def pdf(list,length):
desktop = os.path.join(os.path.join(os.environ['USERPROFILE']), 'Desktop')
pdf = FPDF()
pdf.set_margins(4,5, 2)
pdf.add_page()
pdf.set_font("Times",'B', size=30)
pdf.cell(200, 10, txt="Test Paper", ln=15, align="C")
pdf.ln(5)
pdf.set_font('Times', 'B', 20)
pdf.cell(200, 10, txt="Short Answers", ln=15, align="C")
pdf.ln(8)
pdf.set_font('Times', 'I', 10)
pdf.multi_cell(200, 10, txt="This test has been generated using the Questionnaire software.No answers are provided to the questions and it is upto the discretion of the candidate to decide upon the right answers.A short answer is of 3-4 sentences,so the answers should be brief",align ='J')
pdf.ln(10)
pdf.set_font('Times', 'B', 15)
for i in range(length):
pdf.multi_cell(200, 10, txt=str(i+1) + "." + " " + list[i])
pdf.ln(10)
x = pdf.get_x()
y = pdf.get_y()
pdf.dashed_line(x,y,x+175,y,6)
pdf.ln(10)
pdf.output(desktop + "/" + "Questions" + ".pdf")
def dotest(outputname, nostamp):
pdf = FPDF()
if nostamp:
pdf._putinfo = lambda: common.test_putinfo(pdf)
pdf.add_page()
pdf.dashed_line(10, 10, 110, 10)
pdf.dashed_line(10, 20, 110, 20, 5, 5)
pdf.dashed_line(10, 30, 110, 30, 1, 10)
pdf.output(outputname, 'F')
def dotest(outputname, nostamp):
pdf = FPDF()
if nostamp:
pdf._putinfo = lambda: common.test_putinfo(pdf)
pdf.add_page()
pdf.dashed_line(10, 10, 110, 10)
pdf.dashed_line(10, 20, 110, 20, 5, 5)
pdf.dashed_line(10, 30, 110, 30, 1, 10)
pdf.output(outputname, 'F')
class PdfHandler:
def __init__(self, orientation='P', unit='pt', format='A4'):
self.pdf_handler = FPDF(orientation=orientation, unit=unit, format=format)
def _set_margins(self, left, top, right=-1):
return self.pdf_handler.set_margins(left, top, right=right)
def _set_title(self, title):
return self.pdf_handler.set_title(title)
def _set_subject(self, subject):
return self.pdf_handler.set_subject(subject)
def _set_author(self, author):
return self.pdf_handler.set_author(author)
def _set_keywords(self, keywords):
return self.pdf_handler.set_keywords(keywords)
def _set_creator(self, creator):
return self.pdf_handler.set_creator(creator)
def _add_page(self, orientation=''):
return self.pdf_handler.add_page(orientation=orientation)
def _set_draw_color(self, r, g=-1, b=-1):
return self.pdf_handler.set_draw_color(r, g=g, b=b)
def _set_fill_color(self, r, g=-1, b=-1):
return self.pdf_handler.set_fill_color(g=g, b=b)
def _set_text_color(self, r, g=-1, b=-1):
return self.pdf_handler.set_text_color(r, g=-g, b=b)
def _get_string_width(self, s):
return self.pdf_handler.get_string_width(s)
def _set_line_width(self, width):
return self.pdf_handler.set_line_width(width)
def _line(self, x1, y1, x2, y2):
return self.pdf_handler.line(x1, y1, x2, y2)
def _dashed_line(self, x1, y1, x2, y2, dash_length=1, space_length=1):
return self.pdf_handler.dashed_line(x1, y1, x2, y2, dash_length=dash_length, space_length=space_length)
def _rect(self, x, y, w, h, style=''):
return self.pdf_handler.rect(x, y, w, h, style=style)
def _ellipse(self, x, y, w, h, style=''):
return self.pdf_handler.ellipse(x, y, w, h, style=style)
def _set_font(self, family, style='', size=0):
return self.pdf_handler.set_font(family, style=style, size=size)
def _set_font_size(self, size):
return self.pdf_handler.set_font_size(size)
def _text(self, x, y, txt=''):
return self.pdf_handler.text(x, y, txt=txt)
def _multi_cell(self, w, h, txt='', border=0, align='J', fill=0, split_only=False):
return self.pdf_handler.multi_cell(w, h, txt=txt, border=border, align=align, fill=fill, split_only=split_only)
def _write(self, h, txt='', link=''):
return self.pdf_handler.write(h, txt=txt, link=link)
def _image(self, name, x=None, y=None, w=0, h=0, image_type='', link=''):
return self.pdf_handler.image(name, x=x, y=y, w=w,h=h,type=image_type,link=link)
def _normalize_text(self, txt):
return self.pdf_handler.normalize_text(txt)
def _output(self, name='', dest=''):
return self.pdf_handler.output(name, dest)
class Kut2FPDF(object):
"""
Convert kuts to pyFPDF.
"""
_document: "FPDF"
_xml: Element
_xml_data: Element
_page_orientation: str
_page_size: List[int]
_bottom_margin: int
_left_margin: int
_right_margin: int
_top_margin: int
_page_top: Dict[int, int]
_data_row: Element
_parser_tools: "kparsertools.KParserTools"
_avalible_fonts: List[str]
_unavalible_fonts: List[str]
design_mode: bool
_actual_data_line: Optional[Element]
_no_print_footer: bool
_actual_section_size: int
increase_section_size: int
last_detail: bool
actual_data_level: int
last_data_processed: Element
prev_level: int
draws_at_header: Dict[str, str]
detailn: Dict[str, int]
name_: str
_actual_append_page_no: int
reset_page_count: bool
def __init__(self) -> None:
"""Constructor."""
check_dependencies({"fpdf": "fpdf2"})
self._parser_tools = kparsertools.KParserTools()
self._avalible_fonts = []
self._page_top: Dict[int, int] = {}
self._unavalible_fonts = []
self.design_mode = config.value("ebcomportamiento/kugar_debug_mode",
False)
self._actual_data_line = None
self._no_print_footer = False
self.increase_section_size = 0
self.actual_data_level = 0
self.prev_level = -1
self.draws_at_header = {}
self.detailn = {}
self.name_ = ""
self._actual_append_page_no = -1
self.reset_page_count = False
self.new_page = False
def parse(self,
name: str,
kut: str,
data: str,
report: "FPDF" = None,
flags: List[int] = []) -> Optional[str]:
"""
Parse string containing ".kut" file into a pdf and return its file path.
@param name. Filename path for ".kut".
@param kut. String with ".kut" file contents.
@param data. String with data to be used in the report.
@return Path to PDF file.
"""
try:
self._xml = self._parser_tools.loadKut(kut).getroot()
except Exception:
LOGGER.exception("KUT2FPDF: Problema al procesar %s.kut", name)
return None
try:
self._xml_data = load2xml(data).getroot()
except Exception:
LOGGER.exception("KUT2FPDF: Problema al procesar xml_data")
return None
application.PROJECT.message_manager().send(
"progress_dialog_manager", "create",
["Pineboo", len(self._xml_data), "kugar"])
application.PROJECT.message_manager().send(
"progress_dialog_manager", "setLabelText",
["Creando informe ...", "kugar"])
self.name_ = name
self.setPageFormat(self._xml)
# self._page_orientation =
# self._page_size =
if report is None:
from fpdf import FPDF # type: ignore
self._actual_append_page_no = 0
self._document = FPDF(self._page_orientation, "pt",
self._page_size)
for font in self._document.core_fonts:
LOGGER.debug("KUT2FPDF :: Adding font %s", font)
self._avalible_fonts.append(font)
else:
self._document = report
# Seteamos rutas a carpetas con tipos de letra ...
if not hasattr(self._document, "set_stretching"):
raise Exception("incorrect pyfpdf versión , you need <= 1.7.3")
# Cargamos las fuentes disponibles
next_page_break = (flags[2] == 1) if len(flags) == 3 else True
page_append = (flags[1] == 1) if len(flags) > 1 else False
page_display = (flags[0] == 1) if len(flags) > 0 else False
if page_append:
self.prev_level = -1
self.last_detail = False
page_break = False
if self.new_page:
page_break = True
self.new_page = False
if self.reset_page_count:
self.reset_page_no()
self.reset_page_count = False
if self.design_mode:
print("Append", page_append)
print("Display", page_display)
print("Page break", next_page_break)
if next_page_break:
self.reset_page_count = True
if page_display:
self.new_page = True
self.processDetails(not page_break)
# FIXME:Alguno valores no se encuentran
for pages in self._document.pages.keys():
page_content = self._document.pages[pages]["content"]
for header in self.draws_at_header.keys():
page_content = page_content.replace(
header, str(self.draws_at_header[header]))
self._document.pages[pages]["content"] = page_content
# print(self.draws_at_header.keys())
self._document.set_title(self.name_)
self._document.set_author("Pineboo - kut2fpdf plugin")
return self._document
def get_file_name(self) -> Optional[str]:
"""Retrieve file name where PDF should be saved."""
import os
pdf_name = application.PROJECT.tmpdir
pdf_name += "/%s_%s.pdf" % (
self.name_, datetime.datetime.now().strftime("%Y%m%d%H%M%S"))
if os.path.exists(pdf_name):
os.remove(pdf_name)
if self._document is not None:
self._document.output(pdf_name, "F")
return pdf_name
else:
return None
def topSection(self) -> int:
"""
Retrieve top section margin for current page to calculate object positions.
@return Number with ceiling for current page.
"""
return self._page_top[int(self._document.page_no())]
def setTopSection(self, value: int) -> None:
"""
Update top section for current page.
Usually updated when processing a section.
@param value. Number specifying new ceiling.
"""
self._actual_section_size = value - self.topSection()
self._page_top[int(self._document.page_no())] = value
def newPage(self, data_level: int, add_on_header: bool = True) -> None:
"""
Add a new page to the document.
"""
self._document.add_page(self._page_orientation)
self._page_top[int(self._document.page_no())] = self._top_margin
self._document.set_margins(
self._left_margin, self._top_margin,
self._right_margin) # Lo dejo pero no se nota nada
self._no_print_footer = False
if self.design_mode:
self.draw_margins()
self._actual_section_size = 0
self._actual_append_page_no += 1
if self.design_mode:
print("Nueva página", self.number_pages())
# l_ini = data_level
# l_end = self.prev_level
# if l_ini == l_end:
# l_end = l_end + 1
# if l_ini <= l_end:
# for l in range(l_ini , l_end):
# print(l)
# self.processSection("AddOnHeader", str(l))
pg_headers = self._xml.findall("PageHeader")
for page_header in pg_headers:
if self.number_pages() == 1 or page_header.get(
"PrintFrequency") == "1":
ph_level = (page_header.get("Level")
if page_header.get("Level") is not None else None)
self.processSection("PageHeader", int(ph_level or "0"))
break
if add_on_header and not self.number_pages() == 1:
for level in range(data_level + 1):
self.processSection("AddOnHeader", int(level))
# Por ahora se omite detail header
def processDetails(self, keep_page: Optional[bool] = None) -> None:
"""
Process detail secions with their matching detailHeader and detailFooter.
"""
# Procesamos la cabecera si procede ..
top_level = 0
level = 0
first_page_created = (keep_page if keep_page is not None
and self._document.page_no() > 0 else False)
rows_array = self._xml_data.findall("Row")
i = 0
for data in rows_array:
self._actual_data_line = data
level_str: Optional[str] = data.get("level")
if level_str is None:
level_str = "0"
level = int(level_str)
if level > top_level:
top_level = level
if not first_page_created:
self.newPage(level)
first_page_created = True
if rows_array[len(rows_array) - 1] is data:
self.last_detail = True
if level < self.prev_level:
for lev in range(level + 1, self.prev_level + 1):
self.processData("DetailFooter", self.last_data_processed,
lev)
if not str(level) in self.detailn.keys():
self.detailn[str(level)] = 0
else:
self.detailn[str(level)] += 1
if level > self.prev_level:
self.processData("DetailHeader", data, level)
self.processData("Detail", data, level)
self.last_data_processed = data
self.prev_level = level
application.PROJECT.message_manager().send(
"progress_dialog_manager", "setProgress", [i, "kugar"])
i += 1
if not self._no_print_footer and hasattr(self, "last_data_processed"):
for lev in reversed(range(top_level + 1)):
self.processData("DetailFooter", self.last_data_processed, lev)
application.PROJECT.message_manager().send("progress_dialog_manager",
"destroy", ["kugar"])
def processData(self, section_name: str, data: Element,
data_level: int) -> None:
"""
Check if detailHeader + detail + detailFooter do fit in the remaining page and create a new page if not.
@param section_name. Section name to check
@param data. Data to check
@param data_level. Section level
"""
self.actual_data_level = data_level
list_sections = self._xml.findall(section_name)
# data_size = len(listDF)
for section in list_sections:
draw_if = section.get("DrawIf")
show = True
if draw_if:
show = bool(data.get(draw_if))
if section.get("Level") == str(data_level) and show not in (
"", "False", "None"):
if section_name in ("DetailHeader", "Detail"):
height_calculated = (
self._parser_tools.getHeight(section) +
self.topSection() + self.increase_section_size)
if section_name == "DetailHeader":
for detail in self._xml.findall("Detail"):
if detail.get("Level") == str(data_level):
height_calculated += self._parser_tools.getHeight(
detail)
for detail_footer in self._xml.findall("DetailFooter"):
if detail_footer.get("Level") == str(data_level):
height_calculated += self._parser_tools.getHeight(
detail_footer)
aof_size = 0
for add_footer in self._xml.findall("AddOnFooter"):
# if add_footer.get("Level") == str(data_level):
aof_size += self._parser_tools.getHeight(add_footer)
height_calculated += self._parser_tools.getHeight(
add_footer)
page_footer: Any = self._xml.get("PageFooter")
if isinstance(page_footer, Element):
if (self._document.page_no() == 1
or page_footer.get("PrintFrecuency") == "1"):
height_calculated += self._parser_tools.getHeight(
page_footer)
height_calculated += self._bottom_margin
if (height_calculated +
aof_size) > self._document.h: # Si nos pasamos
self._no_print_footer = True
# Vemos el tope por abajo
limit_bottom = self._document.h - aof_size
actual_size = self._parser_tools.getHeight(
section) + self.topSection()
if (actual_size >= limit_bottom - 2
) or self.last_detail: # +2 se usa de margen extra
self.processSection("AddOnFooter", int(data_level))
self.newPage(data_level)
self.processXML(section, data)
if section.get("NewPage") == "true" and not self.last_detail:
self.newPage(data_level, False)
break # Se ejecuta una sola instancia
def processSection(self, name: str, level: int = 0) -> None:
"""
Process non-detail sections.
@param name. Section name to process
"""
sec_list = self._xml.findall(name)
sec_ = None
for section in sec_list:
if section.get("Level") == str(
level) or section.get("Level") is None:
sec_ = section
break
if sec_ is not None:
if (sec_.get("PrintFrequency") == "1"
or self._document.page_no() == 1
or name in ("AddOnHeader", "AddOnFooter")):
self.processXML(sec_)
def processXML(self, xml: Element, data: Optional[Element] = None) -> None:
"""
Process single XML element.
@param xml: Element to process
@param. data: Line affected
"""
fix_height = True
if data is None:
data = self._actual_data_line
if self.design_mode and data is not None:
print("Procesando", xml.tag, data.get("level"))
size_updated = False
if xml.tag == "DetailFooter":
if xml.get("PlaceAtBottom") == "true":
height = self._parser_tools.getHeight(xml)
self.setTopSection(self._document.h - height -
self.increase_section_size)
size_updated = True
if xml.tag == "PageFooter":
fix_height = False
if not size_updated:
self.fix_extra_size(
) # Sirve para actualizar la altura con lineas que se han partido porque son muy largas
for label in xml.iter("Label"):
self.processText(label, data, fix_height)
for field in xml.iter("Field"):
self.processText(field, data, fix_height)
for special in xml.iter("Special"):
self.processText(special, data, fix_height, xml.tag)
for calculated in xml.iter("CalculatedField"):
self.processText(calculated, data, fix_height, xml.tag)
# Busco draw_at_header en DetailFooter y los meto también
if xml.tag == "DetailHeader":
detail_level = xml.get("Level")
if detail_level is None:
raise Exception("Level tag not found")
for detail_footer in self._xml.iter("DetailFooter"):
if detail_footer.get("Level") == detail_level:
for calculated_filed in detail_footer.iter(
"CalculatedField"):
if calculated_filed.get("DrawAtHeader") == "true":
header_name = "%s_header_%s_%s" % (
self.detailn[detail_level],
detail_level,
calculated_filed.get("Field"),
)
self.draws_at_header[header_name] = ""
self.processText(calculated_filed, data,
fix_height, xml.tag)
for line in xml.iter("Line"):
self.processLine(line, fix_height)
if not size_updated:
self.setTopSection(self.topSection() +
self._parser_tools.getHeight(xml))
def fix_extra_size(self) -> None:
"""Increase size of the section if needed."""
if self.increase_section_size > 0:
self.setTopSection(self.topSection() + self.increase_section_size)
self.increase_section_size = 0
def processLine(self, xml: Element, fix_height: bool = True) -> None:
"""
Process single line.
@param xml. Sección de xml a procesar.
@param fix_height. Ajusta la altura a los .kut originales, excepto el pageFooter.
"""
color = xml.get("Color")
red = 0 if not color else int(color.split(",")[0])
green = 0 if not color else int(color.split(",")[1])
blue = 0 if not color else int(color.split(",")[2])
style = int(xml.get("Style") or "0")
width = int(xml.get("Width") or "0")
pos_x1 = self.calculateLeftStart(xml.get("X1") or "0")
pos_x1 = self.calculateWidth(pos_x1, 0, False)
pos_x2 = self.calculateLeftStart(xml.get("X2") or "0")
pos_x2 = self.calculateWidth(pos_x2, 0, False)
# Ajustar altura a secciones ya creadas
pos_y1 = int(xml.get("Y1") or "0") + self.topSection()
pos_y2 = int(xml.get("Y2") or "0") + self.topSection()
if fix_height:
pos_y1 = self._parser_tools.ratio_correction_h(pos_y1)
pos_y2 = self._parser_tools.ratio_correction_h(pos_y2)
self._document.set_line_width(
self._parser_tools.ratio_correction_h(width))
self._document.set_draw_color(red, green, blue)
dash_length = 1
space_length = 1
if style == 2:
dash_length = 20
space_length = 20
elif style == 3:
dash_length = 10
space_length = 10
self._document.dashed_line(pos_x1, pos_y1, pos_x2, pos_y2, dash_length,
space_length)
# else:
# self._document.line(X1, Y1, X2, Y2)
def calculateLeftStart(self, position: Union[str, int, float]) -> int:
"""
Check if left margin is exceeded for current page.
@param position. Position to check.
@return Revised position.
"""
return self._parser_tools.ratio_correction_w(
int(position)) + self._left_margin
def calculateWidth(self,
width: int,
pos_x: int,
fix_ratio: bool = True) -> int:
"""
Check if right margin is exceeded for current page.
@param x. Position to check.
@return Revised position.
"""
limit = self._document.w - self._right_margin
ret_: int
if fix_ratio:
width = self._parser_tools.ratio_correction_w(width)
pos_x = self._parser_tools.ratio_correction_w(pos_x)
ret_ = width
if pos_x + width > limit:
ret_ = limit - pos_x
else:
ret_ = width
return ret_
def processText(
self,
xml: Element,
data_row: Optional[Element] = None,
fix_height: bool = True,
section_name: Optional[str] = None,
) -> None:
"""
Check tag (calculated, label, special or image).
@param xml. XML section to process.
@param fix_height. Revise height from original .kut file except pageFooter.
"""
is_image = False
is_barcode = False
text: str = xml.get("Text") or ""
# borderColor = xml.get("BorderColor")
field_name = xml.get("Field") or ""
# x,y,W,H se calcula y corrigen aquí para luego estar correctos en los diferentes destinos posibles
width = int(xml.get("Width") or "0")
height = self._parser_tools.getHeight(xml)
pos_x = int(xml.get("X") or "0")
pos_y = (int(xml.get("Y") or "0") + self.topSection()
) # Añade la altura que hay ocupada por otras secciones
if fix_height:
pos_y = self._parser_tools.ratio_correction_h(
pos_y) # Corrige la posición con respecto al kut original
data_type = xml.get("DataType")
if xml.tag == "Field" and data_row is not None:
text = data_row.get(field_name) or ""
elif xml.tag == "Special":
if text == "":
if xml.get("Type") == "1":
text = "PageNo"
text = self._parser_tools.getSpecial(text,
self._actual_append_page_no)
calculation_type = xml.get("CalculationType")
if calculation_type is not None and xml.tag != "Field":
if calculation_type == "6":
function_name = xml.get("FunctionName")
if function_name and data_row is not None:
try:
nodo = self._parser_tools.convertToNode(data_row)
ret_ = application.PROJECT.call(
function_name, [nodo, field_name], None, False)
if ret_ is False:
return
else:
text = str(ret_)
except Exception:
LOGGER.exception(
"KUT2FPDF:: Error llamando a function %s",
function_name)
return
else:
return
elif calculation_type == "1":
text = self._parser_tools.calculate_sum(
field_name, self.last_data_processed, self._xml_data,
self.actual_data_level)
elif calculation_type in ("5"):
if data_row is None:
data_row = self._xml_data[0]
text = data_row.get(field_name) or ""
if data_type is not None:
text = self._parser_tools.calculated(text, int(data_type),
xml.get("Precision"),
data_row)
if data_type == "5":
is_image = True
elif data_type == "6":
is_barcode = True
if xml.get("BlankZero") == "1" and text is not None:
res_ = re.findall(r"\d+", text)
if res_ == ["0"]:
return
if text is not None:
from pineboolib.core.settings import config
temporal = config.value("ebcomportamiento/temp_dir")
if text.startswith(temporal):
is_image = True
# negValueColor = xml.get("NegValueColor")
# Currency = xml.get("Currency")
#
# commaSeparator = xml.get("CommaSeparator")
# dateFormat = xml.get("DateFormat")
if is_image:
self.draw_image(pos_x, pos_y, width, height, xml, text)
elif is_barcode:
self.draw_barcode(pos_x, pos_y, width, height, xml, text)
elif data_row is not None:
level = data_row.get("level") or "0"
if level and str(level) in self.detailn.keys():
val = "%s_header_%s_%s" % (self.detailn[str(level)], level,
field_name)
if xml.get("DrawAtHeader") == "true" and level:
if section_name == "DetailHeader":
val = ""
self.drawText(pos_x, pos_y, width, height, xml, val)
# print(level, section_name, val, text)
if section_name == "DetailFooter" and xml.get(
"DrawAtHeader") == "true":
self.draws_at_header[val] = text
# print("Añadiendo a", val, text, level)
else:
self.drawText(pos_x, pos_y, width, height, xml, text)
def drawText(self, pos_x: int, pos_y: int, width: int, height: int,
xml: Element, txt: str) -> None:
"""
Draw a text field onto the page.
@param pos_x. Label X Pos.
@param pos_y. Label Y Pos.
@param width. Label Width.
@param height. Label Height.
@param xml. Related XML Section
@param txt. Computed text of the label to be created.
"""
if txt in ("None", None):
# return
txt = ""
if width == 0 and height == 0:
return
txt = self._parser_tools.restore_text(txt)
resizeable = False
if xml.get("ChangeHeight") == "1":
resizeable = True
# height_resized = False
orig_x = pos_x
orig_y = pos_y
orig_w = width
orig_h = height
# Corregimos margenes:
pos_x = self.calculateLeftStart(pos_x)
width = self.calculateWidth(width, pos_x)
# bg_color = xml.get("BackgroundColor").split(",")
fg_color = self.get_color(xml.get("ForegroundColor") or "")
self._document.set_text_color(fg_color[0], fg_color[1], fg_color[2])
# self._document.set_draw_color(255, 255, 255)
# if xml.get("BorderStyle") == "1":
# FIXME: Hay que ajustar los margenes
# font_name, font_size, font_style
font_style = ""
font_size = int(xml.get("FontSize") or "0")
font_name_orig = ((xml.get("FontFamily") or "").lower() if
xml.get("FontFamily") is not None else "helvetica")
font_name = font_name_orig
font_w = int(xml.get("FontWeight") or "50")
if font_w == 50: # Normal
font_w = 100
elif font_w >= 65:
font_style += "B"
font_w = 100
font_italic = xml.get("FontItalic")
font_underlined = xml.get(
"FontUnderlined") # FIXME: hay que ver si es así
# background_color = self.get_color(xml.get("BackgroundColor"))
# if background_color != [255,255,255]: #Los textos que llevan fondo no blanco van en negrita
# font_style += "B"
if font_italic == "1":
font_style += "I"
if font_underlined == "1":
font_style += "U"
font_name = font_name.replace(" narrow", "")
font_full_name = "%s%s" % (font_name, font_style)
if font_full_name not in self._avalible_fonts:
font_found: Optional[str] = None
if font_full_name not in self._unavalible_fonts:
font_found = self._parser_tools.find_font(
font_full_name, font_style)
if font_found:
if self.design_mode:
LOGGER.warning(
"KUT2FPDF::Añadiendo el tipo de letra %s %s (%s)",
font_name,
font_style,
font_found,
)
self._document.add_font(font_name, font_style, font_found,
True)
self._avalible_fonts.append(font_full_name)
else:
if font_full_name not in self._unavalible_fonts:
if self.design_mode:
LOGGER.warning(
"KUT2FPDF:: No se encuentra el tipo de letra %s. Sustituido por helvetica%s."
% (font_full_name, font_style))
self._unavalible_fonts.append(font_full_name)
font_name = "helvetica"
if font_name is not font_name_orig and font_name_orig.lower().find(
"narrow") > -1:
font_w = 85
self._document.set_font(font_name, font_style, font_size)
self._document.set_stretching(font_w)
# Corregir alineación
vertical_alignment = xml.get(
"VAlignment") # 0 izquierda, 1 centrado,2 derecha
horizontal_alignment = xml.get("HAlignment")
# layout_direction = xml.get("layoutDirection")
start_section_size = self._actual_section_size
result_section_size = 0
# Miramos si el texto sobrepasa el ancho
array_text: List[str] = []
array_n = []
text_lines = []
if txt.find("\n") > -1:
for line_text in txt.split("\n"):
array_n.append(line_text)
if array_n: # Hay saltos de lineas ...
for n in array_n:
text_lines.append(n)
else: # No hay saltos de lineas
text_lines.append(txt)
for text_line in text_lines:
if len(text_line) > 1:
if text_line[0] == " " and text_line[1] != " ":
text_line = text_line[1:]
str_width = self._document.get_string_width(text_line)
if (
str_width > width - 10 and xml.tag != "Label"
and resizeable
): # Una linea es mas larga que el ancho del campo(Le quito 10 al ancho maximo para que corte parecido a kugar original)
# height_resized = True
array_text = self.split_text(text_line, width - 10)
else:
array_text.append(text_line)
# calculated_h = orig_h * len(array_text)
self.drawRect(orig_x, orig_y, orig_w, orig_h, xml)
processed_lines = 0
extra_size = 0
for actual_text in array_text:
processed_lines += 1
if processed_lines > 1:
extra_size += font_size + 2
if horizontal_alignment == "1": # sobre X
# Centrado
pos_x = pos_x + (width / 2) - (
self._document.get_string_width(actual_text) / 2)
# x = x + (width / 2) - (str_width if not height_resized else width / 2)
elif horizontal_alignment == "2":
# Derecha
pos_x = (pos_x + width -
self._document.get_string_width(actual_text) - 2
) # -2 de margen
# x = x + width - str_width if not height_resized else width
else:
# Izquierda
if processed_lines == 1:
pos_x = pos_x + 2
if vertical_alignment == "1": # sobre Y
# Centrado
# y = (y + ((H / 2) / processed_lines)) + (((self._document.font_size_pt / 2) / 2) * processed_lines)
pos_y = int((orig_y + (orig_h / 2)) +
((self._document.font_size_pt / 2) / 2))
if len(array_text) > 1:
pos_y = pos_y - (font_size // 2)
elif vertical_alignment == "2":
# Abajo
pos_y = orig_y + orig_h - font_size
else:
# Arriba
pos_y = orig_y + font_size
pos_y = pos_y + extra_size
if self.design_mode:
self.write_debug(
self.calculateLeftStart(orig_x),
pos_y,
"Hal:%s, Val:%s, T:%s st:%s" %
(horizontal_alignment, vertical_alignment, txt, font_w),
6,
"green",
)
if xml.tag == "CalculatedField":
self.write_debug(
self.calculateLeftStart(orig_x),
pos_y,
"CalculatedField:%s, Field:%s" %
(xml.get("FunctionName"), xml.get("Field")),
3,
"blue",
)
self._document.text(pos_x, pos_y, actual_text)
result_section_size += start_section_size
result_section_size = result_section_size - start_section_size
if (self.increase_section_size < extra_size
): # Si algun incremento extra hay superior se respeta
self.increase_section_size = extra_size
def split_text(self, texto: str, limit_w: int) -> List[str]:
"""Split text into lines based on visual width."""
list_ = []
linea_: Optional[str] = None
for parte in texto.split(" "):
if linea_ is None and parte == "":
continue
if linea_ is not None:
if self._document.get_string_width(linea_ + parte) > limit_w:
list_.append(linea_)
linea_ = ""
else:
linea_ = ""
linea_ += "%s " % parte
if linea_ is not None:
list_.append(linea_)
return list_
def get_color(self, value: str) -> List[int]:
"""Convert color text into [r,g,b] array."""
lvalue = value.split(",")
red: int
green: int
blue: int
if len(lvalue) == 3:
red = int(lvalue[0])
green = int(lvalue[1])
blue = int(lvalue[2])
else:
red = int(value[0:2])
green = int(value[3:5])
blue = int(value[6:8])
return [red, green, blue]
def drawRect(self,
pos_x: int,
pos_y: int,
width: int,
height: int,
xml: Element = None) -> None:
"""
Draw a rectangle in current page.
@param pos_x. left side
@param pos_y. top side
@param width. width
@param height. heigth
"""
style_ = ""
border_color = None
bg_color = None
line_width = self._document.line_width
border_width = 0.2
# Calculamos borde y restamos del ancho
orig_x = pos_x
orig_y = pos_y
orig_w = width
pos_x = self.calculateLeftStart(orig_x)
width = self.calculateWidth(width, pos_x)
if xml is not None and not self.design_mode:
if xml.get("BorderStyle") == "1":
border_color = self.get_color(xml.get("BorderColor") or "")
self._document.set_draw_color(border_color[0], border_color[1],
border_color[2])
style_ += "D"
bg_color = self.get_color(xml.get("BackgroundColor") or "")
self._document.set_fill_color(bg_color[0], bg_color[1],
bg_color[2])
style_ = "F" + style_
border_width = int(
xml.get("BorderWidth") or "0" if xml.get("BorderWidth"
) else 0.2)
else:
self.write_cords_debug(pos_x, pos_y, width, height, orig_x, orig_w)
style_ = "D"
self._document.set_draw_color(0, 0, 0)
if style_ != "":
self._document.set_line_width(border_width)
self._document.rect(pos_x, pos_y, width, height, style_)
self._document.set_line_width(line_width)
self._document.set_xy(orig_x, orig_y)
# self._document.set_draw_color(255, 255, 255)
# self._document.set_fill_color(0, 0, 0)
def write_cords_debug(
self,
pos_x: Union[float, int],
pos_y: Union[float, int],
width: Union[float, int],
height: Union[float, int],
orig_x: Union[float, int],
orig_w: Union[float, int],
) -> None:
"""Debug for Kut coordinated."""
self.write_debug(
int(pos_x),
int(pos_y),
"X:%s Y:%s W:%s H:%s orig_x:%s, orig_W:%s" % (
round(pos_x, 2),
round(pos_y, 2),
round(width, 2),
round(height, 2),
round(orig_x, 2),
round(orig_w, 2),
),
2,
"red",
)
def write_debug(self,
pos_x: int,
pos_y: int,
text: str,
height: int,
color: Optional[str] = None) -> None:
"""Write debug data into the report."""
orig_color = self._document.text_color
red = 0
green = 0
blue = 0
current_font_family = self._document.font_family
current_font_size = self._document.font_size_pt
current_font_style = self._document.font_style
if color == "red":
red = 255
elif color == "green":
green = 255
elif color == "blue":
blue = 255
self._document.set_text_color(red, green, blue)
self._document.set_font_size(4)
self._document.text(pos_x, pos_y + height, text)
self._document.text_color = orig_color
# self._document.set_xy(orig_x, orig_y)
self._document.set_font(current_font_family, current_font_style,
current_font_size)
def draw_image(self, pos_x: int, pos_y: int, width: int, height: int,
xml: Element, file_name: str) -> None:
"""
Draw image onto current page.
@param pos_x. left position
@param pos_y. top position
@param width. width
@param height. heigth
@param xml. Related XML section
@param file_name. filename of temp data to use
"""
import os
if not file_name.lower().endswith(".png"):
file_name_ = self._parser_tools.parseKey(file_name)
if file_name_ is None:
return
file_name = file_name_
if os.path.exists(file_name):
pos_x = self.calculateLeftStart(pos_x)
width = self.calculateWidth(width, pos_x)
self._document.image(file_name, pos_x, pos_y, width, height, "PNG")
def draw_barcode(self, pos_x: int, pos_y: int, width: int, height: int,
xml: Element, text: str) -> None:
"""
Draw barcode onto currrent page.
"""
if text == "None":
return
from pineboolib.fllegacy import flcodbar
file_name = application.PROJECT.tmpdir
file_name += "/%s.png" % (text)
codbartype = xml.get("CodBarType")
if not os.path.exists(file_name):
bar_code = flcodbar.FLCodBar(text) # Code128
if codbartype is not None:
type: int = bar_code.nameToType(codbartype.lower())
bar_code.setType(type)
bar_code.setText(text)
pix = bar_code.pixmap()
if not pix.isNull():
pix.save(file_name, "PNG")
self.draw_image(pos_x + 10, pos_y, width - 20, height, xml, file_name)
def setPageFormat(self, xml: Element) -> None:
"""
Define page parameters.
@param xml: XML with KUT data
"""
custom_size = None
self._bottom_margin = int(xml.get("BottomMargin") or "0")
self._left_margin = int(xml.get("LeftMargin") or "0")
self._right_margin = int(xml.get("RightMargin") or "0")
self._top_margin = int(xml.get("TopMargin") or "0")
page_size = int(xml.get("PageSize") or "0")
page_orientation = xml.get("PageOrientation") or "0"
if page_size in [30, 31]:
custom_size = [
int(xml.get("CustomHeightMM") or "0"),
int(xml.get("CustomWidthMM") or "0"),
]
self._page_orientation = "P" if page_orientation == "0" else "L"
self._page_size = self._parser_tools.convertPageSize(
page_size, int(page_orientation), custom_size) # devuelve un array
def draw_margins(self) -> None:
"""Draw margins on the report."""
self.draw_debug_line(0 + self._left_margin, 0, 0 + self._left_margin,
self._page_size[1]) # Vertical derecha
self.draw_debug_line(
self._page_size[0] - self._right_margin,
0,
self._page_size[0] - self._right_margin,
self._page_size[1],
) # Vertical izquierda
self.draw_debug_line(0, 0 + self._top_margin, self._page_size[0],
0 + self._top_margin) # Horizontal superior
self.draw_debug_line(
0,
self._page_size[1] - self._bottom_margin,
self._page_size[0],
self._page_size[1] - self._bottom_margin,
) # Horizontal inferior
def draw_debug_line(
self,
pos_x1: int,
pos_y1: int,
pos_x2: int,
pos_y2: int,
title: Optional[str] = None,
color: str = "GREY",
) -> None:
"""Draw a debug line on the report."""
dash_length = 2
space_length = 2
red = 0
green = 0
blue = 0
if color == "GREY":
red = 220
green = 220
blue = 220
self._document.set_line_width(1)
self._document.set_draw_color(red, green, blue)
self._document.dashed_line(pos_x1, pos_y1, pos_x2, pos_y1, dash_length,
space_length)
def number_pages(self) -> int:
"""Get number of pages on the report."""
return self._actual_append_page_no if self._actual_append_page_no > 0 else 0
def reset_page_no(self) -> None:
"""Reset page number."""
self._actual_append_page_no = -1
pdwg.line(xtop, ytop + (outer_radius - args.hub_diameter / 2) * args.scale,
xtop - args.hub_height * args.scale,
ytop + (outer_radius - args.hub_diameter / 2) * args.scale)
pdwg.line(xtop - args.hub_height * args.scale,
ytop + (outer_radius - args.hub_diameter / 2) * args.scale,
xtop - args.hub_height * args.scale,
ytop + (outer_radius + args.hub_diameter / 2) * args.scale)
pdwg.line(xtop - args.hub_height * args.scale,
ytop + (outer_radius + args.hub_diameter / 2) * args.scale, xtop,
ytop + (outer_radius + args.hub_diameter / 2) * args.scale)
# Dashed line for hole
pdwg.dashed_line(
xtop - args.hub_height * args.scale,
ytop + (outer_radius + args.hole_diameter / 2) * args.scale,
xtop + args.face_width * args.scale,
ytop + (outer_radius + args.hole_diameter / 2) * args.scale,
dash_length=3,
space_length=1)
pdwg.dashed_line(
xtop - args.hub_height * args.scale,
ytop + (outer_radius - args.hole_diameter / 2) * args.scale,
xtop + args.face_width * args.scale,
ytop + (outer_radius - args.hole_diameter / 2) * args.scale,
dash_length=3,
space_length=1)
# Centerline for gear
centerline_specs = [100, 70, 60, 70]
steps = 1000
xstart = xtop - args.hub_height * args.scale - 4
def gen_pdf_pages(mol_keys, results):
sort_pages = [
mol_keys[i * 3:(i + 1) * 3]
for i in range((len(mol_keys) + 3 - 1) // 3)
]
counter = 1
pages = []
for page in sort_pages:
pdf = FPDF()
pdf.add_font("DejaVu", "", ttf_path, uni=True)
pdf.add_page()
img_place_y = 10
txt_place_y = 15
num_place_y = 98
for mol_n in page:
pdf.set_font("DejaVu", "", 10)
pdf.image(f"{mol_n}.png", 10, img_place_y, 90)
os.remove(f"{mol_n}.png")
pdf.rect(10, img_place_y, 190, 90)
pdf.dashed_line(100, img_place_y, 100, img_place_y + 90)
pdf.text(12, num_place_y, str(counter))
counter += 1
img_place_y += 94
num_place_y += 94
txt_space_y = 0
line_counter = 0
props_list = list(results[mol_n]["props"].items())
for tag in props_list:
entry_length = len(str(tag[0])) + len(str(tag[1])) + 2
if entry_length <= 45:
line_counter += 1
else:
line_counter += 2
if line_counter <= 17:
size = 10
write_props(pdf, props_list, txt_place_y, txt_space_y, size)
elif 17 < line_counter <= 19:
size = 9
write_props(pdf, props_list, txt_place_y, txt_space_y, size)
elif 19 < line_counter <= 21:
size = 8
write_props(pdf, props_list, txt_place_y, txt_space_y, size)
elif 21 < line_counter <= 23:
size = 7
write_props(pdf, props_list, txt_place_y, txt_space_y, size)
elif 23 < line_counter <= 25:
size = 6
write_props(pdf, props_list, txt_place_y, txt_space_y, size)
elif 25 < line_counter <= 27:
size = 5
write_props(pdf, props_list, txt_place_y, txt_space_y, size)
else:
size = 5
write_props_list = props_list[:27]
write_props(pdf, write_props_list, txt_place_y, txt_space_y,
size)
txt_place_y += 94
out = f"{counter}.pdf"
pdf.output(out)
pages.append(f"{counter}.pdf")
return pages
tfont(pdf,'B')
bcol_set(pdf , 'blue')
pdf.cell(w = 0, h = 15, txt = 'Reporte', border = 1, ln=2,
align = 'C', fill = 1)
tfont(pdf,'')
bcol_set(pdf , 'rose')
pdf.cell(w = 0, h = 15, txt = 'Reporte', border = 1, ln=2,
align = 'C', fill = 1)
# TRAZOS
dcol_set(pdf , 'green')
tcol_set(pdf , 'blue')
'''
F : fill (relleno)
D : draw (trazos, bordes y dibujado)
'''
pdf.rect(x=60, y=200, w=100, h=80, style='DF')
pdf.dashed_line(50, 150, 190, 200, dash_length = 10, space_length = 6)
pdf.text(x=150, y=150, txt='Hola mundo')
pdf.output('hoja.pdf')
"Tests new dashed line feature (issue 35)"
from fpdf import FPDF
import os
pdf = FPDF()
pdf.add_page()
pdf.dashed_line(10, 10, 110, 10)
pdf.dashed_line(10, 20, 110, 20, 5, 5)
pdf.dashed_line(10, 30, 110, 30, 1, 10)
fn = 'dashed_line_issue35.pdf'
pdf.output(fn, 'F')
try:
os.startfile(fn)
except:
os.system("xdg-open \"%s\"" % fn)
def create_invoice(o_id,file_no):
cur.execute('SELECT * FROM `user orders` WHERE `order id` = %s',(o_id,))
for k in cur:
order_id = 'Order id - ' + str(k[0])
name = 'Customer Name - ' + k[2]
number = 'Customer Number - ' + k[3]
address = 'Customer Address - ' + k[4]
rest = 'Restaurant Name - ' + k[5]
rest_address = 'Restaurant Address - ' + k[-3]
rest_number = 'Restaurant Number - ' + k[-2]
ord_time = 'Order Time - ' + str(k[-1])
item = k[6].split(',')
item.pop()
quantity = k[7].split(',')
quantity.pop()
price = k[8].split(',')
price.pop()
date = 'Order Date - ' + str(k[9])
total_quantity = 0
total_price = 0
for i in range(len(item)):
total_quantity += int(quantity[i])
total_price += int(price[i]) * int(quantity[i])
pdf = FPDF()
pdf.add_page()
pdf.set_font('Arial', size = 14)
pdf.cell(200,10, txt = 'Python Project', ln = 1, align = 'C')
pdf.cell(200,5, txt = 'Food Ordering Program', ln = 1, align = 'C')
pdf.dashed_line(34, 27, 185, 27, dash_length = 1)
pdf.cell(200,12, txt = 'Invoice', ln = 1, align = 'C')
pdf.dashed_line(34, 35, 185, 35, dash_length = 1)
pdf.set_left_margin(33)
pdf.cell(200,8, txt = order_id, ln = 1, align = 'L')
pdf.cell(200,7, txt = date, ln = 1, align = 'L')
pdf.cell(200,7, txt = ord_time, ln = 1, align = 'L')
pdf.cell(200,7, txt = rest, ln = 1, align = 'L')
pdf.cell(200,7, txt = rest_number, ln = 1, align = 'L')
pdf.cell(200,7, txt = rest_address, ln = 1, align = 'L')
pdf.cell(200,7, txt = name, ln = 1, align = 'L')
pdf.cell(200,7, txt = number, ln = 1, align = 'L')
pdf.cell(200,7, txt = address, ln = 1, align = 'L')
pdf.dashed_line(34, 110, 185, 110, dash_length = 1)
pdf.set_y(104)
pdf.set_x(38)
pdf.cell(200, 22, txt = 'Item', ln = 1)
pdf.set_y(104)
pdf.set_x(120)
pdf.cell(200, 22, txt = 'Quantity', ln = 1)
pdf.set_y(104)
pdf.set_x(160)
pdf.cell(200, 22, txt = 'Price', ln = 1)
pdf.dashed_line(34, 120, 185, 120, dash_length = 1)
for i in range(len(item)):
pdf.set_x(38)
y = pdf.get_y()
pdf.cell(200, 10, txt = str(item[i]), ln = 1)
pdf.set_y(y)
pdf.set_x(125)
pdf.cell(200, 10, txt = quantity[i], ln = 1)
pdf.set_y(y)
pdf.set_x(162)
pdf.cell(200, 10, txt = price[i] + '.00', ln = 1)
pdf.dashed_line(34, pdf.get_y() + 1.5, 185, pdf.get_y() + 1.5, dash_length = 1)
pdf.set_x(38)
y = pdf.get_y()
pdf.cell(200, 17, txt = 'Total', ln = 1)
pdf.set_y(y)
pdf.set_x(125)
pdf.cell(200, 17, txt = str(total_quantity), ln = 1)
pdf.set_y(y)
pdf.set_x(162)
pdf.cell(200,17, txt = str(total_price) + '.00', ln = 1)
y = pdf.get_y() - 10
pdf.set_y(y)
pdf.set_x(38)
pdf.cell(200, 17, txt = 'GST(18%)', ln = 1)
pdf.set_y(y)
pdf.set_x(125)
pdf.cell(200, 17, txt = str(total_quantity), ln = 1)
pdf.set_y(y)
pdf.set_x(162)
tax = str(total_price * (18/100))
fin_tax = ''
cnt = 0
for i in tax:
if i == '.':
fin_tax = fin_tax + tax[cnt:cnt + 3]
break
else:
fin_tax = fin_tax + i
cnt += 1
pdf.cell(200, 17, txt = fin_tax, ln = 1)
pdf.dashed_line(34, pdf.get_y() - 3, 185, pdf.get_y() - 3, dash_length = 1)
y = pdf.get_y() - 5
pdf.set_y(y)
pdf.set_x(38)
pdf.cell(200, 17, txt = 'Grand Total', ln = 1)
pdf.set_y(y)
pdf.set_x(125)
pdf.cell(200, 17, txt = str(total_quantity), ln = 1)
pdf.set_y(y)
pdf.set_x(162)
fin_tot_0 = str(total_price + float(fin_tax))
fin_tot = ''
cnt = 0
for i in fin_tot_0:
if i == '.':
fin_tot = fin_tot + fin_tot_0[cnt:cnt + 3]
break
else:
fin_tot = fin_tot + i
cnt += 1
pdf.cell(200,17, txt = fin_tot, ln = 1)
pdf.dashed_line(34, pdf.get_y() - 3, 185, pdf.get_y() - 3, dash_length = 1)
pdf.set_x(pdf.get_x() - 20)
pdf.cell(200,17, txt = 'Thank you for ordering', ln = 1, align = 'C')
pdf.set_y(pdf.get_y() - 8)
pdf.set_x(pdf.get_x() - 20)
pdf.cell(200,17, txt = 'We hope you have a great day!', ln = 1, align = 'C')
file_name = os.getcwd() + '/Invoice/Invoice_' + str(file_no) + '.pdf'
pdf.output(name = file_name)
return file_name
header_y = pdf.get_y()
# right
pdf.set_y(page_size['top'] - 1)
pdf.set_x(page_size['end_x'])
pdf.set_font(text_font, '', font_size['text'])
pdf.set_text_color(black)
pdf.cell(1, line_height['text'] - 0.5, data['about']['location'], ln=2, align='R')
pdf.cell(1, line_height['text'] - 0.5, data['about']['phone'], ln=2, align='R')
pdf.cell(1, line_height['text'] - 0.5, data['about']['email'], ln=2, align='R')
pdf.set_text_color(*blue)
pdf.cell(1, line_height['text'] - 0.5, data['about']['socials']['blog']['url'], ln=2, align='R', link=data['about']['socials']['blog']['url'])
pdf.cell(1, line_height['text'] - 0.5, data['about']['socials']['github']['url'], ln=2, align='R', link=data['about']['socials']['github']['url'])
pdf.set_text_color(black)
# hr
pdf.set_line_width(0.4)
pdf.dashed_line(page_size['left'] + 1, header_y, page_size['end_x'] + 1, header_y, 1, 1)
pdf.ln(2)
# about section
pdf.set_font(title_font, '', font_size['section_title'])
pdf.cell(1, line_height['section'] - 1, data['sections']['about'], ln=2)
pdf.set_font(text_font, '', font_size['text'])
col_1_count = len(data['about']['introduction']) / 2
desc_y = pdf.get_y()
for idx, desc in enumerate(data['about']['introduction']):
if idx == col_1_count:
pdf.set_y(desc_y)
if idx < col_1_count:
pdf.set_x(page_size['left'] + page_size['section_indent'])
else:
pdf.set_x(page_size['middle_x'])
pdf.ellipse(pdf.get_x(), pdf.get_y() + 1.1, ellipse['size'], ellipse['size'], 'F')
class kut2fpdf(object):
_document = None # Aquí se irán guardando los datos del documento
logger = None
_xml = None
_xml_data = None
_page_orientation = None
_page_size = None
_bottom_margin = None
_left_margin = None
_right_margin = None
_top_margin = None
_page_top = {}
_data_row = None # Apunta a la fila actual en data
_parser_tools = None
_avalible_fonts = None
_unavalible_fonts = None
design_mode = None
_actual_data_line = None
_no_print_footer = False
_actual_section_size = None
increase_section_size = None
last_detail = False
actual_data_level = None
last_data_processed = None
prev_level = None
draws_at_header = None
detailn = None
name_ = None
_actual_append_page_no = None
reset_page_count = None
def __init__(self):
self.logger = logging.getLogger("kut2fpdf")
checkDependencies({"fpdf": "pyfpdf"})
from pineboolib.plugins.kugar.parsertools import parsertools
self._parser_tools = parsertools()
self._avalible_fonts = []
self._unavalible_fonts = []
self.design_mode = FLSettings().readBoolEntry("ebcomportamiento/kugar_debug_mode")
self._actual_data_line = None
self._no_print_footer = False
self.increase_section_size = 0
self.actual_data_level = 0
self.prev_level = -1
self.draws_at_header = {}
self.detailn = {}
self.name_ = None
self._actual_append_page_no = 0
self.reset_page_count = False
self.new_page = False
"""
Convierte una cadena de texto que contiene el ".kut" en un pdf y retorna la ruta a este último.
@param name. Nombre de ".kut".
@param kut. Cadena de texto que contiene el ".kut".
@param data. Cadena de texto que contiene los datos para ser rellenados en el informe.
@return Ruta a fichero pdf.
"""
def parse(self, name, kut, data, report = None, flags = []):
try:
self._xml = self._parser_tools.loadKut(kut)
except Exception:
self.logger.exception(
"KUT2FPDF: Problema al procesar %s.kut", name)
return False
try:
self._xml_data = load2xml(data)
except Exception:
self.logger.exception("KUT2FPDF: Problema al procesar xml_data")
return False
self.name_ = name
self.setPageFormat(self._xml)
# self._page_orientation =
# self._page_size =
if report is None:
from fpdf import FPDF
self._actual_append_page_no = -1
self._document = FPDF(self._page_orientation, "pt", self._page_size)
for f in self._document.core_fonts:
self.logger.debug("KUT2FPDF :: Adding font %s", f)
self._avalible_fonts.append(f)
else:
self._document = report
# Seteamos rutas a carpetas con tipos de letra ...
# Cargamos las fuentes disponibles
next_page_break = (flags[2] == 1) if len(flags) == 3 else True
page_append = (flags[1] == 1) if len(flags) > 1 else False
page_display = (flags[0] == 1) if len(flags) > 0 else False
if page_append:
self.prev_level = -1
self.last_detail = False
page_break = False
if self.new_page:
page_break = True
self.new_page = False
if self.reset_page_count:
self.reset_page_no()
self.reset_page_count = False
if self.design_mode:
print("Append", page_append)
print("Display", page_display)
print("Page break", next_page_break)
if next_page_break:
self.reset_page_count = True
if page_display:
self.new_page = True
self.processDetails(not page_break)
#FIXME:Alguno valores no se encuentran
for p in self._document.pages.keys():
page_content = self._document.pages[p]["content"]
for h in self.draws_at_header.keys():
page_content = page_content.replace(h, str(self.draws_at_header[h]))
self._document.pages[p]["content"] = page_content
#print(self.draws_at_header.keys())
self._document.set_title(self.name_)
self._document.set_author("Pineboo - kut2fpdf plugin")
return self._document
def get_file_name(self):
import os
pdf_name = aqApp.tmp_dir()
pdf_name += "/%s_%s.pdf" % (self.name_, datetime.datetime.now().strftime("%Y%m%d%H%M%S"))
if os.path.exists(pdf_name):
os.remove(pdf_name)
if self._document is not None:
self._document.output(pdf_name, 'F')
return pdf_name
else:
return None
"""
Indica el techo para calcular la posición de los objetos de esa sección.
@return Número con el techo de la página actual.
"""
def topSection(self):
return self._page_top[str(self._document.page_no())]
"""
Actualiza el valor del techo de la página actual. Se suele actualizar al procesar una sección.
@param value. Numero que elspecifica el nuevo techo.
"""
def setTopSection(self, value):
self._actual_section_size = value - self.topSection()
self._page_top[str(self._document.page_no())] = value
"""
Añade una nueva página al documento.
"""
def newPage(self, data_level, add_on_header = True):
self._document.add_page(self._page_orientation)
self._page_top[str(self._document.page_no())] = self._top_margin
self._document.set_margins(self._left_margin, self._top_margin, self._right_margin) # Lo dejo pero no se nota nada
self._no_print_footer = False
if self.design_mode:
self.draw_margins()
self._actual_section_size = 0
self._actual_append_page_no += 1
if self.design_mode:
print("Nueva página", self.number_pages())
#l_ini = data_level
#l_end = self.prev_level
#if l_ini == l_end:
# l_end = l_end + 1
#if l_ini <= l_end:
# for l in range(l_ini , l_end):
# print(l)
# self.processSection("AddOnHeader", str(l))
pg_headers = self._xml.findall("PageHeader")
for ph in pg_headers:
if self.number_pages() == 0 or ph.get("PrintFrequency") == "1":
ph_level = ph.get("Level") if ph.get("Level") is not None else None
self.processSection("PageHeader", ph_level)
break
if add_on_header and not self.number_pages() == 0:
for l in range(data_level + 1):
self.processSection("AddOnHeader", str(l))
#Por ahora se omite detail header
"""
Procesa las secciones details con sus correspondientes detailHeader y detailFooter.
"""
def processDetails(self, keep_page = None):
# Procesamos la cabecera si procede ..
top_level = 0
level = 0
first_page_created = keep_page if keep_page is not None and self._document.page_no() > 0 else False
rows_array = self._xml_data.findall("Row")
for data in rows_array:
self._actual_data_line = data
level = int(data.get("level"))
if level > top_level:
top_level = level
if not first_page_created:
self.newPage(level)
first_page_created = True
if rows_array[len(rows_array) - 1] is data:
self.last_detail = True
if level < self.prev_level:
for l in range(level + 1, self.prev_level + 1):
self.processData("DetailFooter", self.last_data_processed, l)
if not str(level) in self.detailn.keys():
self.detailn[str(level)] = 0
else:
self.detailn[str(level)] += 1
if level > self.prev_level:
self.processData("DetailHeader", data, level)
self.processData("Detail", data, level)
self.last_data_processed = data
self.prev_level = level
if not self._no_print_footer:
for l in reversed(range(top_level + 1)):
self.processData("DetailFooter", data, l)
"""
Paso intermedio que calcula si detailHeader + detail + detailFooter entran en el resto de la ṕagina. Si no es así crea nueva página.
@param section_name. Nombre de la sección a procesar.
@param data. Linea de datos a procesar.
@param data_level. Nivel de seccion.
"""
def processData(self, section_name, data, data_level):
self.actual_data_level = data_level
listDF = self._xml.findall(section_name)
data_size = len(listDF)
for dF in listDF:
draw_if = dF.get("DrawIf")
show = True
if draw_if:
show = data.get(draw_if)
if dF.get("Level") == str(data_level) and show not in ("None", "False"):
if section_name in ("DetailHeader","Detail"):
heightCalculated = self._parser_tools.getHeight(dF) + self.topSection()
if section_name is "DetailHeader":
for detail in self._xml.findall("Detail"):
if detail.get("Level") == str(data_level):
heightCalculated += self._parser_tools.getHeight(detail)
for dFooter in self._xml.findall("DetailFooter"):
if dFooter.get("Level") == str(data_level):
heightCalculated += self._parser_tools.getHeight(dFooter)
#for addFooter in self._xml.findall("AddOnFooter"):
# if addFooter.get("Level") == str(data_level):
# heightCalculated += self._parser_tools.getHeight(addFooter)
pageFooter = self._xml.get("PageFooter")
if pageFooter:
if self._document.page_no() == 1 or pageFooter.get("PrintFrecuency") == "1":
heightCalculated += self._parser_tools.getHeight(pageFooter)
heightCalculated += self._bottom_margin
if heightCalculated > self._document.h: # Si nos pasamos
self._no_print_footer = True
#Vemos el tope por abajo
limit_bottom = self._document.h - self._parser_tools.getHeight(self._xml.get("AddOnFooter"))
actual_size = self._parser_tools.getHeight(dF) + self.topSection()
if (actual_size > limit_bottom + 2) or self.last_detail: # +2 se usa de margen extra
self.processSection("AddOnFooter", str(data_level))
self.newPage(data_level)
self.processXML(dF, data)
if dF.get("NewPage") == "true" and not self.last_detail:
self.newPage(data_level, False)
break #Se ejecuta una sola instancia
"""
Procesa las secciones fuera de detail
@param name. Nombre de la sección a procesar.
"""
def processSection(self, name, level=0):
sec_list = self._xml.findall(name)
sec_ = None
for s in sec_list:
if s.get("Level") == str(level) or s.get("Level") is None:
sec_ = s
if sec_ is not None:
if sec_.get("PrintFrequency") == "1" or self._document.page_no() == 1 or name in ("AddOnHeader","AddOnFooter"):
self.processXML(sec_)
"""
Procesa un elemento de xml.
@param xml: El elemento a procesar.
@param. data: Linea de datos afectada.
"""
def processXML(self, xml, data=None):
fix_height = True
if data is None:
data = self._actual_data_line
if self.design_mode:
print("Procesando", xml.tag, data.get("level"))
size_updated = False
if xml.tag == "DetailFooter":
if xml.get("PlaceAtBottom") == "true":
self.setTopSection(self._document.h - self._parser_tools.getHeight(xml))
size_updated = True
if xml.tag == "PageFooter":
fix_height = False
self.fix_extra_size() #Sirve para actualizar la altura con lineas que se han partido porque son muy largas
for label in xml.iter("Label"):
self.processText(label, data, fix_height)
for field in xml.iter("Field"):
self.processText(field, data, fix_height)
for special in xml.iter("Special"):
self.processText(special, data, fix_height, xml.tag)
for calculated in xml.iter("CalculatedField"):
self.processText(calculated, data, fix_height, xml.tag)
#Busco draw_at_header en DetailFooter y los meto también
if xml.tag == "DetailHeader":
detail_level = xml.get("Level")
for df in self._xml.iter("DetailFooter"):
if df.get("Level") == detail_level:
for cf in df.iter("CalculatedField"):
if cf.get("DrawAtHeader") == "true":
header_name = "%s_header_%s_%s" % (self.detailn[detail_level], detail_level, cf.get("Field"))
self.draws_at_header[header_name] = ""
self.processText(cf, data, fix_height, xml.tag)
for line in xml.iter("Line"):
self.processLine(line, fix_height)
if not size_updated:
self.setTopSection(self.topSection() + self._parser_tools.getHeight(xml))
def fix_extra_size(self):
if self.increase_section_size > 0:
self.setTopSection(self.topSection() + self.increase_section_size)
self.increase_section_size = 0
"""
Procesa una linea.
@param xml. Sección de xml a procesar.
@param fix_height. Ajusta la altura a los .kut originales, excepto el pageFooter.
"""
def processLine(self, xml, fix_height=True):
color = xml.get("Color")
r = 0 if not color else int(color.split(",")[0])
g = 0 if not color else int(color.split(",")[1])
b = 0 if not color else int(color.split(",")[2])
style = int(xml.get("Style"))
width = int(xml.get("Width"))
X1 = self.calculateLeftStart(xml.get("X1"))
X1 = self.calculateWidth(X1, 0, False)
X2 = self.calculateLeftStart(xml.get("X2"))
X2 = self.calculateWidth(X2, 0, False)
# Ajustar altura a secciones ya creadas
Y1 = int(xml.get("Y1")) + self.topSection()
Y2 = int(xml.get("Y2")) + self.topSection()
if fix_height:
Y1 = self._parser_tools.ratio_correction(Y1)
Y2 = self._parser_tools.ratio_correction(Y2)
self._document.set_line_width(width)
self._document.set_draw_color(r, g, b)
dash_length = 1
space_length = 1
if style == 2:
dash_length = 20
space_length = 20
elif style == 3:
dash_length = 10
space_length = 10
self._document.dashed_line(X1, Y1, X2, Y2, dash_length, space_length)
#else:
# self._document.line(X1, Y1, X2, Y2)
"""
Comprueba si excedemos el margen izquierdo de la página actual
@param x. Posición a comprobar.
@return Valor corregido, si procede.
"""
def calculateLeftStart(self, x):
return self._parser_tools.ratio_correction(int(x)) + self._left_margin
"""
Comprueba si excedemos el margen derecho de la página actual
@param x. Posición a comprobar.
@return Valor corregido, si procede.
"""
def calculateWidth(self, width, pos_x, fix_ratio = True):
width = int(width)
if fix_ratio:
width = self._parser_tools.ratio_correction(int(width))
ret_ = width
limit = self._document.w - self._right_margin
if pos_x + width > limit:
ret_ = limit - pos_x
return ret_
"""
Procesa una etiqueta. Esta puede ser un campo calculado, una etiqueta, un campo especial o una imagen.
@param xml. Sección de xml a procesar.
@param fix_height. Ajusta la altura a los .kut originales, excepto el pageFooter.
"""
def processText(self, xml, data_row=None, fix_height=True, section_name = None):
is_image = False
is_barcode = False
text = xml.get("Text")
borderColor = xml.get("BorderColor")
field_name = xml.get("Field")
# x,y,W,H se calcula y corrigen aquí para luego estar correctos en los diferentes destinos posibles
W = int(xml.get("Width"))
H = self._parser_tools.getHeight(xml)
x = int(xml.get("X"))
y = int(xml.get("Y")) + self.topSection() # Añade la altura que hay ocupada por otras secciones
if fix_height:
y = self._parser_tools.ratio_correction(y) # Corrige la posición con respecto al kut original
data_type = xml.get("DataType")
if xml.tag == "Field" and data_row is not None:
text = data_row.get(field_name)
elif xml.tag == "Special":
if text == "":
if xml.get("Type") == "1":
text = "PageNo"
text = self._parser_tools.getSpecial( text, self._actual_append_page_no)
calculation_type = xml.get("CalculationType")
if calculation_type is not None and xml.tag != "Field":
if calculation_type == "6":
function_name = xml.get("FunctionName")
try:
nodo = self._parser_tools.convertToNode(data_row)
from pineboolib.pncontrolsfactory import aqApp
ret_ = aqApp.call(function_name, [nodo, field_name])
if ret_ is False:
return
else:
text = str(ret_)
except Exception:
self.logger.exception(
"KUT2FPDF:: Error llamando a function %s", function_name)
return
elif calculation_type == "1":
text = self._parser_tools.calculate_sum(field_name, self.last_data_processed, self._xml_data, self.actual_data_level)
elif calculation_type in ("5"):
if data_row is None:
data_row = self._xml_data[0]
text = data_row.get(field_name)
if data_type is not None:
text = self._parser_tools.calculated(text, int(data_type), xml.get("Precision"), data_row)
if data_type == "5":
is_image = True
elif data_type == "6":
is_barcode = True
if xml.get("BlankZero") == "1" and text is not None:
res_ = re.findall(r'\d+', text)
res_ = "".join(res_)
if int(res_) == 0:
return
if text is not None and text.startswith(filedir("../tempdata")):
is_image = True
negValueColor = xml.get("NegValueColor")
Currency = xml.get("Currency")
commaSeparator = xml.get("CommaSeparator")
dateFormat = xml.get("DateFormat")
if is_image:
self.draw_image(x, y, W, H, xml, text)
elif is_barcode:
self.draw_barcode(x, y, W, H, xml, text)
else:
level = data_row.get("level")
if level and str(level) in self.detailn.keys():
val = "%s_header_%s_%s" % ( self.detailn[str(level)], level,field_name)
if xml.get("DrawAtHeader") == "true" and level:
if section_name == "DetailHeader":
val = ""
self.drawText(x, y, W, H, xml, val)
print(level, section_name, val, text)
if section_name == "DetailFooter" and xml.get("DrawAtHeader") == "true":
self.draws_at_header[val] = text
print("Añadiendo a", val, text, level)
else:
self.drawText(x, y, W, H, xml, text)
"""
Dibuja un campo texto en la página.
@param x. Pos x de la etiqueta.
@param y. Pos y de la etiqueta.
@param W. Anchura de la etiqueta.
@param H. Altura de la etiqueta.
@param xml. Sección del xml afectada.
@param txt. Texto calculado de la etiqueta a crear.
"""
def drawText(self, x, y, W, H, xml, txt):
if txt in ("None", None):
return
txt = self._parser_tools.restore_text(txt)
resizeable = False
if xml.get("ChangeHeight") == "1":
resizeable = True
height_resized = False
orig_x = x
orig_y = y
orig_W = W
orig_H = H
# Corregimos margenes:
x = self.calculateLeftStart(x)
W = self.calculateWidth(W, x)
#bg_color = xml.get("BackgroundColor").split(",")
fg_color = self.get_color(xml.get("ForegroundColor"))
self._document.set_text_color(fg_color[0], fg_color[1], fg_color[2])
#self._document.set_draw_color(255, 255, 255)
#if xml.get("BorderStyle") == "1":
# FIXME: Hay que ajustar los margenes
#font_name, font_size, font_style
font_style = ""
font_size = int(xml.get("FontSize"))
font_name_orig = xml.get("FontFamily").lower() if xml.get("FontFamily") is not None else "helvetica"
font_name = font_name_orig
font_w = xml.get("FontWeight")
if font_w in (None, "50"): #Normal
font_w = 100
elif int(font_w) >= 65:
font_style += "B"
font_w = 100
fontI = xml.get("FontItalic")
fontU = xml.get("FontUnderlined") # FIXME: hay que ver si es así
background_color = self.get_color(xml.get("BackgroundColor"))
#if background_color != [255,255,255]: #Los textos que llevan fondo no blanco van en negrita
# font_style += "B"
if fontI == "1":
font_style += "I"
if fontU == "1":
font_style += "U"
font_full_name = "%s%s" % (font_name, font_style)
if font_full_name not in self._avalible_fonts:
font_found = self._parser_tools.find_font(font_full_name)
if font_found:
self.logger.warning("KUT2FPDF::Añadiendo el tipo de letra %s (%s)", font_full_name, font_found)
self._document.add_font(font_full_name, "", font_found, True)
self._avalible_fonts.append(font_full_name)
else:
if font_full_name not in self._unavalible_fonts:
self.logger.warning("KUT2FPDF:: No se encuentra el tipo de letra %s. Sustituido por helvetica%s." %(font_full_name, font_style))
self._unavalible_fonts.append(font_full_name)
font_name = "helvetica"
if font_name is not font_name_orig and font_name_orig.lower().find("narrow") > -1:
font_w = 85
self._document.set_font(font_name, font_style, font_size)
self._document.set_stretching(font_w)
# Corregir alineación
VAlignment = xml.get("VAlignment") # 0 izquierda, 1 centrado,2 derecha
HAlignment = xml.get("HAlignment")
layout_direction = xml.get("layoutDirection")
start_section_size = self._actual_section_size
result_section_size = 0
#Miramos si el texto sobrepasa el ancho
array_text = []
array_n = []
text_lines = []
if txt.find("\n") > -1:
for t in txt.split("\n"):
array_n.append(t)
if array_n: #Hay saltos de lineas ...
for n in array_n:
text_lines.append(n)
else: #No hay saltos de lineas
text_lines.append(txt)
for tl in text_lines:
str_width = self._document.get_string_width(tl)
if str_width > W + 2 and xml.tag !="Label" and resizeable: #Una linea es mas larga que el ancho del campo(Dejando 2 de juego)
height_resized = True
array_text = self.split_text(tl, W)
else:
array_text.append(tl)
#calculated_h = orig_H * len(array_text)
self.drawRect(orig_x, orig_y, orig_W, orig_H, xml)
processed_lines = 0
extra_size = 0
for actual_text in array_text:
if actual_text is None:
continue
processed_lines += 1
if processed_lines > 1:
extra_size += font_size + 2
if HAlignment == "1": # sobre X
# Centrado
x = x + (W / 2) - (self._document.get_string_width(actual_text) / 2)
#x = x + (W / 2) - (str_width if not height_resized else W / 2)
elif HAlignment == "2":
# Derecha
x = x + W - self._document.get_string_width(actual_text) - 2 # -2 de margen
#x = x + W - str_width if not height_resized else W
else:
# Izquierda
x = x + 2
if VAlignment == "1": # sobre Y
# Centrado
#y = (y + ((H / 2) / processed_lines)) + (((self._document.font_size_pt / 2) / 2) * processed_lines)
y = ( orig_y + ( orig_H / 2))+ ((self._document.font_size_pt / 2) /2)
elif VAlignment == "2":
# Abajo
y = orig_y + orig_H - font_size
else:
# Arriba
y = orig_y + font_size
y = y + extra_size
if self.design_mode:
self.write_debug(self.calculateLeftStart(orig_x), y, "Hal:%s, Val:%s, T:%s st:%s" % (HAlignment, VAlignment, txt, font_w), 6, "green")
if xml.tag == "CalculatedField":
self.write_debug(self.calculateLeftStart(orig_x), y, "CalculatedField:%s, Field:%s" % (xml.get("FunctionName"), xml.get("Field")), 3, "blue")
self._document.text(x, y, actual_text)
result_section_size += start_section_size
result_section_size = result_section_size - start_section_size
if self.increase_section_size < extra_size: #Si algun incremento extra hay superior se respeta
self.increase_section_size = extra_size
def split_text(self, texto, limit_w):
list_ = []
linea_ = None
for t in texto.split(" "):
if linea_ is None and t == "":
continue
if linea_ is not None:
if self._document.get_string_width(linea_ + t) > limit_w:
list_.append(linea_)
linea_ = ""
else:
linea_ = ""
linea_ += "%s " % t
list_.append(linea_)
return list_
"""
Dibuja un cuadrado en la página actual.
@param x. Pos x del cuadrado.
@param y. Pos y del cuadrado.
@param W. Anchura del cuadrado.
@param H. Altura del cuadrado.
"""
def get_color(self, value):
value = value.split(",")
r = None
g = None
b = None
if len(value) == 3:
r = int(value[0])
g = int(value[1])
b = int(value[2])
else:
r = int(value[0:2])
g = int(value[3:5])
b = int(value[6:8])
return [r,g,b]
def drawRect(self, x, y, W, H, xml = None):
style_ = ""
border_color = None
bg_color = None
line_width = self._document.line_width
border_width = 0.2
#Calculamos borde y restamos del ancho
orig_x = x
orig_y = y
orig_w = W
x = self.calculateLeftStart(orig_x)
W = self.calculateWidth(W, x)
if xml is not None and not self.design_mode:
if xml.get("BorderStyle") == "1":
border_color = self.get_color(xml.get("BorderColor"))
self._document.set_draw_color(border_color[0], border_color[1], border_color[2])
style_ += "D"
bg_color = self.get_color(xml.get("BackgroundColor"))
self._document.set_fill_color(bg_color[0], bg_color[1], bg_color[2])
style_ = "F" + style_
border_width = int(xml.get("BorderWidth") if xml.get("BorderWidth") else 0.2)
else:
self.write_cords_debug(x,y,W,H, orig_x, orig_w)
style_ = "D"
self._document.set_draw_color(0, 0, 0)
if style_ is not "":
self._document.set_line_width(border_width)
self._document.rect(x, y, W, H, style_)
self._document.set_line_width(line_width)
self._document.set_xy(orig_x, orig_y)
#self._document.set_draw_color(255, 255, 255)
#self._document.set_fill_color(0, 0, 0)
def write_cords_debug(self, x, y, w, h, ox, ow):
self.write_debug(x,y,"X:%s Y:%s W:%s H:%s orig_x:%s, orig_W:%s" % (round(x, 2),round(y, 2),round(w, 2),round(h, 2), round(ox, 2), round(ow, 2)), 2, "red")
def write_debug(self, x,y,text, h, color = None):
orig_color = self._document.text_color
r = None
g = None
b = None
current_font_family = self._document.font_family
current_font_size = self._document.font_size_pt
current_font_style = self._document.font_style
if color is "red":
r = 255
g = 0
b = 0
elif color is "green":
r = 0
g = 255
b = 0
elif color is "blue":
r = 0
g = 0
b = 255
self._document.set_text_color(r,g,b)
self._document.set_font_size(4)
self._document.text(x, y + h, text)
self._document.text_color = orig_color
#self._document.set_xy(orig_x, orig_y)
self._document.set_font(current_font_family, current_font_style, current_font_size)
"""
Inserta una imagen en la página actual.
@param x. Pos x de la imagen.
@param y. Pos y de la imagen.
@param W. Anchura de la imagen.
@param H. Altura de la imagen.
@param xml. Sección del xml afectada.
@param file_name. Nombr del fichero de tempdata a usar
"""
def draw_image(self, x, y, W, H, xml, file_name):
import os
if not file_name.lower().endswith(".png"):
file_name = self._parser_tools.parseKey(file_name)
if file_name is not None and os.path.exists(file_name):
x = self.calculateLeftStart(x)
W = self.calculateWidth(W, x)
self._document.image(file_name, x, y, W, H, "PNG")
def draw_barcode(self, x, y, W, H, xml, text):
if text == "None":
return
from pineboolib.fllegacy.flcodbar import FLCodBar
file_name = aqApp.tmp_dir()
file_name += "/%s.png" % (text)
type = xml.get("CodBarType")
if not os.path.exists(file_name):
bar_code = FLCodBar(text) #Code128
if type is not None:
type = bar_code.nameToType(type.lower())
bar_code.setType(type)
pix = bar_code.pixmap()
if not pix.isNull():
pix.save(file_name, "PNG")
self.draw_image(x , y, W, H, xml, file_name)
"""
Define los parámetros de la página
@param xml: Elemento xml con los datos del fichero .kut a procesar
"""
def setPageFormat(self, xml):
custom_size = None
self._bottom_margin = int(xml.get("BottomMargin"))
self._left_margin = int(xml.get("LeftMargin"))
self._right_margin = int(xml.get("RightMargin"))
self._top_margin = int(xml.get("TopMargin"))
page_size = int(xml.get("PageSize"))
page_orientation = xml.get("PageOrientation")
if page_size in [30, 31]:
custom_size = [int(xml.get("CustomHeightMM")), int(xml.get("CustomWidthMM"))]
self._page_orientation = "P" if page_orientation == "0" else "L"
self._page_size = self._parser_tools.converPageSize(
page_size, int(page_orientation), custom_size) # devuelve un array
def draw_margins(self):
self.draw_debug_line(0 + self._left_margin , 0, 0+ self._left_margin , self._page_size[1]) #Vertical derecha
self.draw_debug_line(self._page_size[0] - self._right_margin , 0, self._page_size[0] - self._right_margin , self._page_size[1])#Vertical izquierda
self.draw_debug_line(0, 0 + self._top_margin, self._page_size[0], 0 + self._top_margin) #Horizontal superior
self.draw_debug_line(0, self._page_size[1] - self._bottom_margin, self._page_size[0], self._page_size[1] - self._bottom_margin) #Horizontal inferior
def draw_debug_line(self, X1, Y1, X2, Y2, title= None, color="GREY"):
dash_length = 2
space_length = 2
r = 0
g = 0
b = 0
if color == "GREY":
r = 220
g = 220
b = 220
self._document.set_line_width(1)
self._document.set_draw_color(r, g, b)
self._document.dashed_line(X1, Y1, X2, Y2, dash_length, space_length)
def number_pages(self):
return self._actual_append_page_no if self._actual_append_page_no > 0 else 0
def reset_page_no(self):
self._actual_append_page_no = -1
from fpdf import FPDF
receptacle_width = 150
line_width = 5
dash_length = 11.67
pdf_name = 'receptacle.pdf'
# Paper params
orientation = 'L'
width_in, height_in = 11, 8.5
mm_per_in = 25.4
width, height = width_in * mm_per_in, height_in * mm_per_in
# Create PDF
pdf = FPDF(orientation, 'mm', 'letter')
pdf.add_page()
pdf.set_line_width(line_width)
offset = receptacle_width / 2 - line_width / 2
for (x1, x2, y1, y2) in [(-1, 1, -1, -1), (1, 1, -1, 1), (1, -1, 1, 1),
(-1, -1, 1, -1)]:
pdf.dashed_line(width / 2 + x1 * offset,
height / 2 + y1 * offset,
width / 2 + x2 * offset,
height / 2 + y2 * offset,
dash_length=dash_length,
space_length=dash_length + 2 * line_width)
# Save PDF
pdf.output(pdf_name)
aruco_dict, marker_id,
int(scale_factor *
marker_params['marker_length_pixels']))).save(image_path)
x = paper_params[
'width_mm'] / 2 + corner_x * receptacle_width_mm / 2 - (
corner_x == 1) * marker_length_mm
y = paper_params[
'height_mm'] / 2 + corner_y * receptacle_width_mm / 2 - (
corner_y == 1) * marker_length_mm
pdf.image(image_path, x=x, y=y, w=marker_length_mm, h=marker_length_mm)
offset1 = receptacle_width_mm / 2 - marker_length_mm - padding_mm - line_width / 2
offset2 = receptacle_width_mm / 2 - line_width / 2
for (x1, x2, y1, y2) in [
(-offset1, offset1, -offset2, -offset2),
(offset2, offset2, -offset1, offset1),
(offset1, -offset1, offset2, offset2),
(-offset2, -offset2, offset1, -offset1),
]:
pdf.dashed_line(paper_params['width_mm'] / 2 + x1,
paper_params['height_mm'] / 2 + y1,
paper_params['width_mm'] / 2 + x2,
paper_params['height_mm'] / 2 + y2,
dash_length=dash_length,
space_length=dash_length + 2 * line_width)
# Save PDF
output_dir = Path(output_dir)
if not output_dir.exists():
output_dir.mkdir(parents=True)
pdf.output(output_dir / pdf_name)
"Tests new dashed line feature (issue 35)"
from fpdf import FPDF
import os
pdf=FPDF()
pdf.add_page()
pdf.dashed_line(10, 10, 110, 10)
pdf.dashed_line(10, 20, 110, 20, 5, 5)
pdf.dashed_line(10, 30, 110, 30, 1, 10)
fn = 'dashed_line_issue35.pdf'
pdf.output(fn,'F')
try:
os.startfile(fn)
except:
os.system("xdg-open \"%s\"" % fn)
pdf.cell(1,
line_height['text'] - 0.5,
data['about']['socials']['blog']['url'],
ln=2,
align='R',
link=data['about']['socials']['blog']['url'])
pdf.cell(1,
line_height['text'] - 0.5,
data['about']['socials']['github']['url'],
ln=2,
align='R',
link=data['about']['socials']['github']['url'])
pdf.set_text_color(black)
# hr
pdf.set_line_width(0.4)
pdf.dashed_line(page_size['left'] + 1, header_y, page_size['end_x'] + 1,
header_y, 1, 1)
pdf.ln(2)
# about section
pdf.set_font(title_font, '', font_size['section_title'])
pdf.cell(1, line_height['section'] - 1, data['sections']['about'], ln=2)
pdf.set_font(text_font, '', font_size['text'])
col_1_count = len(data['about']['introduction']) / 2
desc_y = pdf.get_y()
for idx, desc in enumerate(data['about']['introduction']):
if idx == col_1_count:
pdf.set_y(desc_y)
if idx < col_1_count:
pdf.set_x(page_size['left'] + page_size['section_indent'])
else:
pdf.set_x(page_size['middle_x'])
pdf.ellipse(pdf.get_x(),
def generatePdf(tableName):
global done
import cx_Oracle
con = None
cursor = None
try:
con = cx_Oracle.connect("system/Rajuoracledb#123")
cursor = con.cursor()
sql = "select * from " + tableName + " order by itemNo"
cursor.execute(sql)
data = cursor.fetchall()
if cursor.rowcount == 0:
print("order was empty, pdf not generated!")
else:
li = []
ld = []
lr = []
lq = []
la = []
for d in data:
li.append(d[0])
ld.append(d[1])
lr.append(d[2])
lq.append(d[3])
la.append(d[4])
#getting amount
q = "select sum(itemamount) from " + tableName
cursor.execute(q)
data = cursor.fetchall()
amount = data[0][0]
#getting amount after adding 9% tax
amount_to_pay = amount + amount * 0.09
#getting date
d = datetime.datetime.now()
dt = d.strftime("%d / %m / %Y")
t = d.strftime("%I:%M:%S %p ")
#getting random 3 digit number for reciept number
rno = random.randint(100, 999)
#creatinf pdf object
pdf = FPDF('P', 'mm', (150, 260))
pdf.add_page()
pdf.set_font("Times", 'BI', 18)
#adding header
pdf.set_xy(x=38.0, y=7)
pdf.write(15, "Python Developers' Restaurent")
pdf.set_font("Arial", 'B', 9)
pdf.set_xy(x=10, y=19)
pdf.write(5, "Date : " + dt)
pdf.set_xy(x=10, y=23)
pdf.write(5, "Time : " + t)
pdf.set_xy(x=110, y=19)
pdf.write(5, "Table : " + tableName)
pdf.set_xy(x=110, y=23)
pdf.write(5, "Reciept No : " + str(rno))
pdf.set_font("Arial", 'B', 12)
pdf.set_xy(x=10.0, y=30)
pdf.dashed_line(10, 30, 140, 30, dash_length=1, space_length=1)
pdf.write(
10,
"Item no Dish Name Rate Quanitity Amount"
)
pdf.dashed_line(10, 40, 140, 40, dash_length=1, space_length=1)
#printing the content of dish on pdf
m = 40
for k in range(len(li)):
pdf.set_xy(x=14.0, y=m)
pdf.write(10, str(li[k]))
pdf.set_xy(x=30.0, y=m)
pdf.write(10, str(ld[k]))
pdf.set_xy(x=80.0, y=m)
pdf.write(10, str(lr[k]))
pdf.set_xy(x=100.0, y=m)
pdf.write(10, str(lq[k]))
pdf.set_xy(x=124.0, y=m)
pdf.write(10, str(la[k]))
m = m + 10
pdf.dashed_line(10, m, 140, m, dash_length=1, space_length=1)
pdf.image("stamp.jpg", x=80, y=150, w=50, h=40)
#adding footer
pdf.dashed_line(10, 200, 140, 200, dash_length=1, space_length=1)
pdf.set_xy(x=60.0, y=201)
pdf.write(10,
"Total amount = Rs. " + str(amount))
pdf.set_xy(x=60.0, y=205)
pdf.write(10, "SGST = 4.5%")
pdf.set_xy(x=60.0, y=210)
pdf.write(10, "CGST = 4.5%")
pdf.dashed_line(10, 219, 140, 219, dash_length=1, space_length=1)
pdf.set_xy(x=60.0, y=217)
pdf.write(10, "TOTAL AMOUNT TO PAY = Rs. " + str(amount_to_pay))
pdf.dashed_line(10, 225, 140, 225, dash_length=1, space_length=1)
pdf.set_xy(x=42.0, y=225)
pdf.set_font("Courier", 'BI', 17)
pdf.write(8, "Please Visit Again")
pdf.set_font("Times", 'BIU', 10)
pdf.set_xy(x=45.0, y=232)
pdf.write(5, "Developed By Raju Potharaju",
"www.github.com/rajupotharaju155")
#pdf.set_draw_color(255, 0, 0)
pdf.set_line_width(1)
pdf.line(10, 10, 140, 10)
pdf.line(10, 10, 10, 250)
pdf.line(140, 10, 140, 250)
pdf.line(10, 250, 140, 250)
#pdf.cell(w = 100, h = 100, txt = mdata, border = 1, ln = 0, align = 'l', fill = False)
try:
pdf.output(tableName + ".pdf")
messagebox.showinfo("PDF CREATED ",
"BILL GENERATED SUCCESULLY")
print("*****************pdf created**************")
done = 1
except PermissionError as e:
done = 0
messagebox.showwarning(
"BILL CANNOT BE GENERATED",
"PLEASE CHECK IF SAME TABLE PDF IS ALREADY OPENED IN ANOTHER TAB"
)
except cx_Oracle.DatabaseError as e:
print("issue", e)
finally:
if cursor is not None:
cursor.close()
if con is not None:
con.close()
return 0
landmark_list.append(Point(absc, ordo))
# Définition des décalage
horizontal_gap = 70
vertical_gap = 64
#Création du pdf
pdf = FPDF('L')
for chunk_index, sign_list in enumerate(chunks):
# Création du pdf courant
pdf.add_page()
# Lignes verticales
pdf.dashed_line(8, 0, 8, 192, dash_length=1, space_length=1)
pdf.dashed_line(78, 0, 78, 192, dash_length=1, space_length=1)
pdf.dashed_line(148, 0, 148, 192, dash_length=1, space_length=1)
pdf.dashed_line(218, 0, 218, 192, dash_length=1, space_length=1)
pdf.dashed_line(288, 0, 288, 192, dash_length=1, space_length=1)
# Lignes horizontales
pdf.dashed_line(8, 0, 288, 0, dash_length=1, space_length=1)
pdf.dashed_line(8, 64, 288, 64, dash_length=1, space_length=1)
pdf.dashed_line(8, 128, 288, 128, dash_length=1, space_length=1)
pdf.dashed_line(8, 192, 288, 192, dash_length=1, space_length=1)
for index, sign in enumerate(sign_list):
category_ptn_pt = Point(
category_pt.x + landmark_list[index].x * horizontal_gap,
category_pt.y + landmark_list[index].y * vertical_gap)
