def make_pdf(number, ctype):
BASE_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
main_img = os.path.join(BASE_DIR, 'content', 'cover.png')
pdf = FPDF()
pdf.add_page('P')
pdf.set_font("Arial", size=15)
pdf.cell(10, 10, txt=number, ln=1, align="C")
if ctype == 1:
pdf.rotate(-90.1)
imwrite(main_img, warpImage(imread(main_img), cover_type=0))
pdf.image(main_img, 100, -165, 78, 85)
pdf.image(os.path.join(BASE_DIR, 'content', 'template', 'big.png'), 9,
-172, 258, 110.3)
pdf.output(os.path.join(BASE_DIR, 'content', 'big.pdf'))
os.remove(main_img)
elif ctype == 0:
pdf.rotate(-89.75)
imwrite(main_img, warpImage(imread(main_img), cover_type=1))
pdf.image(main_img, 103, -71, 74, 60)
pdf.image(os.path.join(BASE_DIR, 'content', 'template', 'small.png'),
17.5, -74, 240, 84)
pdf.output(os.path.join(BASE_DIR, 'content', 'small.pdf'))
os.remove(main_img)
def export_full_to_pdf(schedule_ref: Schedule,
title_text: str,
file_path: str,
font_name: str,
font_path: str,
encoding: str,
progress=None) -> None:
"""
Method for exports to PDF file
"""
file = QFileInfo(file_path)
# pdf
pdf = FPDF(orientation="L")
# encoding
if encoding == "UTF-8":
pdf.add_font(font_name, "", font_path, uni=True)
else:
pdf.add_font(font_name, "", font_path)
pdf.set_doc_option("core_fonts_encoding", encoding)
pdf.set_font(font_name)
pdf.add_page()
x, y = float(pdf.get_x()), float(pdf.get_y())
w = float(pdf.w) - 2 * float(pdf.get_x())
h = float(pdf.h) - 2 * float(pdf.get_y()) - 6
pdf.set_auto_page_break(True, margin=y)
title = 10
pdf.set_font_size(14)
pdf.cell(w, title, txt=title_text, align="C", border=0)
h -= title
first_column, first_row = 4, 4
step_column = (w - first_row) / 8
step_row = (h - first_column) / 6
indexes = schedule_ref.indexes()
table_widget = schedule_editor_window.ScheduleTableWidget()
table_widget.set_schedule(schedule_ref)
# processing
week_step = 100 / 7
count = 0
i = 0
while i < 7:
j = 0
while j < 9:
if i == 0 and j == 0:
# upper-left cell
pdf.set_xy(x, y + title)
pdf.cell(first_column, first_row, border=1)
j += 1
elif i == 0:
# top cells with time
pdf.set_xy(x + first_row + step_column * (j - 1), y + title)
pdf.set_font_size(8)
pdf.cell(step_column,
first_row,
txt=TimePair.time_start_end(j - 1),
align="C",
border=1)
j += 1
elif j == 0:
# left cells with days of the week
pdf.set_xy(
x,
y + title + first_column + step_row * (i - 1) + step_row)
pdf.rotate(90)
pdf.set_font_size(8)
pdf.cell(step_row,
first_row,
txt=str(DaysOfWeek.value_of(i - 1)),
align="C",
border=1)
pdf.rotate(0)
j += 1
else:
# cells inside the table
pdf.set_xy(x + first_row + step_column * (j - 1),
y + title + first_column + step_row * (i - 1))
simple_row = (step_row / indexes[i - 1])
prev_x, prev_y = pdf.get_x(), pdf.get_y()
start_index = sum(indexes[r] for r in range(i - 1))
number_row = 0
for m in range(start_index, start_index + indexes[i - 1]):
item = table_widget.item(m, j - 1)
if item is not None:
x_span_count = table_widget.columnSpan(m, j - 1)
y_span_count = table_widget.rowSpan(m, j - 1)
pdf.set_xy(prev_x, prev_y + number_row * simple_row)
pdf.cell(step_column * x_span_count,
simple_row * y_span_count,
border=1)
text = item.text()
if text != "":
draw_text(
pdf, x + first_row + step_column * (j - 1),
y + title + first_column + step_row * (i - 1) +
simple_row * number_row,
step_column * x_span_count,
simple_row * y_span_count, text)
number_row += 1
pdf.set_xy(prev_x, prev_y)
j += 1
i += 1
if progress is not None:
count += 1
progress.setValue(week_step * count)
if progress.wasCanceled():
break
pdf.output(file.absoluteFilePath())
def export_weeks_to_pdf(schedule_ref: Schedule,
title_text: str,
add_date: bool,
file_path: str,
font_name: str,
font_path: str,
encoding: str,
start: datetime.date,
end: datetime.date,
color_a: QColor,
color_b: QColor,
progress=None) -> None:
"""
Method for exports to PDF file
"""
file = QFileInfo(file_path)
# pdf
pdf = FPDF(orientation="L")
# encoding
if encoding == "UTF-8":
pdf.add_font(font_name, "", font_path, uni=True)
else:
pdf.add_font(font_name, "", font_path)
pdf.set_doc_option("core_fonts_encoding", encoding)
# processing
week_step = 100 / (end - start).days / 7
count = 0
pdf.set_font(font_name)
while True:
pdf.add_page()
schedule = schedule_ref.create_week_schedule(
start, start + datetime.timedelta(days=6))
indexes = schedule.indexes()
table_widget = schedule_editor_window.ScheduleTableWidget()
table_widget.set_schedule(schedule)
start += datetime.timedelta(days=6)
x, y = float(pdf.get_x()), float(pdf.get_y())
w = float(pdf.w) - 2 * float(pdf.get_x())
h = float(pdf.h) - 2 * float(pdf.get_y()) - 6
pdf.set_auto_page_break(True, margin=y)
title = 10
title_page = title_text
if add_date:
start_week = (start +
datetime.timedelta(days=-6)).strftime("%d.%m.%Y")
end_week = start.strftime("%d.%m.%Y")
title_page += f". {start_week} - {end_week}"
pdf.set_font_size(14)
pdf.cell(w, title, txt=title_page, align="C", border=0)
h -= title
first_column, first_row = 4, 4
step_column = (w - first_row) / 8
step_row = (h - first_column) / 6
i = 0
while i < 7:
j = 0
while j < 9:
if i == 0 and j == 0:
# upper-left cell
pdf.set_xy(x, y + title)
pdf.cell(first_column, first_row, border=1)
j += 1
elif i == 0:
# top cells with time
pdf.set_xy(x + first_row + step_column * (j - 1),
y + title)
pdf.set_font_size(8)
pdf.cell(step_column,
first_row,
txt=TimePair.time_start_end(j - 1),
align="C",
border=1)
j += 1
elif j == 0:
# left cells with days of the week
pdf.set_xy(
x, y + title + first_column + step_row * (i - 1) +
step_row)
pdf.rotate(90)
pdf.set_font_size(8)
pdf.cell(step_row,
first_row,
txt=str(DaysOfWeek.value_of(i - 1)),
align="C",
border=1)
pdf.rotate(0)
j += 1
else:
# cells inside the table
pdf.set_xy(x + first_row + step_column * (j - 1),
y + title + first_column + step_row * (i - 1))
simple_row = (step_row / indexes[i - 1])
prev_x, prev_y = pdf.get_x(), pdf.get_y()
start_index = sum(indexes[r] for r in range(i - 1))
number_row = 0
for m in range(start_index, start_index + indexes[i - 1]):
item = table_widget.item(m, j - 1)
if item is not None:
x_span_count = table_widget.columnSpan(m, j - 1)
y_span_count = table_widget.rowSpan(m, j - 1)
pdf.set_xy(prev_x,
prev_y + number_row * simple_row)
# pdf.cell(step_column * x_span_count,
# simple_row * y_span_count,
# border=1)
day, number, duration = i - 1, j - 1, x_span_count
pairs = schedule.pairs_by_index(
day, number, duration, number_row)
# select color for cell
if all(pair["subgroup"].get_subgroup() ==
SubgroupPairAttrib.Common
for pair in pairs):
# common
pdf.cell(step_column * x_span_count,
simple_row * y_span_count,
border=1)
elif all(pair["subgroup"].get_subgroup() ==
SubgroupPairAttrib.A for pair in pairs):
# A subgroup
pdf.set_fill_color(color_a.red(),
color_a.green(),
color_a.blue())
pdf.cell(step_column * x_span_count,
simple_row * y_span_count,
border=1,
fill=1)
elif all(pair["subgroup"].get_subgroup() ==
SubgroupPairAttrib.B for pair in pairs):
# B subgroup
pdf.set_fill_color(color_b.red(),
color_b.green(),
color_b.blue())
pdf.cell(step_column * x_span_count,
simple_row * y_span_count,
border=1,
fill=1)
else:
# A and B subgroup
prev_x = pdf.get_x()
prev_y = pdf.get_y()
toggle = True
row = 5
column = math.ceil(step_column * x_span_count /
step_row * row)
for t in range(column):
for n in range(row):
pdf.set_xy(
prev_x + t * step_column *
x_span_count / column,
prev_y + n * step_row / row)
if toggle:
color = color_a
toggle = False
else:
color = color_b
toggle = True
pdf.set_fill_color(
color.red(), color.green(),
color.blue())
pdf.cell(step_column * x_span_count /
column,
simple_row * y_span_count /
row,
border=0)
pdf.set_xy(prev_x, prev_y)
pdf.cell(step_column * x_span_count,
simple_row * y_span_count,
border=1)
if len(pairs) != 0:
text = "\n".join(str(pair) for pair in pairs)
draw_text(
pdf, x + first_row + step_column * (j - 1),
y + title + first_column + step_row *
(i - 1) + simple_row * number_row,
step_column * x_span_count,
simple_row * y_span_count, text)
number_row += 1
pdf.set_xy(prev_x, prev_y)
j += 1
# old
# pairs = schedule.pairs_by_index(i - 1, j - 1, 1) \
# + schedule.pairs_by_index(i - 1, j - 1, 2)
#
# max_duration = max([1, *[pair["time"].duration() for pair in pairs]])
#
# # select color for cell
# if all(pair["subgroup"].get_subgroup() == SubgroupPairAttrib.Common
# for pair in pairs):
# # common
# pdf.cell(step_column * max_duration,
# step_row,
# border=1)
# elif all(pair["subgroup"].get_subgroup() == SubgroupPairAttrib.A
# for pair in pairs):
# # A subgroup
# pdf.set_fill_color(color_a.red(), color_a.green(), color_a.blue())
# pdf.cell(step_column * max_duration,
# step_row,
# border=1,
# fill=1)
# elif all(pair["subgroup"].get_subgroup() == SubgroupPairAttrib.B
# for pair in pairs):
# # B subgroup
# pdf.set_fill_color(color_b.red(), color_b.green(), color_b.blue())
# pdf.cell(step_column * max_duration,
# step_row,
# border=1,
# fill=1)
# else:
# # A and B subgroup
# prev_x = pdf.get_x()
# prev_y = pdf.get_y()
#
# toggle = True
#
# row = 5
# column = math.ceil(step_column * max_duration / step_row * row)
#
# for m in range(column):
# for n in range(row):
# pdf.set_xy(prev_x + m * step_column * max_duration / column,
# prev_y + n * step_row / row)
#
# if toggle:
# color = color_a
# toggle = False
# else:
# color = color_b
# toggle = True
#
# pdf.set_fill_color(color.red(), color.green(), color.blue())
# pdf.cell(step_column * max_duration / column,
# step_row / row,
# border=0,
# fill=1)
# pdf.set_xy(prev_x, prev_y)
# pdf.cell(step_column * max_duration,
# step_row,
# border=1)
# text = ""
# for pair in pairs:
# text += str(pair) + "\n"
#
# if text != "":
# draw_text(pdf,
# x + first_row + step_column * (j - 1),
# y + title + first_column + step_row
# * (i - 1),
# step_column * max_duration,
# step_row,
# text)
# j += max_duration
i += 1
if progress is not None:
count += 1
progress.setValue(week_step * count)
if progress.wasCanceled():
break
start += datetime.timedelta(days=1)
if end <= start:
break
pdf.output(file.absoluteFilePath())
def get(self, data = None):
out_type = self.get_argument('type', 'html')
components = []
components = self.get_query_arguments('action[]', [])
multiply = int(self.get_argument('multiply', 5))
layout = self.get_argument('template', '70x40_simple')
skip = int(self.get_argument('skip', 0))
#print("Soucastky..",components)
if len(components) > 0:
comp = list(self.mdb.stock.find({'_id' : {'$in' : components}}))
else:
comp = list(self.mdb.stock.find().sort([("category", 1), ("_id",1)]))
page = 0
#print("Budeme tisknout:", comp)
if layout == 'souhrn_01':
autori = self.get_query_argument('autor', None)
if not autori: autori = ['autory vlozite pridanim autoru do adresy s parametrem "autor"', 'autoru muze byt vice, pouzijte vice parametru', 'Například pridanim tohoto na konec adresy: &autor=Tester První']
datum = self.get_argument('datum', ">>pro specifikovani pridejte parametr 'datum' do GET parametru<<")
page = 1
money_sum = 0
Err = []
print ("pozadovany format je:", layout)
pdf = FPDF('P', 'mm', format='A4')
pdf.set_auto_page_break(False)
pdf.add_font('pt_sans', '', 'static/pt_sans/PT_Sans-Web-Regular.ttf', uni=True)
pdf.add_font('pt_sans-bold', '', 'static/pt_sans/PT_Sans-Web-Bold.ttf', uni=True)
pdf.set_font('pt_sans', '', 12)
pdf.add_page()
pdf.set_xy(0, 40)
pdf.cell(pdf.w, 0, 'Celkový přehled skladu', align='C', ln=2)
pdf.set_xy(0, 46)
pdf.cell(pdf.w, 0, 'Universal Scientific Technologies s.r.o.', align='C', ln=2)
pdf.set_xy(20, 200)
pdf.cell(1,0, 'Inventuru provedli:', ln=2)
for x in autori:
pdf.cell(1,20, x, ln=2)
pdf.set_font('pt_sans', '', 8)
pdf.set_xy(120, 288)
pdf.cell(10, 0, "Generováno %s, strana %s z %s" %(datetime.datetime.now(), page, pdf.alias_nb_pages()) )
pdf.add_page()
data = self.mdb.stock.aggregate([
{'$addFields': {'count': {'$sum': '$history.bilance'}}}
])
gen_time = datetime.datetime(2018, 10, 1)
lastOid = ObjectId.from_datetime(gen_time)
for i, component in enumerate(data):
#for i, component in enumerate(list(data)[:30]):
print(i, "=============================")
print(component['_id'])
try:
## Pokud je konec stránky
if pdf.get_y() > pdf.h-20:
pdf.line(10, pdf.get_y()+0.5, pdf.w-10, pdf.get_y()+0.5)
pdf.set_font('pt_sans', '', 10)
pdf.set_xy(150, pdf.get_y()+1)
pdf.cell(100, 5, 'Součet strany: {:6.2f} Kč'.format(page_sum))
pdf.add_page()
## Pokud je nová strana
if page != pdf.page_no():
pdf.set_font('pt_sans', '', 8)
page = pdf.page_no()
pdf.set_xy(120, 288)
pdf.cell(10, 0, "Generováno %s, strana %s z %s" %(datetime.datetime.now(), page, pdf.alias_nb_pages()) )
pdf.set_font('pt_sans', '', 11)
pdf.set_xy(10, 10)
pdf.cell(100, 5, 'Skladová položka')
pdf.set_x(95)
pdf.cell(10, 5, "Počet kusů", align='R')
pdf.set_x(120)
pdf.cell(10, 5, "Cena za 1ks", align='R')
pdf.set_x(180)
pdf.cell(10, 5, "Cena položky (bez DPH)", align='R', ln=2)
pdf.line(10, 15, pdf.w-10, 15)
pdf.set_y(18)
page_sum = 0
pdf.set_font('pt_sans', '', 10)
count = component['count']
if count >0:
price = 0
price_ks = 0
first_price = 0
pdf.set_x(10)
pdf.cell(100, 5, component['_id'])
pdf.set_x(95)
pdf.cell(10, 5, "%5.d" %(count), align='R')
pdf.set_x(10)
pdf.cell(100, 5, "{:5.0f} {}".format(i, component['_id']))
inventura = False
for x in reversed(component.get('history', [])):
if x.get('operation', None) == 'inventory':
print("inventura", x)
if x['_id'].generation_time > lastOid.generation_time:
print("#############")
inventura = True
count = x['absolute']
pdf.set_x(110)
pdf.cell(1, 5, "i")
break;
pdf.set_font('pt_sans', '', 10)
pdf.set_x(95)
pdf.cell(10, 5, "{} j".format(count), align='R')
rest = count
for x in reversed(component.get('history', [])):
if x.get('price', 0) > 0:
if first_price == 0:
first_price = x['price']
if x['bilance'] > 0:
if x['bilance'] <= rest:
price += x['price']*x['bilance']
rest -= x['bilance']
else:
price += x['price']*rest
rest = 0
print("Zbývá", rest, "ks, secteno", count-rest, "za cenu", price)
if(count-rest): price += rest*first_price
money_sum += price
page_sum +=price
if price == 0.0 and x.get('count', 0) > 0:
Err.append('Polozka >%s< nulová cena, nenulový počet' %(component['_id']))
pdf.set_x(120)
if count > 0: pdf.cell(10, 5, "%6.2f Kč" %(price/count), align='R')
else: pdf.cell(10, 5, "%6.2f Kč" %(0), align='R')
pdf.set_font('pt_sans-bold', '', 10)
pdf.set_x(180)
pdf.cell(10, 5, "%6.2f Kč" %(price), align='R')
except Exception as e:
Err.append('Err' + repr(e) + component['_id'])
print(e)
pdf.set_y(pdf.get_y()+4)
pdf.line(10, pdf.get_y(), pdf.w-10, pdf.get_y())
pdf.set_font('pt_sans', '', 8)
pdf.set_x(180)
pdf.cell(10, 5, "Konec souhrnu", align='R')
pdf.set_font('pt_sans', '', 10)
pdf.set_xy(150, pdf.get_y()+3)
pdf.cell(100, 5, 'Součet strany: {:6.2f} Kč'.format(page_sum))
pdf.page = 1
pdf.set_xy(20,175)
pdf.set_font('pt_sans', '', 12)
pdf.cell(20,20, "Cena skladových zásob k %s je %0.2f Kč (bez DPH)" %(datum, money_sum))
if len(Err) > 0:
pdf.set_xy(30,80)
pdf.cell(1,6,"Pozor, chyby ve skladu:", ln=2)
pdf.set_x(32)
for ch in Err:
pdf.cell(1,5,ch,ln=2)
pdf.page = page
print(autori)
if layout == '105x74_simple':
page = 0
page_cols = 2
page_rows = 4
page_cells = page_cols * page_rows
cell_w = 105
cell_h = 75
print ("pozadovany format je:", layout)
pdf = FPDF('P', 'mm', format='A4')
pdf.add_font('pt_sans', '', 'static/pt_sans/PT_Sans-Web-Regular.ttf', uni=True)
pdf.add_font('pt_sans-bold', '', 'static/pt_sans/PT_Sans-Web-Bold.ttf', uni=True)
pdf.set_font('pt_sans-bold', '', 12)
pdf.set_auto_page_break(False)
pdf.add_page()
for i, component in enumerate(comp):
i += skip
id = component['_id'].strip().replace('/', '')
code128.image(component['_id']).save("static/barcode/%s.png"%(id))
if i != 0 and i%(page_cells) == 0:
page += 1
pdf.add_page()
print("New PAGE --- ", i, i%page_cells)
row = int(i/page_cols)-page*page_rows
column = i%page_cols
cell_x = column*cell_w
cell_y = row*cell_h
print(component)
pdf.set_font('pt_sans-bold', '', 14)
pdf.set_xy(cell_x+5, cell_y+5)
pdf.cell(cell_w-10, 0, component['_id'])
pdf.set_xy(cell_x, cell_y+10)
pdf.image('static/barcode/%s.png'%(id), w = cell_w, h=10)
pdf.set_font('pt_sans', '', 11)
pdf.set_xy(cell_x+5, cell_y+23)
try:
pdf.multi_cell(cell_w-10, 5, component['description'])
except Exception as e:
pdf.multi_cell(cell_w-10, 5, "ERR" + repr(e))
pdf.set_xy(cell_x+5, cell_y+cell_h-15)
pdf.set_font('pt_sans', '', 8)
pdf.cell(cell_w-10, 10, ', '.join(component['category']) + " | " + str(datetime.datetime.now()) + " | " + "UST")
if layout == '70x42-3_simple':
page = 0
page_cols = 3
page_rows = 7
page_cells = page_cols * page_rows
cell_w = 210/page_cols
cell_h = 297/page_rows
print ("pozadovany format je:", layout)
pdf = FPDF('P', 'mm', format='A4')
pdf.add_font('pt_sans', '', 'static/pt_sans/PT_Sans-Web-Regular.ttf', uni=True)
pdf.add_font('pt_sans-bold', '', 'static/pt_sans/PT_Sans-Web-Bold.ttf', uni=True)
pdf.set_font('pt_sans-bold', '', 12)
pdf.set_auto_page_break(False)
pdf.add_page()
for i, component in enumerate(comp):
i += skip
id = component['name'].strip().replace('/', '_')
code128.image(component['_id']).save("static/barcode/%s.png"%(id))
if i != 0 and i%(page_cells) == 0:
page += 1
pdf.add_page()
print("New PAGE --- ", i, i%page_cells)
row = int(i/page_cols)-page*page_rows
column = i%page_cols
cell_x = column*cell_w
cell_y = row*cell_h
pdf.set_xy(cell_x+5, cell_y+6.75)
if len(component['name'])<23:
pdf.set_font('pt_sans-bold', '', 14)
else:
pdf.set_font('pt_sans-bold', '', 10)
pdf.cell(cell_w-10, 0, component['name'][:35])
pdf.set_xy(cell_x+2.5, cell_y+9)
pdf.image('static/barcode/%s.png'%(id), w = cell_w-5, h=7)
pdf.set_font('pt_sans', '', 11)
pdf.set_xy(cell_x+4, cell_y+20)
try:
pdf.multi_cell(cell_w-8, 4, component['description'][:185])
except Exception as e:
pdf.multi_cell(cell_w-10, 5, "ERR" + repr(e))
pdf.set_xy(cell_x+5, cell_y+cell_h-7)
pdf.set_xy(cell_x+5, cell_y+13)
pdf.set_font('pt_sans', '', 7.5)
pdf.cell(cell_w-10, 10, ', '.join(component['category']) + " |" + str(datetime.date.today()) + "| " + component['_id'])
if layout == '105x48_simple':
page = 0
page_cols = 2
page_rows = 6
page_cells = page_cols * page_rows
#cell_w = 105
#cell_h = 48
cell_w = 210/page_cols
cell_h = 297/page_rows
print ("pozadovany format je:", layout)
pdf = FPDF('P', 'mm', format='A4')
pdf.add_font('pt_sans', '', 'static/pt_sans/PT_Sans-Web-Regular.ttf', uni=True)
pdf.add_font('pt_sans-bold', '', 'static/pt_sans/PT_Sans-Web-Bold.ttf', uni=True)
pdf.set_font('pt_sans-bold', '', 12)
pdf.set_auto_page_break(False)
pdf.add_page()
for i, component in enumerate(comp):
i += skip
id = component['_id'].strip().replace('/', '')
code128.image(component['_id']).save("static/barcode/%s.png"%(id))
if i != 0 and i%(page_cells) == 0:
page += 1
pdf.add_page()
print("New PAGE --- ", i, i%page_cells)
row = int(i/page_cols)-page*page_rows
column = i%page_cols
cell_x = column*cell_w
cell_y = row*cell_h
print(component)
pdf.set_font('pt_sans-bold', '', 14)
pdf.set_xy(cell_x+5, cell_y+5)
pdf.cell(cell_w-10, 0, component['_id'])
pdf.set_xy(cell_x, cell_y+10)
pdf.image('static/barcode/%s.png'%(id), w = cell_w, h=10)
pdf.set_font('pt_sans', '', 10)
pdf.set_xy(cell_x+5, cell_y+20)
try:
pdf.multi_cell(cell_w-10, 4, component['description'][:275])
except Exception as e:
pdf.multi_cell(cell_w-10, 4, "ERR" + repr(e))
pdf.set_xy(cell_x+5, cell_y+cell_h-10)
pdf.set_font('pt_sans', '', 8)
pdf.cell(cell_w-10, 10, ', '.join(component['category']) + " | " + str(datetime.datetime.now()) + " | " + "UST")
elif layout == '105x48_panorama':
page = 0
page_cols = 6
page_rows = 2
page_cells = page_cols * page_rows
cell_w = 48
cell_h = 105
print ("pozadovany format je:", layout)
pdf = FPDF('L', 'mm', format='A4')
pdf.add_font('pt_sans', '', 'static/pt_sans/PT_Sans-Web-Regular.ttf', uni=True)
pdf.add_font('pt_sans-bold', '', 'static/pt_sans/PT_Sans-Web-Bold.ttf', uni=True)
pdf.set_font('pt_sans-bold', '', 12)
pdf.set_auto_page_break(False)
pdf.add_page()
for i, component in enumerate(comp):
i += skip
id = component['_id'].strip().replace('/', '')
code128.image(component['_id']).save("static/barcode/%s.png"%(id))
if i != 0 and i%(page_cells) == 0:
page += 1
pdf.add_page()
print("New PAGE --- ", i, i%page_cells)
row = int(i/page_cols)-page*page_rows
column = i%page_cols
cell_x = column*cell_w
cell_y = row*cell_h
print(component)
pdf.set_font('pt_sans-bold', '', 14)
pdf.set_xy(cell_x+5, cell_y+5)
pdf.cell(cell_w-10, 0, component['_id'])
pdf.set_xy(cell_x, cell_y+cell_h)
pdf.rotate(90)
pdf.image('static/barcode/%s.png'%(id), w = cell_h-5, h=10)
pdf.rotate(0)
pdf.set_font('pt_sans', '', 11)
pdf.set_xy(cell_x+8, cell_y+20)
try:
pdf.multi_cell(cell_w-10, 5, component['description'])
except Exception as e:
pdf.multi_cell(cell_w-10, 5, "ERR" + repr(e))
pdf.set_xy(cell_x+5, cell_y+cell_h-15)
pdf.set_font('pt_sans', '', 8)
pdf.cell(cell_w-10, 10, ', '.join(component['category']) + " | " + str(datetime.datetime.now()) + " | " + "UST")
pdf.output("static/tmp/sestava.pdf")
with open('static/tmp/sestava.pdf', 'rb') as f:
self.set_header("Content-Type", 'application/pdf; charset="utf-8"')
self.set_header("Content-Disposition", "inline; filename=UST_tiskova_sestava.pdf")
self.write(f.read())
f.close()
class MakePDF(FPDF):
def __init__(self, result_dict: dict, filename: str):
super().__init__()
# try:
self._result = SelectIndividual(result_dict)
self._result_dict = self._result.get_result_dict()
self.annotation = "Даний підбір виконано автоматично. Для підтвердження підбору зверніться у проектну організацію"
self.title1 = "З/б балка Б-1. Опалубне креслення"
self.title2 = "З/б балка Б-1. Армування"
self.title3 = "Специфікація"
if int(self._result_dict["Б-1"][2]) < 2500 and int(self._result_dict["Б-1"][3]) < 400:
self.scale = 10
else:
self.scale = 20
self.count_of_lines = 11
self.form3 = FPDF(orientation="L", unit="mm", format="A3")
self.form3.add_page()
self.form3.add_font("iso", "", "static/ISOCPEUR/ISOCPEUR.ttf", uni=True)
self._draw_form_3()
self._draw_specification(self._result_dict, 20, 184, self.title3)
self._make()
self.form3.output(f"static/{filename}")
# except:
# self.make_error()
# def _initial_scale_dimension(self):
# self.scale = 10
# self.l = (int(self._result_dict["Б-1"][2]) + 500) / self.scale
# self.h = int(self._result_dict["Б-1"][3]) / self.scale
# self.b = int(self._result_dict["Б-1"][4]) / self.scale
# diam_pos1 = self._result_dict["1"][1] / self.scale
# diam_pos2 = self._result_dict["2"][1] / self.scale
# diam_pos3 = self._result_dict["3"][1] / self.scale
# diam_pos4 = self._result_dict["4"][1] / self.scale
# self.a = diam_pos1 / 2 + 20 / self.scale
def make_error(self):
return "Помилка! З даними параметрами неможливо виконати розрахунок. Збільшіть висоту перерізу."
def _make(self):
self._draw_beam(36, 30)
self._draw_rainforcment(36, 110)
def _draw_beam(self, x, y):
x0 = x
y0 = y
l = (int(self._result_dict["Б-1"][2]) + 500) / self.scale
h = int(self._result_dict["Б-1"][3]) / self.scale
b = int(self._result_dict["Б-1"][4]) / self.scale
self.form3.set_font("iso", "", 14)
self.form3.text(x0 + l / 2.5, y0 - 5, self.title1)
self.form3.set_line_width(0.5)
self.form3.rect(x0, y0, l, h)
self._dim_h(x0, y0 + h, l)
self._dim_v(x0, y0, h)
if l > 250:
self.form3.rect(x0 + l + 16, y0, b, h)
self._dim_h(x0 + l + 16, y0 + h, b)
else:
self.form3.rect(x0 + l + 30, y0, b, h)
self._dim_h(x0 + l + 30, y0 + h, b)
def _draw_rainforcment(self, x, y):
x0 = x
y0 = y
l = (int(self._result_dict["Б-1"][2]) + 500) / self.scale
h = int(self._result_dict["Б-1"][3]) / self.scale
b = int(self._result_dict["Б-1"][4]) / self.scale
self.form3.set_font("iso", "", 14)
self.form3.text(x0 + l / 2.35, y0 - 5, self.title2)
diam_pos1 = self._result_dict["1"][1] / self.scale
diam_pos2 = self._result_dict["2"][1] / self.scale
diam_pos3 = self._result_dict["3"][1] / self.scale
diam_pos4 = self._result_dict["4"][1] / self.scale
a = diam_pos1 / 2 + 20 / self.scale
self.form3.set_line_width(0.05)
self.form3.rect(x0, y0, l, h)
pos1_l = int(self._result_dict["1"][3] / self.scale * 1000)
pos2_l = int(self._result_dict["2"][3] / self.scale * 1000)
self.form3.set_line_width(0.5)
self.form3.line(x0 + 30 / self.scale, y0 + h - a, x0 + 30 / self.scale + pos1_l, y0 + h - 30 / self.scale)
self.form3.line(x0 + 30 / self.scale, y0 + a, x0 + 30 / self.scale + pos2_l, y0 + 30 / self.scale)
pos3_data = self._result.get_distance_position_3_4()
def draw_pos3(x, y):
self.form3.line(
x,
y + a - diam_pos2 / 2 - diam_pos3 / 2,
x,
y + h - a + diam_pos2 / 2 + diam_pos3 / 2,
)
draw_pos3(x0 + (30 + 50) / self.scale, y0)
draw_pos3(x0 + (30 + 50) / self.scale + pos3_data[1] * 1000 / self.scale, y0)
draw_pos3(x0 + l - (30 + 50) / self.scale - pos3_data[1] * 1000 / self.scale, y0)
draw_pos3(x0 + l - (30 + 50) / self.scale, y0)
mid_dist_temp = round((pos2_l * self.scale - (50 + pos3_data[1] * 1000) * 2 - pos3_data[3] * 1000) / 2)
mid_dist = mid_dist_temp / self.scale
draw_pos3(x0 + 30 / self.scale + (50 + pos3_data[1] * 1000) / self.scale + mid_dist, y0)
draw_pos3(x0 + 30 / self.scale + (50 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + mid_dist, y0)
s = (b - 2 * a) / (self._result_dict["1"][0] - 1)
if l > 250:
self.form3.set_line_width(0.05)
self.form3.rect(x0 + l + 16, y0, b, h)
self.form3.set_line_width(0.5)
self.form3.line(
x0 + l + 16 + a - (diam_pos3 + diam_pos1) / 2,
y0 + 10 / self.scale,
x0 + l + 16 + a - (diam_pos3 + diam_pos1) / 2,
y0 + h - 10 / self.scale
)
self.form3.line(
x0 + l + 16 + b - a + (diam_pos3 + diam_pos1) / 2,
y0 + 10 / self.scale,
x0 + l + 16 + b - a + (diam_pos3 + diam_pos1) / 2,
y0 + h - 10 / self.scale
)
self.form3.line(
x0 + l + 16 + 10 / self.scale,
y0 + a - (diam_pos3 + diam_pos2) / 2,
x0 + l + 16 + b - 10 / self.scale,
y0 + a - (diam_pos3 + diam_pos2) / 2
)
self.form3.line(
x0 + l + 16 + 10 / self.scale,
y0 + h - a + (diam_pos3 + diam_pos1) / 2,
x0 + l + 16 + b - 10 / self.scale,
y0 + h - a + (diam_pos3 + diam_pos1) / 2
)
self.form3.set_line_width(0.05)
self.form3.ellipse(x0 + l + 16 + a - diam_pos1 / 2, y0 + a - diam_pos2 / 2, diam_pos2, diam_pos2, "FD")
self.form3.ellipse(x0 + l + 16 - a + diam_pos1 / 2 + b - diam_pos2, y0 + a - diam_pos2 / 2, diam_pos2, diam_pos2, "FD")
for i in range(self._result_dict["1"][0]):
self.form3.ellipse(x0 + l + 16 + a - diam_pos1 / 2 + s * i, y0 + h - a - diam_pos1 / 2, diam_pos1, diam_pos1, "FD")
else:
self.form3.set_line_width(0.05)
self.form3.rect(x0 + l + 30, y0, b, h)
self.form3.set_line_width(0.5)
self.form3.line(
x0 + l + 30 + a - (diam_pos3 + diam_pos1) / 2,
y0 + 10 / self.scale,
x0 + l + 30 + a - (diam_pos3 + diam_pos1) / 2,
y0 + h - 10 / self.scale
)
self.form3.line(
x0 + l + 30 + b - a + (diam_pos3 + diam_pos1) / 2,
y0 + 10 / self.scale,
x0 + l + 30 + b - a + (diam_pos3 + diam_pos1) / 2,
y0 + h - 10 / self.scale
)
self.form3.line(
x0 + l + 30 + 10 / self.scale,
y0 + a - (diam_pos3 + diam_pos2) / 2,
x0 + l + 30 + b - 10 / self.scale,
y0 + a - (diam_pos3 + diam_pos2) / 2
)
self.form3.line(
x0 + l + 30 + 10 / self.scale,
y0 + h - a + (diam_pos3 + diam_pos1) / 2,
x0 + l + 30 + b - 10 / self.scale,
y0 + h - a + (diam_pos3 + diam_pos1) / 2
)
self.form3.set_line_width(0.05)
self.form3.ellipse(x0 + l + 30 + a - diam_pos1 / 2, y0 + a - diam_pos2 / 2, diam_pos2, diam_pos2, "FD")
self.form3.ellipse(x0 + l + 30 - a + diam_pos1 / 2 + b - diam_pos2, y0 + a - diam_pos2 / 2, diam_pos2, diam_pos2, "FD")
for i in range(self._result_dict["1"][0]):
self.form3.ellipse(x0 + l + 30 + a - diam_pos1 / 2 + s * i, y0 + h - a - diam_pos1 / 2, diam_pos1, diam_pos1, "FD")
self._dim_h(x0, y0 + h, 30 / self.scale, -3.5)
self._dim_h(x0 + 30 / self.scale, y0 + h, 50 / self.scale, 5)
self._dim_h(
x0 + 30 / self.scale + 50 / self.scale,
y0 + h,
pos3_data[1] * 1000 / self.scale,
-5,
f"{pos3_data[0] - 1}x100={(pos3_data[0] - 1) * 100}"
)
self._dim_h(
x0 + 30 / self.scale + 50 / self.scale + pos3_data[1] * 1000 / self.scale,
y0 + h,
mid_dist
)
self._dim_h(
x0 + 30 / self.scale + 50 / self.scale + pos3_data[1] * 1000 / self.scale + mid_dist,
y0 + h,
pos3_data[3] * 1000 / self.scale,
-5,
f"{pos3_data[2] - 1}x200={(pos3_data[2] - 1) * 200}"
)
self._dim_h(
x0 + 30 / self.scale + 50 / self.scale + pos3_data[1] * 1000 / self.scale + mid_dist + pos3_data[3] * 1000 / self.scale,
y0 + h,
mid_dist
)
self._dim_h(
x0 + 30 / self.scale + 50 / self.scale + pos3_data[1] * 1000 / self.scale + 2 * mid_dist + pos3_data[3] * 1000 / self.scale,
y0 + h,
pos3_data[1] * 1000 / self.scale,
-5,
f"{pos3_data[0] - 1}x100={(pos3_data[0] - 1) * 100}"
)
self._dim_h(
x0 + 30 / self.scale + 50 / self.scale + 2 * pos3_data[1] * 1000 / self.scale + 2 * mid_dist + pos3_data[3] * 1000 / self.scale,
y0 + h,
50 / self.scale,
-4.5
)
self._dim_h(
x0 + 30 / self.scale + 2 * 50 / self.scale + 2 * pos3_data[1] * 1000 / self.scale + 2 * mid_dist + pos3_data[3] * 1000 / self.scale,
y0 + h,
30 / self.scale,
4
)
self._dim_v(x0, y0, a, 3)
self._dim_v(x0, y0 + a, h - 2 * a)
self._dim_v(x0, y0 - a + h, a, -3)
if l > 250:
self._dim_h(x0 + l + 16, y0 + h, a, -3)
if self._result_dict['1'][0] > 2:
self._dim_h(
x0 + l + 16 + a,
y0 + h,
b - 2 * a,
-1,
f" "
)
self.form3.set_line_width(0.05)
self.form3.line(x0 + l + 16 + b / 2, y0 + h + 8, x0 + l + 16 + b / 2, y0 + h + 13)
self.form3.line(x0 + l + 16 + b / 2, y0 + h + 13, x0 + l + 16 + b / 2 + 15, y0 + h + 13)
self.form3.text(
x0 + l + 16 + b / 2 + 1,
y0 + h + 12.5,
f"{self._result_dict['1'][0] - 1}x"
f"{int(round((b - 2 * a) * self.scale / (self._result_dict['1'][0] - 1), 0))}="
f"{int(round((b - 2 * a) * self.scale, 0))}")
else:
self._dim_h(
x0 + l + 16 + a,
y0 + h,
b - 2 * a,
-1,
f"{int(round((b - 2 * a) * self.scale / (self._result_dict['1'][0] - 1), 0))}"
)
self._dim_h(x0 + l + 16 - a + b, y0 + h, a, 3.5)
self._dim_v(x0 + l + 16, y0, a, 3)
self._dim_v(x0 + l + 16, y0 + a, h - 2 * a)
self._dim_v(x0 + l + 16, y0 - a + h, a, -3)
else:
self._dim_h(x0 + l + 30, y0 + h, a, -3)
if self._result_dict['1'][0] > 2:
self._dim_h(
x0 + l + 30 + a,
y0 + h,
b - 2 * a,
-1,
" " #f"{self._result_dict['1'][0] - 1}x{int(round((b - 2 * a) * self.scale / (self._result_dict['1'][0] - 1), 0))}"
)
self.form3.set_line_width(0.05)
self.form3.line(x0 + l + 30 + b / 2, y0 + h + 8, x0 + l + 30 + b / 2, y0 + h + 13)
self.form3.line(x0 + l + 30 + b / 2, y0 + h + 13, x0 + l + 30 + b / 2 + 15, y0 + h + 13)
self.form3.text(
x0 + l + 30 + b / 2 + 1,
y0 + h + 12.5,
f"{self._result_dict['1'][0] - 1}x"
f"{int(round((b - 2 * a) * self.scale / (self._result_dict['1'][0] - 1), 0))}="
f"{int(round((b - 2 * a) * self.scale, 0))}")
else:
self._dim_h(
x0 + l + 30 + a,
y0 + h,
b - 2 * a,
0,
f"{int(round((b - 2 * a) * self.scale / (self._result_dict['1'][0] - 1), 0))}"
)
self._dim_h(x0 + l + 30 - a + b, y0 + h, a, 3.5)
self._dim_v(x0 + l + 30, y0, a, 3)
self._dim_v(x0 + l + 30, y0 + a, h - 2 * a)
self._dim_v(x0 + l + 30, y0 - a + h, a, -3)
self.form3.set_line_width(0.05)
self.form3.set_font("iso", "", 11)
self.form3.line(x0 + l / 2 + 5, y0 + a, x0 + l / 2 + 5, y0 + a + 5)
self.form3.line(x0 + l / 2 + 5, y0 + a + 5, x0 + l / 2 + 8, y0 + a + 5)
self.form3.text(x0 + l / 2 + 6, y0 + a + 4.5, "2")
self.form3.line(x0 + l / 2 - 5, y0 + h - a, x0 + l / 2 - 5, y0 + h - a - 5)
self.form3.line(x0 + l / 2 - 5, y0 + h - a - 5, x0 + l / 2 - 2, y0 + h - a - 5)
self.form3.text(x0 + l / 2 - 4, y0 + h - a - 5.5, "1")
self.form3.line(x0 + 80 / self.scale, y0 + h / 2, x0 + 80 / self.scale + 8, y0 + h / 2)
self.form3.text(x0 + 80 / self.scale + 6, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + (80 + pos3_data[1] * 1000) / self.scale,
y0 + h / 2,
x0 + (80 + pos3_data[1] * 1000) / self.scale - 8,
y0 + h / 2
)
self.form3.text(x0 + (80 + pos3_data[1] * 1000) / self.scale - 7, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + (80 + pos3_data[1] * 1000) / self.scale + mid_dist,
y0 + h / 2,
x0 + (80 + pos3_data[1] * 1000) / self.scale + mid_dist + 8,
y0 + h / 2
)
self.form3.text(x0 + (80 + pos3_data[1] * 1000) / self.scale + mid_dist + 6, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + (80 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + mid_dist,
y0 + h / 2,
x0 + (80 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + mid_dist - 8,
y0 + h / 2
)
self.form3.text(x0 + (80 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + mid_dist -7, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + (80 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + 2 * mid_dist,
y0 + h / 2,
x0 + (80 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + 2 * mid_dist + 8,
y0 + h / 2
)
self.form3.text(x0 + (80 + pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + 2 * mid_dist + 6, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + (80 + 2 * pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + 2 * mid_dist,
y0 + h / 2,
x0 + (80 + 2 * pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + 2 * mid_dist - 8,
y0 + h / 2
)
self.form3.text(x0 + (80 + 2 * pos3_data[1] * 1000 + pos3_data[3] * 1000) / self.scale + 2 * mid_dist - 7, y0 + h / 2 - 0.5, "3")
if l > 250:
for i in range(self._result_dict["1"][0]):
self.form3.line(
x0 + l + 16 + a + s * i,
y0 + h - a,
x0 + l + 16 + a + 2,
y0 + h - a - 5
)
self.form3.line(
x0 + l + 16 + a + 2,
y0 + h - a - 5,
x0 + l + 16 + a + 5,
y0 + h - a - 5
)
self.form3.text(x0 + l + 16 + a + 3, y0 + h - a - 5.5, "1")
self.form3.line(
x0 + l + 16 + a - diam_pos2 / 2,
y0 + a,
x0 + l + 16 + a - diam_pos2 / 2 - 2,
y0 + a - 5
)
self.form3.line(
x0 + l + 16 + a - diam_pos2 / 2 - 2,
y0 + a - 5,
x0 + l + 16 + a - diam_pos2 / 2 - 5,
y0 + a - 5
)
self.form3.text(x0 + l + 16 + a - diam_pos2 / 2 - 4, y0 + a - 5.5, "2")
self.form3.line(
x0 + l + 16 - a + b - diam_pos2 / 2 + diam_pos1 / 2,
y0 + a,
x0 + l + 16 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 2,
y0 + a - 5
)
self.form3.line(
x0 + l + 16 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 2,
y0 + a - 5,
x0 + l + 16 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 5,
y0 + a - 5
)
self.form3.text(x0 + l + 16 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 3, y0 + a - 5.5, "2")
self.form3.line(
x0 + l + 16 + a - (diam_pos3 / 2 + diam_pos1 / 2),
y0 + h / 2,
x0 + l + 16 + a - (diam_pos3 / 2 + diam_pos1 / 2) - 6,
y0 + h / 2
)
self.form3.text(x0 + l + 16 + a - (diam_pos3 / 2 + diam_pos1 / 2) - 5, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + l + 16 - a + (diam_pos3 / 2 + diam_pos1 / 2) + b,
y0 + h / 2,
x0 + l + 16 - a + (diam_pos3 / 2 + diam_pos1 / 2) + b + 8,
y0 + h / 2
)
self.form3.text(x0 + l + 16 - a + (diam_pos3 + diam_pos1) / 2 + b + 6, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + l + 16 + b / 2,
y0 + a - (diam_pos4 + diam_pos2) / 2,
x0 + l + 16 + b / 2 - 2,
y0 + a - (diam_pos4 + diam_pos2) / 2 - 5
)
self.form3.line(x0 + l + 16 + b / 2 - 2, y0 + a - (diam_pos4 + diam_pos2) / 2 - 5, x0 + l + 16 + b / 2 + 1, y0 + a - (diam_pos4 + diam_pos2) / 2 - 5)
self.form3.text(x0 + l + 16 + b / 2 - 1, y0 + a - (diam_pos4 + diam_pos2) / 2 - 5.5, "4")
self.form3.line(
x0 + l + 16 + 3,
y0 + h - a + (diam_pos4 + diam_pos1) / 2,
x0 + l + 16 - 2,
y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 5
)
self.form3.line(
x0 + l + 16 - 2,
y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 5,
x0 + l + 16 - 5,
y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 5
)
self.form3.text(x0 + l + 16 - 4, y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 4.5, "4")
else:
for i in range(self._result_dict["1"][0]):
self.form3.line(
x0 + l + 30 + a + s * i,
y0 + h - a,
x0 + l + 30 + a + 2,
y0 + h - a - 5
)
self.form3.line(
x0 + l + 30 + a + 2,
y0 + h - a - 5,
x0 + l + 30 + a + 5,
y0 + h - a - 5
)
self.form3.text(x0 + l + 30 + a + 3, y0 + h - a - 5.5, "1")
self.form3.line(
x0 + l + 30 + a - diam_pos2 / 2,
y0 + a,
x0 + l + 30 + a - diam_pos2 / 2 - 2,
y0 + a - 5
)
self.form3.line(
x0 + l + 30 + a - diam_pos2 / 2 - 2,
y0 + a - 5,
x0 + l + 30 + a - diam_pos2 / 2 - 5,
y0 + a - 5
)
self.form3.text(x0 + l + 30 + a - diam_pos2 / 2 - 4, y0 + a - 5.5, "2")
self.form3.line(
x0 + l + 30 - a + b - diam_pos2 / 2 + diam_pos1 / 2,
y0 + a,
x0 + l + 30 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 2,
y0 + a - 5
)
self.form3.line(
x0 + l + 30 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 2,
y0 + a - 5,
x0 + l + 30 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 5,
y0 + a - 5
)
self.form3.text(x0 + l + 30 - a + b - diam_pos2 / 2 + diam_pos1 / 2 + 3, y0 + a - 5.5, "2")
self.form3.line(
x0 + l + 30 + a - (diam_pos3 / 2 + diam_pos1 / 2),
y0 + h / 2,
x0 + l + 30 + a - (diam_pos3 / 2 + diam_pos1 / 2) - 6,
y0 + h / 2
)
self.form3.text(x0 + l + 30 + a - (diam_pos3 / 2 + diam_pos1 / 2) - 5, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + l + 30 - a + (diam_pos3 / 2 + diam_pos1 / 2) + b,
y0 + h / 2,
x0 + l + 30 - a + (diam_pos3 / 2 + diam_pos1 / 2) + b + 8,
y0 + h / 2
)
self.form3.text(x0 + l + 30 - a + (diam_pos3 + diam_pos1) / 2 + b + 6, y0 + h / 2 - 0.5, "3")
self.form3.line(
x0 + l + 30 + b / 2,
y0 + a - (diam_pos4 + diam_pos2) / 2,
x0 + l + 30 + b / 2 - 2,
y0 + a - (diam_pos4 + diam_pos2) / 2 - 5
)
self.form3.line(x0 + l + 30 + b / 2 - 2, y0 + a - (diam_pos4 + diam_pos2) / 2 - 5, x0 + l + 30 + b / 2 + 1, y0 + a - (diam_pos4 + diam_pos2) / 2 - 5)
self.form3.text(x0 + l + 30 + b / 2 - 1, y0 + a - (diam_pos4 + diam_pos2) / 2 - 5.5, "4")
self.form3.line(
x0 + l + 30 + 3,
y0 + h - a + (diam_pos4 + diam_pos1) / 2,
x0 + l + 30 - 2,
y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 5
)
self.form3.line(
x0 + l + 30 - 2,
y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 5,
x0 + l + 30 - 5,
y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 5
)
self.form3.text(x0 + l + 30 - 4, y0 + h - a + (diam_pos4 + diam_pos1) / 2 + 4.5, "4")
def _dim_h(self, x, y, l, x_text=0.0, text=""):
x0 = x
y0 = y
x_t = x0 + x_text + l / 2 - 2
if len(text) == 0:
dim_text = str(int(l * self.scale))
else:
dim_text = text
self.form3.set_line_width(0.05)
self.form3.line(x0 - 2, y0 + 8, x0 + l + 2, y0 + 8)
self.form3.line(x0, y0 + 2, x0, y0 + 10)
self.form3.line(x0 + l, y0 + 2, x0 + l, y0 + 10)
self.form3.set_line_width(0.5)
self.form3.line(x0 - 0.9, y0 + 8.9, x0 + 0.9, y0 + 7.1)
self.form3.line(x0 + l - 0.9, y0 + 8.9, x0 + l + 0.9, y0 + 7.1)
self.form3.set_font("iso", "", 11)
self.form3.text(x_t, y0 + 7.5, dim_text)
def _dim_v(self, x, y, l, x_text=0.0, text=""):
x0 = x
y0 = y
x_t = x0 + x_text - l / 2 - 2
self.form3.rotate(90, x0, y0)
if len(text) == 0:
dim_text = str(int(l * self.scale))
else:
dim_text = text
self.form3.set_line_width(0.05)
self.form3.line(x0 + 2, y0 - 8, x0 - l - 2, y0 - 8)
self.form3.line(x0, y0 - 2, x0, y0 - 10)
self.form3.line(x0 - l, y0 - 2, x0 - l, y0 - 10)
self.form3.set_line_width(0.5)
self.form3.line(x0 + 0.9, y0 - 8.9, x0 - 0.9, y0 - 7.1)
self.form3.line(x0 - l + 0.9, y0 - 8.9, x0 - l - 0.9, y0 - 7.1)
self.form3.set_font("iso", "", 11)
self.form3.text(x_t, y0 - 8.5, dim_text)
self.form3.rotate(0)
def _draw_form_3(self, y=0):
y0 = y
self.form3.set_line_width(0.5)
self.form3.rect(20, y0 + 10, 390, y0 + 277)
self.form3.rect(230, y0 + 232, 180, y0 + 55)
self.form3.line(240, y0 + 232, 240, y0 + 257)
self.form3.line(250, y0 + 232, 250, y0 + 287)
self.form3.line(260, y0 + 232, 260, y0 + 257)
self.form3.line(270, y0 + 232, 270, y0 + 287)
self.form3.line(285, y0 + 232, 285, y0 + 287)
self.form3.line(295, y0 + 232, 295, y0 + 287)
self.form3.line(365, y0 + 257, 365, y0 + 287)
self.form3.line(380, y0 + 257, 380, y0 + 272)
self.form3.line(395, y0 + 257, 395, y0 + 272)
self.form3.line(295, y0 + 242, 410, y0 + 242)
self.form3.line(230, y0 + 252, 295, y0 + 252)
self.form3.line(230, y0 + 257, 410, y0 + 257)
self.form3.line(365, y0 + 262, 410, y0 + 262)
self.form3.line(295, y0 + 272, 410, y0 + 272)
self.form3.set_line_width(0.05)
self.form3.line(230, y0 + 237, 295, y0 + 237)
self.form3.line(230, y0 + 242, 295, y0 + 242)
self.form3.line(230, y0 + 247, 295, y0 + 247)
self.form3.line(230, y0 + 262, 295, y0 + 262)
self.form3.line(230, y0 + 267, 295, y0 + 267)
self.form3.line(230, y0 + 272, 295, y0 + 272)
self.form3.line(230, y0 + 277, 295, y0 + 277)
self.form3.line(230, y0 + 282, 295, y0 + 282)
self.form3.set_font("iso", "", 11)
self.form3.text(233, y0 + 255.75, "Зм.")
self.form3.text(240.75, y0 + 255.75, "Кільк.")
self.form3.text(252, y0 + 255.75, "Арк.")
self.form3.text(260.5, y0 + 255.75, "№док.")
self.form3.text(273, y0 + 255.75, "Підпис")
self.form3.text(286, y0 + 255.75, "Дата")
self.form3.text(231, y0 + 260.75, "Виконав")
self.form3.text(251, y0 + 260.75, "Бережний")
self.form3.text(367, y0 + 260.75, "Стадія")
self.form3.text(382.5, y0 + 260.75, "Аркуш")
self.form3.text(396.25, y0 + 260.75, "Аркушів")
self.form3.text(296, y0 + 275.75, self.title1)
self.form3.text(296, y0 + 280.75, self.title2)
self.form3.text(296, y0 + 285.75, self.title3)
self.form3.set_font("iso", "", 14)
self.form3.text(370, y0 + 268.75, "ЕП")
self.form3.text(386.5, y0 + 268.75, "1")
self.form3.text(401.5, y0 + 268.75, "1")
self.form3.text(336, y0 + 238.25, str(datetime.utcnow().strftime("%Y—%m—%d %H:%M")))
self.form3.image("static/images/logo_dark.png", 366.25, y0 + 273.25, 42.5, 12.5)
def _draw_specification(self, result_dict: dict, x=230, y=30, title: str = "Специфікація"):
x0 = x
y0 = y
self.form3.set_line_width(0.5)
self.form3.line(x0 + 0, y0 + 0, x0 + 180, y0 + 0)
self.form3.line(x0 + 0, y0 + 15, x0 + 180, y0 + 15)
self.form3.line(x0 + 0, y0 + 0, x0 + 0, y0 + 15 + self.count_of_lines * 8)
self.form3.line(x0 + 15, y0 + 0, x0 + 15, y0 + 15 + self.count_of_lines * 8)
self.form3.line(x0 + 75, y0 + 0, x0 + 75, y0 + 15 + self.count_of_lines * 8)
self.form3.line(x0 + 135, y0 + 0, x0 + 135, y0 + 15 + self.count_of_lines * 8)
self.form3.line(x0 + 145, y0 + 0, x0 + 145, y0 + 15 + self.count_of_lines * 8)
self.form3.line(x0 + 160, y0 + 0, x0 + 160, y0 + 15 + self.count_of_lines * 8)
self.form3.line(x0 + 180, y0 + 0, x0 + 180, y0 + 15 + self.count_of_lines * 8)
y = y0 + 23
self.form3.set_line_width(0.05)
i = 0
while i < self.count_of_lines:
self.form3.set_font("iso", "", 11)
self.form3.line(x0 + 0, y, x0 + 180, y)
i += 1
y += 8
self.form3.set_font("iso", "", 14)
self.form3.text(x0 + 85, y0 - 5, title)
self.form3.set_font("iso", "", 11)
self.form3.text(x0 + 5, y0 + 9.25, "Поз.")
self.form3.text(x0 + 35, y0 + 9.25, "Позначення")
self.form3.text(x0 + 94, y0 + 9.25, "Найменування")
self.form3.text(x0 + 135.5, y0 + 9.25, "Кільк.")
self.form3.text(x0 + 145.3, y0 + 7.25, "Маса од.,")
self.form3.text(x0 + 151, y0 + 11, "кг")
self.form3.text(x0 + 163, y0 + 9.25, "Примітка")
self.form3.set_font("iso", "U", 11)
self.form3.text(x0 + 88, y0 + 20.25 + 0 * 8, "Залізобетонні вироби")
self.form3.text(x0 + 90, y0 + 20.25 + 2 * 8, "Арматурні вироби")
self.form3.text(x0 + 96, y0 + 20.25 + 7 * 8, "Матеріали")
self.form3.set_font("iso", "", 11)
mark = []
for key in result_dict.keys():
mark.append(key)
text0 = f"Залізобетонна балка {mark[0]}"
mass = (int(self._result_dict[mark[0]][2]) + 500) * int(self._result_dict[mark[0]][3]) * int(self._result_dict[mark[0]][4]) * 2500 / 1e9
self.form3.text(x0 + 4, y0 + 20.25 + 1 * 8, mark[0])
self.form3.text(x0 + 76, y0 + 20.25 + 1 * 8, text0)
self.form3.text(x0 + 139, y0 + 20.25 + 1 * 8, '1')
self.form3.text(x0 + 148.5, y0 + 20.25 + 1 * 8, str(mass))
i = 3
for p in mark[1:]:
diameter = self._result_dict[p][1]
cl = self._result_dict[p][2]
length = int(self._result_dict[p][3] * 1000)
quantity = self._result_dict[p][0]
text1 = f"∅{diameter}{cl}; L={length}"
mass = round(pi * (diameter / 1000) ** 2 / 4 * 7850 * length / 1000, 3)
total_mass = f"{round(mass * quantity, 3)} кг"
self.form3.text(x0 + 6.5, y0 + 20.25 + i * 8, p)
self.form3.text(x0 + 16, y0 + 20.25 + i * 8, "ДСТУ 3760:2019")
self.form3.text(x0 + 76, y0 + 20.25 + i * 8, text1)
self.form3.text(x0 + 139, y0 + 20.25 + i * 8, f"{quantity}")
self.form3.text(x0 + 148.5, y0 + 20.25 + i * 8, f"{mass}")
self.form3.text(x0 + 162.5, y0 + 20.25 + i * 8, f"{total_mass}")
i += 1
volume = (int(self._result_dict[mark[0]][2]) + 500) * int(self._result_dict[mark[0]][3]) * int(self._result_dict[mark[0]][4]) / 1e9
self.form3.text(x0 + 16, y0 + 20.25 + 8 * 8, "ДСТУ Б В.2.7-176:2008")
self.form3.text(x0 + 76, y0 + 20.25 + 8 * 8, "Бетон класу С20/25")
self.form3.text(x0 + 162.5, y0 + 20.25 + 8 * 8, f"{volume}")
self.form3.text(x0 + 171, y0 + 20.25 + 8 * 8, f"м")
self.form3.set_font("iso", "", 7)
self.form3.text(x0 + 173, y0 + 19.25 + 8 * 8, "3")
def process(self,
output_file_name=None,
dpi=150,
offset=0,
fps=10,
height_mm=50,
margins=Margin(10, 10, 10, 10),
paper_format='a4'):
def draw_raster():
for ix in range(0, nx + 1):
xx = x0 + ix * total.width
pdf.line(xx, y0, xx, y1)
if offset > 0 and ix != nx:
pdf.line(xx + offset, y0, xx + offset, y1)
for iy in range(0, ny + 1):
yy = y0 + iy * total.height
pdf.line(x0, yy, x1, yy)
height_mm = float(height_mm)
tmp_files = []
if self.clip:
if fps != self.clip.fps:
if self.verbosity > 0:
print 'Transcoding from {} fps to {} fps ...'.format(self.clip.fps, fps)
self.clip.write_videofile('tmp.mp4', fps=fps, audio=False)
tmp_files.append('tmp.mp4')
self.clip = VideoFileClip('tmp.mp4')
self.fps = self.clip.fps
self.frame_count = int(self.clip.duration * self.fps)
clip_size = Size.from_tuple(self.clip.size)
elif self.frames:
clip_size = Size.from_tuple(self.im.size)
paper = self.PAPER_SIZES[paper_format.lower()]
printable_area = Size(paper.width - margins.left - margins.right,
paper.height - margins.top - margins.bottom)
frame_mm = Size(height_mm / clip_size.height * clip_size.width, height_mm)
total = Size(offset + frame_mm.width, frame_mm.height)
frame = Size(int(frame_mm.width / 25.4 * dpi),
int(frame_mm.height / 25.4 * dpi))
nx = int(printable_area.width / total.width)
ny = int(printable_area.height / total.height)
if self.verbosity > 0:
print 'Input: {} fps, {}x{}, {} frames'\
'\n from: {}'\
.format(
self.fps,
clip_size.width,
clip_size.height,
self.frame_count,
self.input_file_name
)
print 'Output: {}dpi, {}x{}, {:.2f}mm x {:.2f}mm, {}x{} tiles'\
'\n to: {}'\
.format(
dpi,
frame.width, frame.height,
frame_mm.width, frame_mm.height,
nx, ny,
output_file_name
)
pdf = FPDF(unit='mm', format=paper_format.upper(), orientation='L')
pdf.set_compression(True)
pdf.set_title('Funny video')
pdf.set_author('Oliver Lau <*****@*****.**> - Heise Medien GmbH & Co. KG')
pdf.set_creator('flippy')
pdf.set_keywords('flip-book, video, animated GIF')
pdf.set_draw_color(128, 128, 128)
pdf.set_line_width(0.1)
pdf.set_font('Helvetica', '', 12)
pdf.add_page()
i = 0
page = 0
tx, ty = -1, 0
x0, y0 = margins.left, margins.top
x1, y1 = x0 + nx * total.width, y0 + ny * total.height
if self.clip:
all_frames = self.clip.iter_frames()
elif self.frames:
all_frames = AnimatedGif(self.im)
else:
all_frames = []
for f in all_frames:
ready = float(i + 1) / self.frame_count
if self.verbosity:
sys.stdout.write('\rProcessing frames |{:30}| {}%'
.format('X' * int(30 * ready), int(100 * ready)))
sys.stdout.flush()
tx += 1
if type(f) == GifImagePlugin.GifImageFile:
f.putpalette(self.palette)
self.last_im.paste(f)
im = self.last_im.convert('RGBA')
else:
im = Image.fromarray(f)
im.thumbnail(frame.to_tuple())
if tx == nx:
tx = 0
ty += 1
if ty == ny:
ty = 0
draw_raster()
pdf.add_page()
page += 1
temp_file = 'tmp-{}-{}-{}.jpg'.format(page, tx, ty)
im.save(temp_file)
tmp_files.append(temp_file)
x = x0 + tx * total.width
y = y0 + ty * total.height
pdf.image(temp_file,
x=x + offset,
y=y,
w=frame_mm.width,
h=frame_mm.height)
text = Point(x, y + frame_mm.height - 2)
if offset > 0:
pdf.rotate(90, text.x, text.y)
pdf.text(text.x, text.y + 5, '{}'.format(i))
pdf.rotate(0)
i += 1
if y != 0 and x != 0:
draw_raster()
if self.verbosity > 0:
print '\nGenerating PDF ...'
pdf.output(name=output_file_name)
if self.verbosity > 0:
print 'Removing temporary files ...'
for temp_file in tmp_files:
os.remove(temp_file)
def create_pdf(self):
pdf = FPDF(orientation='P') # start PDF, set to portrait, add page
pdf.add_page()
x, y = (5.0, 5.0)
pdf.set_xy(x, y) # set x and y coordinates for printing
# Set up variables based on layout chosen by user
layout = self.file_settings_widget.ids.pdflayout.text
# Default values for option: "Default (5x4)"
w = 50; h = 50 # set width and height
x_change = 50 # set x distance between this code and next
y_change = 50 # set y distance between this code and next
max_in_row = 3 # set the max # codes in row - 1
max_in_pg = 20 # set the max # codes in pg
if layout == "4x1":
w = 60; h = 60 # set same vars as above but for diff layout
x_change = 60; y_change = 60
max_in_row = 0; max_in_pg = 4
elif layout == "4x2":
w = 70; h = 70
x_change = 65; y_change = 65
max_in_row = 1; max_in_pg = 8
elif layout == "4x3":
w = 70; h = 70
x_change = 65; y_change = 65
max_in_row = 2; max_in_pg = 12
elif layout == "4x4":
w = 50; h = 55
x_change = 50; y_change = 55
max_in_row = 3; max_in_pg = 16
elif layout == "3x2":
w = 90; h = 90
x_change = 90; y_change = 90
max_in_row = 1; max_in_pg = 6
elif layout == "3x3":
w = 70; h = 70
x_change = 70; y_change = 70
max_in_row = 2; max_in_pg = 9
elif layout == "2x2":
w = 100; h = 100
x_change = 100; y_change = 100
max_in_row = 1; max_in_pg = 4
elif layout == "1x2 and 5/8":
w = 35; h = 92.20
x_change = 33; y_change = 88
max_in_row = 5; max_in_pg = 18
elif layout == "Landscape Text":
w = 35; h = 35
x_change = 33; y_change = 88
max_in_row = 5; max_in_pg = 18
""" Printing of codes usually results in first page being mostly blank, so this method is a
work around to that issue, by printing a first page and then reprinting that first page correctly,
since the 2nd page onward works fine """
# This first part is just to get rid of the blank page at the beginning by printing a pg of codes arbitrarily
if layout == "Landscape Text":
row_num = 0 # used to track # of rows for the Landscape Text layout
num_in_row = 0 # used to measure how many will fit in a row
num_in_page = 0 # used to measure how many will fit in a pg
i = 0 # used to get the label for each code
num_codes_to_arbitrarily_print = len(self.array_of_codes)
if num_codes_to_arbitrarily_print > 18:
num_codes_to_arbitrarily_print = 18 # if the num codes greater than 18, keep it to 18 as that's all I need
for j in range(num_codes_to_arbitrarily_print): # print qr codes to pdf file
code = self.array_of_codes[j]
pdf.image(code, w=w, h=h) # print qr code to pdf
pdf.set_xy(5.0,
5.0) # the farthest point you can go here is (275, -195) (really 280, -200 but the starting x,y points are also to be taken into account
pdf.rotate(-90) # rotate so labels printed sideways
pdf.set_font('Arial', '', 14) # set font family, style, and size
pdf.text((h + 3) + y_change * row_num, -1 * (w - 15) - (33 * num_in_row), txt=self.code_labels_array[i])
pdf.rotate(0) # undo rotation
num_in_page += 1
x += x_change # adjust values of vars for the next code so it is printed correctly
if num_in_row == max_in_row: x = 5.0; y += y_change; num_in_row = -1; row_num += 1 # when maxnum codes are printed in a row, move to next row
if num_in_page == max_in_pg: y = 5.0; pdf.add_page(); num_in_page = 0; row_num = 0 # when max codes in page are printed in pg, move to nxt pg
pdf.set_xy(x, y)
num_in_row += 1
i += 1
if i != 18: # if 18 codes not reached, add a page so that this method/work around still works
pdf.add_page() # this page would have been added otherwise, as seen above in code
x = 5.0; y = 5.0
pdf.set_xy(x, y)
# Then we print the actual codes that will be on the PDF
row_num = 0 # used to track # of rows for the Landscape Text layout
num_in_row = 0 # used to measure how many will fit in a row
num_in_page = 0 # used to measure how many will fit in a pg
i = 0 # index used to keep track of array_of_codes position for labels
for code in self.array_of_codes: # print qr codes to pdf file
pdf.image(code, w=w, h=h) # print code to pdf
if layout == "Landscape Text":
pdf.set_xy(5.0,
5.0) # the farthest point you can go here is (275, -195) (really 280, -200 but the starting x,y points are also to be taken into account
pdf.rotate(-90) # rotate so labels printed sideways
pdf.set_font('Arial', '', 14) # set font family, style, and size
text_to_print1 = self.code_labels_array[i][:20]
text_to_print2 = self.code_labels_array[i][20:40] # split up texts so label fits and doesn't get cut off
text_to_print3 = self.code_labels_array[i][40:60]
text_to_print4 = self.code_labels_array[i][60:80]
text_to_print5 = self.code_labels_array[i][80:100]
pdf.text((h + 3) + y_change * row_num, -1 * (w - 15) - (33 * num_in_row), txt=text_to_print1)
pdf.text((h + 3) + y_change * row_num, -1 * (w - 15) - (33 * num_in_row) + 5, txt=text_to_print2)
pdf.text((h + 3) + y_change * row_num, -1 * (w - 15) - (33 * num_in_row) + 10, txt=text_to_print3)
pdf.text((h + 3) + y_change * row_num, -1 * (w - 15) - (33 * num_in_row) + 15, txt=text_to_print4)
pdf.text((h + 3) + y_change * row_num, -1 * (w - 15) - (33 * num_in_row) + 20, txt=text_to_print5)
pdf.rotate(0) # undo rotation
num_in_page += 1
x += x_change # update vars so next code printed correctly
if num_in_row == max_in_row: x = 5.0; y += y_change; num_in_row = -1; row_num += 1 # when maxnum codes are printed in a row, move to next row
if num_in_page == max_in_pg: # when max codes in page are printed in pg, move to nxt pg
y = 5.0; num_in_page = 0; row_num = 0
if i + 1 < len(self.array_of_codes): pdf.add_page() # but only if there are more codes to print
pdf.set_xy(x, y)
num_in_row += 1
i += 1
# Then we remove the first page by moving the values of the array down one and then decrementing total #pgs
if layout == "Landscape Text": # only do this if using landscape text
for i in range(pdf.page - 1):
pdf.pages[i + 1] = pdf.pages[i + 2]
pdf.page = pdf.page - 1
if not self.ids.individualcodes.active: # if Individual QR Codes checkbox not checked
for code in self.array_of_codes: # Then delete qrcodes
try: os.remove(code)
except: continue
self.array_of_codes = [] # empty the array_of_codes array for the next create
t = datetime.now()
file_name = f"SQUIRELOutput-{t.year}-{t.month}-{t.day}-{t.hour}_{t.minute}_{t.second}.pdf"
if self.save_folder_path is not None and self.save_folder_path is not "":
file_name = f"{self.save_folder_path}/{file_name}"
pdf.output(file_name, 'F').encode('latin-1') # output final PDF file
def process(
self,
output_file_name=None,
dpi=150,
offset=0,
fps=10,
height_mm=50,
margins=Margin(10, 10, 10, 10),
paper_format="a4",
):
def draw_raster():
for ix in range(0, nx + 1):
xx = x0 + ix * total.width
pdf.line(xx, y0, xx, y1)
if offset > 0 and ix != nx:
pdf.line(xx + offset, y0, xx + offset, y1)
for iy in range(0, ny + 1):
yy = y0 + iy * total.height
pdf.line(x0, yy, x1, yy)
height_mm = float(height_mm)
tmp_files = []
if self.clip:
if fps != self.clip.fps:
if self.verbosity > 0:
print "Transcoding from {} fps to {} fps ...".format(self.clip.fps, fps)
self.clip.write_videofile("tmp.mp4", fps=fps, audio=False)
tmp_files.append("tmp.mp4")
self.clip = VideoFileClip("tmp.mp4")
self.fps = self.clip.fps
self.frame_count = int(self.clip.duration * self.fps)
clip_size = Size.from_tuple(self.clip.size)
elif self.frames:
clip_size = Size.from_tuple(self.im.size)
paper = self.PAPER_SIZES[paper_format.lower()]
printable_area = Size(paper.width - margins.left - margins.right, paper.height - margins.top - margins.bottom)
frame_mm = Size(height_mm / clip_size.height * clip_size.width, height_mm)
total = Size(offset + frame_mm.width, frame_mm.height)
frame = Size(int(frame_mm.width / 25.4 * dpi), int(frame_mm.height / 25.4 * dpi))
nx = int(printable_area.width / total.width)
ny = int(printable_area.height / total.height)
if self.verbosity > 0:
print "Input: {} fps, {}x{}, {} frames" "\n from: {}".format(
self.fps, clip_size.width, clip_size.height, self.frame_count, self.input_file_name
)
print "Output: {}dpi, {}x{}, {:.2f}mm x {:.2f}mm, {}x{} tiles" "\n to: {}".format(
dpi, frame.width, frame.height, frame_mm.width, frame_mm.height, nx, ny, output_file_name
)
pdf = FPDF(unit="mm", format=paper_format.upper(), orientation="L")
pdf.set_compression(True)
pdf.set_title("Funny video")
pdf.set_author("Oliver Lau <*****@*****.**> - Heise Medien GmbH & Co. KG")
pdf.set_creator("flippy")
pdf.set_keywords("flip-book, video, animated GIF")
pdf.set_draw_color(128, 128, 128)
pdf.set_line_width(0.1)
pdf.set_font("Helvetica", "", 12)
pdf.add_page()
i = 0
page = 0
tx, ty = -1, 0
x0, y0 = margins.left, margins.top
x1, y1 = x0 + nx * total.width, y0 + ny * total.height
if self.clip:
all_frames = self.clip.iter_frames()
elif self.frames:
all_frames = AnimatedGif(self.im)
else:
all_frames = []
for f in all_frames:
ready = float(i + 1) / self.frame_count
if self.verbosity:
sys.stdout.write("\rProcessing frames |{:30}| {}%".format("X" * int(30 * ready), int(100 * ready)))
sys.stdout.flush()
tx += 1
if type(f) == GifImagePlugin.GifImageFile:
f.putpalette(self.palette)
self.last_im.paste(f)
im = self.last_im.convert("RGBA")
else:
im = Image.fromarray(f)
im.thumbnail(frame.to_tuple())
if tx == nx:
tx = 0
ty += 1
if ty == ny:
ty = 0
draw_raster()
pdf.add_page()
page += 1
temp_file = "tmp-{}-{}-{}.jpg".format(page, tx, ty)
im.save(temp_file)
tmp_files.append(temp_file)
x = x0 + tx * total.width
y = y0 + ty * total.height
pdf.image(temp_file, x=x + offset, y=y, w=frame_mm.width, h=frame_mm.height)
text = Point(x, y + frame_mm.height - 2)
if offset > 0:
pdf.rotate(90, text.x, text.y)
pdf.text(text.x, text.y + 5, "{}".format(i))
pdf.rotate(0)
i += 1
if y != 0 and x != 0:
draw_raster()
if self.verbosity > 0:
print "\nGenerating PDF ..."
pdf.output(name=output_file_name)
if self.verbosity > 0:
print "Removing temporary files ..."
for temp_file in tmp_files:
os.remove(temp_file)
from fpdf import FPDF
pdf = FPDF()
# imagelist is the list with all image filenames
imagelist = ['IMG-0113.JPG', 'IMG-0114.JPG']
for image in imagelist:
pdf.add_page()
pdf.image(image, w=150, h=200)
pdf.rotate(angle=180)
pdf.output("newPDF.pdf", "F")
