
ws['C3'].alignment = b_c_alignment
ws['C3'].font = name_font
ws['C3'] = name
ws['D3'].font = name_font
ws['D3'].alignment = b_r_alignment
ws['D3'] = 'Period:'
ws['E3'].border = b_border
ws['E3'].alignment = b_c_alignment
ws['E3'].font = name_font
ws['E3'] = period_type
ws['F3'].font = name_font
ws['F3'].alignment = b_r_alignment
ws['F3'] = 'Date:'
ws.merge_cells("G3:I3")
for i in range(ord('G'), ord('I') + 1):
ws[chr(i) + '3'].border = b_border
ws['G3'].alignment = b_c_alignment
ws['G3'].font = name_font
ws['G3'] = reporting_start_datetime_local + "__" + 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+' 报告期成本'
category = reporting_period_data['names']
ca_len = len(category)
ws['B7'].fill = table_fill
ws['B8'].font = title_font
ws['B8'].alignment = c_c_alignment
ws['B8'] = '成本'
ws['B8'].border = f_border
ws['B9'].font = title_font
ws['B9'].alignment = c_c_alignment
ws['B9'] = '单位面积能耗'
ws['B9'].border = f_border
ws['B10'].font = title_font
ws['B10'].alignment = c_c_alignment
ws['B10'] = '环比'
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)
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
end_col = chr(ord(col)+1)
ws[end_col + '7'].fill = table_fill
ws[end_col + '7'].font = name_font
ws[end_col + '7'].alignment = c_c_alignment
ws[end_col + '7'] = "总计 (" + reporting_period_data['total_unit'] + ")"
ws[end_col + '7'].border = f_border
ws[end_col + '8'].font = name_font
ws[end_col + '8'].alignment = c_c_alignment
ws[end_col + '8'] = round(reporting_period_data['total'], 2)
ws[end_col + '8'].border = f_border
ws[end_col + '9'].font = name_font
ws[end_col + '9'].alignment = c_c_alignment
ws[end_col + '9'] = round(reporting_period_data['total_per_unit_area'], 2)
ws[end_col + '9'].border = f_border
ws[end_col + '10'].font = name_font
ws[end_col + '10'].alignment = c_c_alignment
ws[end_col + '10'] = str(round(reporting_period_data['total_increment_rate'] * 100, 2)) + "%" \
if reporting_period_data['total_increment_rate'] is not None else "-"
ws[end_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+' 分时电耗'
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'] = '分时电耗'
ws['B14'].font = title_font
ws['B14'].alignment = c_c_alignment
ws['B14'] = '尖'
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'] = '峰'
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'] = '平'
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'] = '谷'
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()
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 = 5.25
pie.width = 8
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_subtotals_data_flag = True
if "subtotals" not in reporting_period_data.keys() or \
reporting_period_data['subtotals'] is None or \
len(reporting_period_data['subtotals']) == 0:
has_subtotals_data_flag = False
if has_subtotals_data_flag:
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name + ' 成本占比'
current_row_number += 1
table_start_row_number = current_row_number
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)] = '成本占比'
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'][i], 2)
current_row_number += 1
table_end_row_number = current_row_number - 1
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, 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 = 5.25
pie.width = 8
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
else:
for i in range(21, 29 + 1):
current_row_number = 30
ws.row_dimensions[i].height = 0.1
###############################################
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'])
parameters_names_len = len(report['parameters']['names'])
parameters_parameters_datas_len = 0
for i in range(0, parameters_names_len):
if len(report['parameters']['timestamps'][i]) == 0:
continue
parameters_parameters_datas_len += 1
detail_data_table_start_row_number = current_row_number + (ca_len + parameters_parameters_datas_len) * 6 + 3
ws['B' + str(current_row_number)].font = title_font
ws['B' + str(current_row_number)] = name+' 详细数据'
current_row_number = detail_data_table_start_row_number
time = times[0]
has_data = False
if len(time) > 0:
has_data = True
if has_data:
ws['B' + str(current_row_number)].fill = table_fill
ws['B' + str(current_row_number)].border = f_border
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)] = '日期时间'
col = 'B'
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
end_col = chr(ord(col) + 1)
ws[end_col + str(current_row_number)].fill = table_fill
ws[end_col + str(current_row_number)].font = title_font
ws[end_col + str(current_row_number)].alignment = c_c_alignment
ws[end_col + str(current_row_number)] = "总计 (" + reporting_period_data['total_unit'] + ")"
ws[end_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
col = 'B'
every_day_total = 0
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
value = round(reporting_period_data['values'][j][i], 2)
every_day_total += value
ws[col + str(current_row_number)] = value
ws[col + str(current_row_number)].border = f_border
end_col = chr(ord(col) + 1)
ws[end_col + str(current_row_number)].font = title_font
ws[end_col + str(current_row_number)].alignment = c_c_alignment
ws[end_col + str(current_row_number)] = round(every_day_total, 2)
ws[end_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)] = '小计'
ws['B' + str(current_row_number)].border = f_border
col = 'B'
format_time_width_number = 1.0
min_len_number = 1.0
min_width_number = 11.0 # format_time_width_number * min_len_number + 4 and min_width_number > 11.0
if period_type == 'hourly':
format_time_width_number = 4.0
min_len_number = 2
min_width_number = 12.0
elif period_type == 'daily':
format_time_width_number = 2.5
min_len_number = 4
min_width_number = 14.0
elif period_type == 'monthly':
format_time_width_number = 2.1
min_len_number = 4
min_width_number = 12.4
elif period_type == 'yearly':
format_time_width_number = 1.5
min_len_number = 5
min_width_number = 11.5
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 = LineChart()
line.title = '报告期成本 - ' + \
reporting_period_data['names'][i] + " (" + reporting_period_data['units'][i] + ")"
labels = Reference(ws, min_col=2, min_row=detail_data_table_start_row_number + 1,
max_row=table_end_row_number)
line_data = Reference(ws, min_col=3 + i, min_row=detail_data_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.height = 8.25
line.width = format_time_width_number * len(time) if len(time) > min_len_number else min_width_number
if line.width > 24:
line.width = 24
line.x_axis.crosses = 'min'
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)
end_col = chr(ord(col) + 1)
ws[end_col + str(current_row_number)].font = title_font
ws[end_col + str(current_row_number)].alignment = c_c_alignment
ws[end_col + str(current_row_number)] = round(reporting_period_data['total'], 2)
ws[end_col + str(current_row_number)].border = f_border
current_row_number += 1
else:
for i in range(30, 69 + 1):
current_row_number = 70
ws.row_dimensions[i].height = 0.1
##########################################
has_parameters_names_and_timestamps_and_values_data = True
ca_len = len(report['reporting_period']['names'])
current_sheet_parameters_row_number = table_start_draw_flag + ca_len * 6
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'])
parameters_ws = wb.create_sheet('相关参数')
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")
img.width = img.width * 0.85
img.height = img.height * 0.85
# img = Image("myems.png")
parameters_ws.add_image(img, 'B1')
# Title
parameters_ws.row_dimensions[3].height = 60
parameters_ws['B3'].font = name_font
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'].font = name_font
parameters_ws['C3'] = name
parameters_ws['D3'].font = name_font
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'].font = name_font
parameters_ws['E3'] = period_type
parameters_ws['F3'].font = name_font
parameters_ws['F3'].alignment = b_r_alignment
parameters_ws['F3'] = 'Date:'
parameters_ws['G3'].border = b_border
parameters_ws['G3'].alignment = b_c_alignment
parameters_ws['G3'].font = name_font
parameters_ws['G3'] = reporting_start_datetime_local + "__" + reporting_end_datetime_local
parameters_ws.merge_cells("G3:H3")
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 + ' 相关参数'
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 + ' 相关参数'
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 = '相关参数 - ' + \
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