def get_packaging_table_as_tabularx(self):
table = Tabularx("|X|X|X|", row_height=1.25)
table.add_hline()
table.add_row(bold("Type"), bold("Størrelse"), bold("Antall"))
for child_id in self.packaging_table.get_children():
child = self.packaging_table.item(child_id)
if (text := child["text"]):
table.add_hline()
table.add_row(text, child["values"][0], child["values"][1])
def _write_tables(self, tables: List[FeSummaryTable], model_ids: Set[FEID],
datasets: Dict[FEID, Tuple[Set[str], Any]]) -> None:
"""Insert a LaTeX representation of a list of tables into the current doc.
Args:
tables: The tables to write into the doc.
model_ids: The ids of any known models.
datasets: A mapping like {ID: ({modes}, dataset)}. Useful for augmenting the displayed information.
"""
for tbl in tables:
name_override = None
toc_ref = None
extra_rows = None
if tbl.fe_id in model_ids:
# Link to a later detailed model description
name_override = Hyperref(Marker(name=str(tbl.name),
prefix="subsec"),
text=NoEscape(r'\textcolor{blue}{') +
bold(tbl.name) + NoEscape('}'))
if tbl.fe_id in datasets:
modes, dataset = datasets[tbl.fe_id]
title = ", ".join([s.capitalize() for s in modes])
name_override = bold(f'{tbl.name} ({title})')
# Enhance the dataset summary
if isinstance(dataset, FEDataset):
extra_rows = list(dataset.summary().__getstate__().items())
for idx, (key, val) in enumerate(extra_rows):
key = f"{prettify_metric_name(key)}:"
if isinstance(val, dict) and val:
if isinstance(
list(val.values())[0],
(int, float, str, bool, type(None))):
val = jsonpickle.dumps(val, unpicklable=False)
else:
subtable = Tabularx(
'l|X',
width_argument=NoEscape(r'\linewidth'))
for k, v in val.items():
if hasattr(v, '__getstate__'):
v = jsonpickle.dumps(v,
unpicklable=False)
subtable.add_row((k, v))
# To nest TabularX, have to wrap it in brackets
subtable = ContainerList(data=[
NoEscape("{"), subtable,
NoEscape("}")
])
val = subtable
extra_rows[idx] = (key, val)
tbl.render_table(self.doc,
name_override=name_override,
toc_ref=toc_ref,
extra_rows=extra_rows)
def test_table():
# Tabular
t = Tabular(table_spec='|c|c|', data=None, pos=None, width=2)
t.add_hline(start=None, end=None)
t.add_row((1, 2), escape=False, strict=True, mapper=[bold])
t.add_row(1, 2, escape=False, strict=True, mapper=[bold])
# MultiColumn/MultiRow.
t.add_row((MultiColumn(size=2, align='|c|', data='MultiColumn'), ),
strict=True)
# One multiRow-cell in that table would not be proper LaTeX,
# so strict is set to False
t.add_row((MultiRow(size=2, width='*', data='MultiRow'), ), strict=False)
repr(t)
# TabularX
tabularx = Tabularx(table_spec='X X X',
width_argument=NoEscape(r"\textwidth"))
tabularx.add_row(["test1", "test2", "test3"])
# Long Table
longtable = LongTable(table_spec='c c c')
longtable.add_row(["test", "test2", "test3"])
longtable.end_table_header()
# Colored Tabu
coloredtable = Tabu(table_spec='X[c] X[c]')
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Colored Tabu with 'spread'
coloredtable = Tabu(table_spec='X[c] X[c]', spread="1in")
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Colored Tabu with 'to'
coloredtable = Tabu(table_spec='X[c] X[c]', to="5in")
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Colored Tabularx
coloredtable = Tabularx(table_spec='X[c] X[c]')
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Column
column = ColumnType("R", "X", r"\raggedleft", parameters=2)
repr(column)
def test_table():
# Tabular
t = Tabular(table_spec='|c|c|', data=None, pos=None, width=2)
t.add_hline(start=None, end=None)
t.add_row((1, 2), escape=False, strict=True, mapper=[bold])
t.add_row(1, 2, escape=False, strict=True, mapper=[bold])
# MultiColumn/MultiRow.
t.add_row((MultiColumn(size=2, align='|c|', data='MultiColumn'),),
strict=True)
# One multiRow-cell in that table would not be proper LaTeX,
# so strict is set to False
t.add_row((MultiRow(size=2, width='*', data='MultiRow'),), strict=False)
repr(t)
# TabularX
tabularx = Tabularx(table_spec='X X X',
width_argument=NoEscape(r"\textwidth"))
tabularx.add_row(["test1", "test2", "test3"])
# Long Table
longtable = LongTable(table_spec='c c c')
longtable.add_row(["test", "test2", "test3"])
longtable.end_table_header()
# Colored Tabu
coloredtable = Tabu(table_spec='X[c] X[c]')
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Colored Tabu with 'spread'
coloredtable = Tabu(table_spec='X[c] X[c]', spread="1in")
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Colored Tabu with 'to'
coloredtable = Tabu(table_spec='X[c] X[c]', to="5in")
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Colored Tabularx
coloredtable = Tabularx(table_spec='X[c] X[c]')
coloredtable.add_row(["test", "test2"], color="gray", mapper=bold)
# Column
column = ColumnType("R", "X", r"\raggedleft", parameters=2)
repr(column)
def get_latex_table_type3(
doc,
results=None,
dataset_name=WDEReprSTL10,
arch_names=["MaxMin", "ReLU"],
lr="0.0001",
):
method_names = ["OSSN", "RKO", "BCOP"]
num_archs = len(arch_names)
num_methods = len(method_names)
fmt = "cc" + "c" * num_methods
num_cols = 2 + num_methods
with doc.create(Tabularx(fmt)) as data_table:
headers = tuple(
map(lambda x: NoEscape(boldify(x)),
("", "") + tuple(method_names)))
data_table.add_row(headers)
cmidrule(data_table, 1, num_cols)
multi_row_outer = MultiRow(num_archs, data=NoEscape(dataset_name))
for i, arch_name in enumerate(arch_names):
if i == 0:
row = (multi_row_outer, )
else:
row = ("", )
row += (NoEscape(boldify(arch_name)), )
row += populate_numbers([
results[(dataset_name, arch_name, method_name, lr, "Loss",
None)] for method_name in method_names
])
data_table.add_row(row)
def add_header(doc, meal):
doc.append(
Command('renewcommand',
arguments=Command('arraystretch'),
extra_arguments='1.75'))
doc.append(NoEscape(r'\definecolor{light-gray}{gray}{0.85}'))
doc.append(Command('arrayrulecolor', arguments=NoEscape(r'light-gray')))
with doc.create(Table()):
with doc.create(Tabularx(
"X r",
width_argument=NoEscape(r'\textwidth'))) as table_content:
# add header
table_content.add_row([
NoEscape(r'\LARGE \textbf{' + meal['meal_name'] + '}'),
NoEscape(r'\color{gray} \large \textbf{' +
meal['meal_date'].strftime("%a, %d. %b") + '}')
])
table_content.add_row([
NoEscape(r'\small \textit{(' + meal['meal_weekview_name'] +
')}'),
NoEscape(r'\color{gray} \large \textbf{' +
meal['meal_used_as'] + '}')
])
table_content.add_hline()
def generate_user_story(user_story: UserStory, locale: LocaleDictionary,
paragraph: Paragraph) -> Paragraph:
with paragraph.create(Tabularx(table_spec="|X|X|",
row_height="1.4")) as tabularx:
tabularx: Tabularx
definitions_of_done = Itemize()
for definition_of_done in user_story.definitions_of_done:
definitions_of_done.add_item(definition_of_done)
comments = Itemize()
for comment in user_story.comments:
comments.add_item(comment)
tabularx.add_row(
[MultiColumn(2, data=bold(user_story.name), color="gray")])
tabularx.add_row([f"{locale.as_user}: ", f"{locale.user_want}: "])
tabularx.add_row([user_story.user, user_story.action])
if user_story.description is not None:
tabularx.add_row([
MultiColumn(
2,
align=NoEscape("|p{\\rowWidth}|"),
data=[f"{locale.description}: ", user_story.description],
color="gray")
])
if len(user_story.definitions_of_done) > 0:
tabularx.add_row([
MultiColumn(2,
align=NoEscape("|p{\\rowWidth}|"),
data=[
f"{locale.definition_of_done}: ",
definitions_of_done
])
])
if len(user_story.assignments) > 0:
tabularx.add_row([
MultiColumn(2,
align=NoEscape("|p{\\rowWidth}|"),
data=[
f"{locale.assignation}: ",
", ".join(user_story.assignments)
],
color="gray")
])
tabularx.add_row([
f"{locale.estimated_duration}: ",
f"{user_story.estimated_duration:g} {locale.man_days} ({int(user_story.estimated_duration * 8)}"
f" {locale.hours})"
])
tabularx.add_row(
[f"{locale.status}: ",
user_story.status.translate(locale)])
if len(user_story.comments) > 0:
tabularx.add_row([
MultiColumn(2,
align=NoEscape("|p{\\rowWidth}|"),
data=[f"{locale.comments}: ", comments],
color="gray")
])
return paragraph
def tabela_alternativas(doc, model, table_spec, id=None, hline=True):
from pylatex import Tabularx, NoEscape
# Conta a quantidade de 'X', 'l', 'c', 'r' etc.
nro_colunas = sum(char.isalpha() for char in table_spec)
with doc.create(Tabularx(table_spec,
width_argument=WIDTH_ARGUMENT)) as tab:
if hline:
tab.add_hline()
row = []
for i, model in enumerate(model.objects.all(), 1):
if id and model.id == id:
row.append(NoEscape(r'({}) {}'.format(TIMES, model.nome)))
else:
row.append(NoEscape(r'({}) {} '.format(PHANTOM, model.nome)))
if i % nro_colunas == 0:
tab.add_row(row)
del row[:]
# Adiciona o resto dos itens à tabela
if len(row):
for _ in range(nro_colunas - len(row)):
row.append('')
tab.add_row(row, strict=False)
if hline:
tab.add_hline()
def get_general_info_as_tabularx(self):
table = Tabularx("|X|X|X|X|", row_height=1.25)
table.add_hline()
table.add_row(bold("Kundenavn"), self.customer_name.get(),
bold("Ordrenummer"), self.order_number.get())
table.add_hline()
total_lengde = str(self.get_total_length_l())
if (total_length_r := self.get_total_length_r()):
total_lengde += f" x {total_length_r}"
def add_recipe(doc, recipe):
doc.append(Command('vspace', arguments='0.75cm'))
doc.append(
Command('renewcommand',
arguments=Command('arraystretch'),
extra_arguments='1.25'))
if 'ingredients' in recipe and len(recipe['ingredients']) > 0:
with doc.create(Table(position='h')) as table:
table.add_caption(recipe['recipe_name'] + ' (für ' +
str(recipe['recipe_participants']) + ' Per.)')
# add section for 'recipe_description' or 'recipe_notes' if one is none-empty
if recipe['recipe_description'] + recipe['recipe_notes'] != '':
with table.create(
Tabularx('l X', width_argument=NoEscape(
r'\textwidth'))) as table_content:
if recipe['recipe_description'] != '':
table_content.add_row(
['Beschreibung: ', recipe['recipe_description']])
if recipe['recipe_notes'] != '':
table_content.add_row(
['Notizen:', recipe['recipe_notes']])
table.append(NoEscape(r'\par'))
with table.create(Tabularx('| r | r | l | l | X |', width_argument=NoEscape(r'\textwidth'))) \
as table_content:
table_content.add_hline()
table_content.add_row([
NoEscape(r'\tiny{1 Per.}'),
NoEscape(r'\tiny{' + str(recipe['recipe_participants']) +
' Per.}'),
NoEscape(r'\tiny{Einheit}'),
NoEscape(r'\tiny{Lebensmittel}'),
NoEscape(r'\tiny{Kommentar}')
])
table_content.add_hline()
for ingredient in recipe['ingredients']:
add_ingredient(table_content, ingredient)
table_content.add_hline()
def get_latex_table_type1(
doc,
results=None,
method_names=["OSSN", "RKO", "SVCM", "BCOP"],
config_names=["Clean", "Robust"],
eps=["1.58", "0.1411764706"],
):
dataset_names = [MNISTRepr, CIFAR10Repr]
arch_names = ["Small", "Large"]
num_archs = len(arch_names)
num_configs = len(config_names)
num_methods = len(method_names)
fmt = "c|cc|" + "c" * num_methods
num_cols = 3 + num_methods
with doc.create(Tabularx(fmt)) as data_table:
headers = tuple(
map(
lambda x: NoEscape(boldify(x)),
("Dataset", "", "") + tuple(method_names),
))
data_table.add_row(headers)
cmidrule(data_table, 1, num_cols)
for dataset_name, ep in zip(dataset_names, eps):
multi_row_outer = MultiRow(num_archs * num_configs,
data=NoEscape(dataset_name))
for i, arch_name in enumerate(arch_names):
multi_row_inner = MultiRow(num_configs,
data=NoEscape(boldify(arch_name)))
for j, config_name in enumerate(config_names):
row = ()
if i == 0 and j == 0:
row += (multi_row_outer, )
else:
row += ("", )
if j == 0:
row += (multi_row_inner, )
else:
row += ("", )
row += (config_name, )
row += populate_numbers([
results[(
dataset_name,
arch_name,
method_name,
None,
config_name,
ep,
)] for method_name in method_names
])
data_table.add_row(row)
if i != num_archs - 1:
cmidrule(data_table, 2, num_cols)
cmidrule(data_table, 1, num_cols)
def render_table(self,
doc: Document,
name_override: Optional[LatexObject] = None,
toc_ref: Optional[str] = None,
extra_rows: Optional[List[Tuple[str, Any]]] = None) -> None:
"""Write this table into a LaTeX document.
Args:
doc: The LaTeX document to be appended to.
name_override: An optional replacement for this table's name field.
toc_ref: A reference to be added to the table of contents.
extra_rows: Any extra rows to be added to the table before the kwargs.
"""
with doc.create(Table(position='htp!')) as table:
table.append(NoEscape(r'\refstepcounter{table}'))
table.append(Label(Marker(name=str(self.fe_id), prefix="tbl")))
if toc_ref:
table.append(NoEscape(r'\addcontentsline{toc}{subsection}{' + escape_latex(toc_ref) + '}'))
with doc.create(Tabularx('|lX|', booktabs=True)) as tabular:
package = Package('xcolor', options='table')
if package not in tabular.packages:
# Need to invoke a table color before invoking TextColor (bug?)
tabular.packages.append(package)
package = Package('seqsplit')
if package not in tabular.packages:
tabular.packages.append(package)
tabular.add_row((name_override if name_override else bold(self.name),
MultiColumn(size=1, align='r|', data=TextColor('blue', self.fe_id))))
tabular.add_hline()
type_str = f"{self.type}"
match = re.fullmatch(r'^<.* \'(?P<typ>.*)\'>$', type_str)
type_str = match.group("typ") if match else type_str
tabular.add_row(("Type: ", escape_latex(type_str)))
if self.path:
if isinstance(self.path, LatexObject):
tabular.add_row(("", self.path))
else:
tabular.add_row(("", escape_latex(self.path)))
for k, v in self.fields.items():
tabular.add_hline()
tabular.add_row((f"{k.capitalize()}: ", v))
if self.args:
tabular.add_hline()
tabular.add_row(("Args: ", self.args))
if extra_rows:
for (key, val) in extra_rows:
tabular.add_hline()
tabular.add_row(key, val)
if self.kwargs:
tabular.add_hline()
for idx, (kwarg, val) in enumerate(self.kwargs.items()):
tabular.add_row((italic(kwarg), val), color='white' if idx % 2 else 'black!5')
def weekview_table(doc: Document, camp: Camp):
# content for this page
days = camp.get_days()
# add packages
doc.packages.add(Package('caption', options='tableposition=top'))
doc.packages.add(Package('graphicx'))
doc.packages.add(Package('float'))
doc.packages.add(Package('floatpag'))
with doc.create(Sidewaystable(options='p!')):
doc.append(Command('small'))
# define table look
doc.append(Command('caption*', arguments=Arguments(NoEscape(r'\textbf{Wochenplan Sommerlager 2021} Achtung Datum falsch!!!'))))
doc.append(Command('centering'))
doc.append(Command('newcolumntype', arguments='Y',
extra_arguments=Arguments(NoEscape(r'>{\centering\arraybackslash}X'))))
doc.append(Command('newcommand*'))
doc.append(Command('rot', arguments=Command('rotatebox', options='origin=c', arguments='270')))
doc.append(Command('renewcommand', arguments=Command('arraystretch'), extra_arguments='2.25'))
column_template = r'| >{\bfseries}Y |'
for _ in days:
column_template += ' Y | '
doc.append(NoEscape(r'\makebox[\textwidth]{')) # open makebox
with doc.create(Tabularx(NoEscape(column_template),
width_argument=NoEscape(r'1.15\textwidth'))) as table_content:
# reset with since we use custom columntypes
table_content.width = len(days) + 1
# add header
table_content.add_hline()
table_content.add_row([''] + days)
table_content.add_hline()
table_content.add_hline()
# get meal data
meals = camp.get_meals_for_weekview()
# add meals
for meal_name in meals.keys():
table_content.add_row([meal_name] + meals[meal_name])
table_content.add_hline()
doc.append(Command('thisfloatpagestyle', arguments='empty'))
doc.append(NoEscape(r'}%')) # close makebox
def generate_document_description(schema: PLDSchema, locale: LocaleDictionary,
document: Document) -> Document:
document.append(NewPage())
total_man_days, man_days_distribution = generate_stats(schema)
with document.create(MiniPage()) as minipage:
minipage: MiniPage
with minipage.create(
Section(title=locale.document_description)) as section:
section: Section
with section.create(Tabularx(table_spec="|l|X|",
row_height=1.4)) as tabularx:
tabularx: Tabularx
tabularx.add_row([
MultiColumn(1, data=locale.title, color="gray"),
schema.title
])
tabularx.add_row([
MultiColumn(1, data=locale.description, color="gray"),
schema.description
])
tabularx.add_row([
MultiColumn(1, data=locale.authors, color="gray"),
", ".join(schema.authors)
])
tabularx.add_row([
MultiColumn(1, data=locale.updated_date, color="gray"),
schema.versions[-1].date
])
tabularx.add_row([
MultiColumn(1, data=locale.model_version, color="gray"),
schema.versions[-1].version
])
tabularx.add_row(
[MultiColumn(2, color="gray", data=bold(locale.stats))])
tabularx.add_row([
MultiColumn(1,
data=locale.man_days_distribution,
color="gray"),
NoEscape(f"{NewLine().dumps()} ".join([
f"{author}: {score:g}"
for author, score in man_days_distribution.items()
]))
])
tabularx.add_row([
MultiColumn(1, data=locale.total_man_days, color="gray"),
f"{total_man_days:g}"
])
return document
def constroiCabecalho(self):
self.firstPage = PageStyle('firstpage')
with self.firstPage.create(Head("L")) as header_left:
with header_left.create(
MiniPage(width=NoEscape(r"0.3\textwidth"),
pos='l')) as logo_wrapper:
with logo_wrapper.create(
Tabularx('X X',
width_argument=NoEscape(
r"0.5\textwidth"))) as logo:
logo.add_row([MultiColumn(2, align='c')])
logo_file = os.path.join(os.getcwd(), 'Telas', 'Imagens',
'nautilusDash.png')
imagem = StandAloneGraphic(image_options="width=36px",
filename=logo_file)
textLogo = MiniPage(width=NoEscape(r"0.6\textwidth"),
content_pos='t',
align='l')
textLogo.append(LargeText(bold('Nautilus')))
textLogo.append(LineBreak())
textLogo.append('Navegue sem medo')
textLogo.append(LineBreak())
textLogo.append('\n')
logo.add_row([imagem, textLogo])
with self.firstPage.create(Head("C")) as headerCenter:
with headerCenter.create(
MiniPage(width=NoEscape(r"0.4\textwidth"),
pos='c')) as centro:
centro.append(LargeText(bold('Relatório geral de clientes')))
# Add document title
with self.firstPage.create(Head("R")) as right_header:
with right_header.create(
MiniPage(width=NoEscape(r"0.3\textwidth"),
pos='R',
align='r')) as title_wrapper:
title_wrapper.append(
LargeText(bold(self.usuarioModel.nomeEmpresa)))
title_wrapper.append(LineBreak())
title_wrapper.append(
MediumText(mascaraMeses(data=datetime.date.today())))
def get_latex_table_type1b(
doc,
results=None,
method_arch_names=[
("BCOP", "Large"),
("FC", "3"),
("KW", "Large "),
("KW", "Resnet"),
],
eps=["1.58", "0.1411764706"],
config_names=["Clean", "Robust"],
):
dataset_names = [MNISTRepr, CIFAR10Repr]
num_configs = len(config_names)
num_methods = len(method_arch_names)
fmt = "c|c|" + "c" * num_methods
num_cols = 2 + num_methods
with doc.create(Tabularx(fmt)) as data_table:
headers = (NoEscape(boldify("Dataset")), "") + tuple(
map(lambda x: NoEscape(boldify("{}-{}".format(*x))),
method_arch_names))
data_table.add_row(headers)
cmidrule(data_table, 1, num_cols)
for dataset_name, ep in zip(dataset_names, eps):
multi_row_outer = MultiRow(num_configs,
data=NoEscape(dataset_name))
for j, config_name in enumerate(config_names):
row = ()
if j == 0:
row += (multi_row_outer, )
else:
row += ("", )
row += (config_name, )
row += populate_numbers([
results[(
dataset_name,
arch_name,
method_name,
None,
config_name,
ep,
)] for method_name, arch_name in method_arch_names
])
data_table.add_row(row)
cmidrule(data_table, 1, num_cols)
def _document_summary_table(self, pass_num: int, fail_num: int) -> None:
"""Document a summary table.
Args:
pass_num: Total number of passed tests.
fail_num: Total number of failed tests.
"""
with self.doc.create(Tabularx('|Y|Y|Y|', booktabs=True)) as tabular:
package = Package('seqsplit')
if package not in tabular.packages:
tabular.packages.append(package)
# add table heading
tabular.add_row(("Total Tests", "Total Passed ", "Total Failed"),
strict=False)
tabular.add_hline()
tabular.add_row((pass_num + fail_num, pass_num, fail_num),
strict=False)
def generate_deliverables(schema: PLDSchema, locale: LocaleDictionary,
document: Document) -> Document:
with document.create(MiniPage()) as minipage:
minipage: MiniPage
with minipage.create(Section(title=locale.deliverable_map)) as section:
section: Section
for deliverable in schema.deliverables:
with section.create(
Subsection(title=deliverable.name)) as subsection:
subsection: Subsection
subsets_length = len(deliverable.subsets)
tabular_length = subsets_length if subsets_length != 0 else 1
table_spec = f"|{'|'.join(['X'] * tabular_length)}|"
with subsection.create(
Tabularx(table_spec=table_spec,
row_height="1.4")) as tabularx:
tabularx: Tabularx
tabularx.add_row([
MultiColumn(tabular_length,
data=deliverable.name,
color="gray")
])
tabularx_contents: List[List[str]] = [[
f"{subset_index} {subset.name}"
] + [
f"{subset_index}.{user_story_index} {user_story.name}"
for user_story_index, user_story in enumerate(
subset.user_stories, start=1)
] for subset_index, subset in enumerate(
deliverable.subsets, start=1)]
max_size = max(
[len(content) for content in tabularx_contents])
tabularx_contents: List[List[str]] = [
content +
["" for _ in range(len(content), max_size)]
for content in tabularx_contents
]
for row_contents in zip(*tabularx_contents):
tabularx.add_row(
[row_content for row_content in row_contents])
return document
def tabela_membros(doc, projeto_extensao):
table_spec = NoEscape(r'''|>{\centering\arraybackslash}X|
>{\centering\arraybackslash}X|
@{ }c@{ }|
@{ }c@{ }|
>{\centering\arraybackslash}X|
>{\centering\arraybackslash}X|
@{ }c@{ }|
''')
cabecalho_tabela = [
'NOME COMPLETO', 'ENTIDADE', 'CPF', 'DATA NASC.', 'FUNÇÃO',
'C/H SEMANAL', 'TELEFONE E E-MAIL'
]
doc.append(NoEscape('{\scriptsize'))
with doc.create(Tabularx(table_spec,
width_argument=WIDTH_ARGUMENT)) as tab:
tab.add_hline()
tab.add_row(cabecalho_tabela)
tab.add_hline()
membros = MembroComunidade_CursoExtensao.objects.filter(
curso_extensao_id=projeto_extensao.id)
for membro in membros:
linha = [
escape_latex(membro.nome),
escape_latex(membro.entidade),
escape_latex(membro.cpf),
membro.data_nascimento.strftime('%d/%m/%Y'),
escape_latex(membro.funcao),
membro.carga_horaria_semanal,
# TODO: hifenizar email
NoEscape(r'\makecell{{ {}; \\ {} }}'.format(
escape_latex(membro.telefone), escape_latex(membro.email)))
]
tab.add_row(linha)
tab.add_hline()
mdframed_plano_trabalho(doc, membros)
doc.append(NoEscape('}')) # volta com tamanho da fonte normal
def cria_primeira_secao(self, cabecalho):
colunas_section_1 = Tabularx('c c c')
colunas_section_1.add_row([MultiColumn(3, align='c')])
info_aluno = MiniPage(width=NoEscape(r'0.25\textwidth'),
pos='b',
align='l')
graf_media = StandAloneGraphic(filename=self.path_graf_medias,
image_options='width = 180 px')
box_medias_aluno = MiniPage(width=NoEscape(r'0.23\textwidth'),
pos='b',
align='l')
info_aluno.append(f'Nome: {self.resumo[1]} {self.resumo[2]}')
info_aluno.append(NewLine())
info_aluno.append(f'Número: {self.resumo[5]}')
info_aluno.append(NewLine())
info_aluno.append(f'Série: {self.resumo[4]}º ano')
info_aluno.append(NewLine())
info_aluno.append(f'Turma: {self.resumo[3]}')
info_aluno.append(NewLine())
info_aluno.append(NewLine())
if self.resumo[9] >= 45:
info_aluno.append(LargeText(f'Aprovado'))
else:
info_aluno.append(LargeText(f'Reprovado'))
for i in range(3):
info_aluno.append(NewLine())
media_final = LargeText(f'Média final: {self.resumo[9]}')
info_aluno_medias = Tabular('c | c | c', pos='b')
info_aluno_medias.add_row(cabecalho, mapper=[bold])
info_aluno_medias.add_hline()
info_aluno_medias.add_empty_row()
info_aluno_medias.add_row(
[self.resumo[6], self.resumo[7], self.resumo[8]])
box_medias_aluno.append(media_final)
for i in range(3):
box_medias_aluno.append(NewLine())
box_medias_aluno.append(info_aluno_medias)
for i in range(3):
box_medias_aluno.append(NewLine())
colunas_section_1.add_row([info_aluno, graf_media, box_medias_aluno])
return colunas_section_1
def generate_document_versions_table(schema: PLDSchema,
locale: LocaleDictionary,
document: Document) -> Document:
with document.create(Section(title=locale.revision_table)) as section:
section: Section
with section.create(
Tabularx(table_spec="|l|l|X|X|X|",
row_height="1.4")) as tabularx:
tabularx: Tabularx
tabularx.add_row([
locale.date, locale.version, locale.authors, locale.sections,
locale.comment
],
color="gray")
for version in schema.versions:
tabularx.add_row([
version.date, version.version, ', '.join(version.authors),
version.sections, version.comment
])
return document
def tabela_discentes(doc, projeto_extensao):
table_spec = NoEscape(r'''|>{\centering\arraybackslash}X|
>{\centering\arraybackslash}X|
@{ }c@{ }|
@{ }c@{ }|
>{\centering\arraybackslash}X|
@{ }c@{ }|
''')
cabecalho_tabela = [
'NOME COMPLETO', 'CURSO', 'SÉRIE', 'TURNO', 'C/H SEMANAL',
'TELEFONE E E-MAIL'
]
doc.append(NoEscape('{\scriptsize'))
with doc.create(Tabularx(table_spec,
width_argument=WIDTH_ARGUMENT)) as tab:
tab.add_hline()
tab.add_row(cabecalho_tabela)
tab.add_hline()
discentes = Discente_CursoExtensao.objects.filter(
curso_extensao_id=projeto_extensao.id)
for discente in discentes:
linha = [
escape_latex(discente.nome),
escape_latex(discente.curso.nome),
discente.serie,
discente.turno.nome,
discente.carga_horaria_semanal,
# TODO: hifenizar email
NoEscape(r'\makecell{{ {}; \\ {} }}'.format(
escape_latex(discente.telefone),
escape_latex(discente.email)))
]
tab.add_row(linha)
tab.add_hline()
mdframed_plano_trabalho(doc, discentes)
doc.append(NoEscape('}')) # volta com tamanho normal da fonte
def tabela_certificados(doc, id=None):
with doc.create(Enumerate()) as enum:
enum.add_item(
NoEscape(
r'Relacionar o nome dos participantes com direito a certificados. \\'
))
table_spec = NoEscape(r'''|>{\centering\arraybackslash}X|
@{ }c@{ }|
@{ }c@{ }|
@{ }c@{ }|
''')
cabecalho_tabela = ['NOME', 'FUNÇÃO', 'FREQUÊNCIA (%)', 'C/H TOTAL']
with doc.create(Tabularx(table_spec,
width_argument=WIDTH_ARGUMENT)) as tab:
tab.add_hline()
tab.add_row(cabecalho_tabela)
tab.add_hline()
certificados = CertificadoRelatorio.objects.filter(relatorio_id=id)
for certificado in certificados:
if certificado:
linha = [
escape_latex(certificado.nome), certificado.funcao,
certificado.frequencia, certificado.carga_horaria_total
]
tab.add_row(linha)
tab.add_hline()
doc.append(LineBreak())
# TODO: Item 9.2: Inserir onde o certificado sera gerado: PROEX ou Centro de Coordenação / Órgão Promotor
enum.add_item(
NoEscape(r'Informar se os certificados devem ser emitidos: \\'))
doc.append(
NoEscape(
'({}) pela PROEX \hfill ({}) pelo Centro da Coordenação ou Órgão Promotor'
.format(PHANTOM, PHANTOM)))
def tabela_palavras_chave(doc, enum, palavras):
item(doc, enum, NoEscape(r'PALAVRAS-CHAVE: \\'))
nro_colunas = 3
with doc.create(Tabularx('|X|X|X|', width_argument=WIDTH_ARGUMENT)) as tab:
tab.add_hline()
row = []
for i, palavra in enumerate(palavras, 1):
row.append(
NoEscape('{} -- {}'.format(str(i),
escape_latex(palavra.nome))))
if i % nro_colunas == 0:
tab.add_row(row)
del row[:]
# Adiciona o resto dos itens à tabela
for _ in range(nro_colunas - len(row)):
row.append('')
tab.add_row(row)
tab.add_hline()
def get_latex_table_type2(
doc,
results=None,
dataset_name=CIFAR10Repr,
config_names=["Clean", "PGD", "FGSM"],
eps="0.1411764706",
):
arch_names = ["Small", "Large"]
method_names = ["KW", "BCOP"]
num_archs = len(arch_names)
num_methods = len(method_names)
fmt = "l" + "c" * num_methods
num_cols = 1 + num_methods
with doc.create(Tabularx(fmt)) as data_table:
headers = tuple(
map(lambda x: NoEscape(boldify(x)), ("", ) + tuple(method_names)))
data_table.add_row(headers)
cmidrule(data_table, 1, num_cols)
for i, arch_name in enumerate(arch_names):
data_table.add_row((arch_name, ) + ("", ) * num_methods)
data_table.append(
UnsafeCommand("cmidrule", "{}-{}".format(1, num_cols)))
for j, config_name in enumerate(config_names):
row = (config_name, )
row += populate_numbers([
results[(
dataset_name,
arch_name,
method_name,
None,
config_name,
eps,
)] for method_name in method_names
])
data_table.add_row(row)
if i != num_archs - 1:
cmidrule(data_table, 1, num_cols)
def add_table(doc, path, caption):
table_data = pd.read_csv(path)
alignment = 'X'
n_columns = table_data.shape[1]
fmt = '{}|{}'.format(alignment, alignment * (n_columns - 1))
with doc.create(Table()) as table:
with doc.create(Tabularx(fmt)) as tabularx:
# Table header
tabularx.add_hline()
empty_title_columns = table_data.columns.str.contains('unnamed',
case=False)
title_columns = table_data.columns.values
title_columns[empty_title_columns] = ''
tabularx.add_row(title_columns)
tabularx.add_hline()
# Data
for row in table_data.itertuples(index=False):
tabularx.add_row(row)
tabularx.add_hline()
table.add_caption(caption)
def save_report(model, file_name, detailed_traces=2):
print('Saving analytics report to {}.tex and {}.pdf'.format(
file_name, file_name))
inference_network = model._inference_network
iter_per_sec = inference_network._total_train_iterations / inference_network._total_train_seconds
traces_per_sec = inference_network._total_train_traces / inference_network._total_train_seconds
traces_per_iter = inference_network._total_train_traces / inference_network._total_train_iterations
train_loss_initial = inference_network._history_train_loss[0]
train_loss_final = inference_network._history_train_loss[-1]
train_loss_change = train_loss_final - train_loss_initial
train_loss_change_per_sec = train_loss_change / inference_network._total_train_seconds
train_loss_change_per_iter = train_loss_change / inference_network._total_train_iterations
train_loss_change_per_trace = train_loss_change / inference_network._total_train_traces
valid_loss_initial = inference_network._history_valid_loss[0]
valid_loss_final = inference_network._history_valid_loss[-1]
valid_loss_change = valid_loss_final - valid_loss_initial
valid_loss_change_per_sec = valid_loss_change / inference_network._total_train_seconds
valid_loss_change_per_iter = valid_loss_change / inference_network._total_train_iterations
valid_loss_change_per_trace = valid_loss_change / inference_network._total_train_traces
sys.stdout.write(
'Generating report... \r')
sys.stdout.flush()
geometry_options = {
'tmargin': '1.5cm',
'lmargin': '1cm',
'rmargin': '1cm',
'bmargin': '1.5cm'
}
doc = Document('basic', geometry_options=geometry_options)
doc.preamble.append(NoEscape(r'\usepackage[none]{hyphenat}'))
doc.preamble.append(NoEscape(r'\usepackage{float}'))
# doc.preamble.append(NoEscape(r'\renewcommand{\familydefault}{\ttdefault}'))
doc.preamble.append(Command('title', 'pyprob analytics: ' + model.name))
doc.preamble.append(
Command(
'date',
NoEscape(datetime.datetime.now().strftime('%Y-%m-%d %H:%M:%S'))))
doc.append(NoEscape(r'\maketitle'))
# doc.append(NoEscape(r'\small'))
print('Analytics: Current system')
with doc.create(Section('Current system', numbering=False)):
with doc.create(Tabularx('ll')) as table:
table.add_row(('pyprob version', __version__))
table.add_row(('PyTorch version', torch.__version__))
# doc.append(NoEscape(r'\newpage'))
print('Analytics: Inference network')
with doc.create(Section('Inference network', numbering=False)):
print('Analytics: Inference network.File')
with doc.create(Section('File')):
with doc.create(Tabularx('ll')) as table:
# table.add_row(('File name', file_name))
# file_size = '{:,}'.format(os.path.getsize(file_name))
# table.add_row(('File size', file_size + ' Bytes'))
table.add_row(('Created', inference_network._created))
table.add_row(('Modified', inference_network._modified))
table.add_row(('Updates to file', inference_network._updates))
print('Analytics: Inference network.Training')
with doc.create(Section('Training')):
with doc.create(Tabularx('ll')) as table:
table.add_row(
('pyprob version', inference_network._pyprob_version))
table.add_row(
('PyTorch version', inference_network._torch_version))
table.add_row(('Trained on', inference_network._trained_on))
table.add_row(('Total training time', '{0}'.format(
util.days_hours_mins_secs_str(
inference_network._total_train_seconds))))
table.add_row(
('Total training traces',
'{:,}'.format(inference_network._total_train_traces)))
table.add_row(('Traces / s', '{:,.2f}'.format(traces_per_sec)))
table.add_row(
('Traces / iteration', '{:,.2f}'.format(traces_per_iter)))
table.add_row(
('Iterations',
'{:,}'.format(inference_network._total_train_iterations)))
table.add_row(
('Iterations / s', '{:,.2f}'.format(iter_per_sec)))
table.add_row(('Optimizer', inference_network._optimizer_type))
table.add_row(('Validation set size',
inference_network._valid_batch.length))
print('Analytics: Inference network.Training loss')
with doc.create(Subsection('Training loss')):
with doc.create(Tabularx('ll')) as table:
table.add_row(
('Initial loss', '{:+.6e}'.format(train_loss_initial)))
table.add_row(
('Final loss', '{:+.6e}'.format(train_loss_final)))
table.add_row(('Loss change / s',
'{:+.6e}'.format(train_loss_change_per_sec)))
table.add_row(('Loss change / iteration',
'{:+.6e}'.format(train_loss_change_per_iter)))
table.add_row(('Loss change / trace',
'{:+.6e}'.format(train_loss_change_per_trace)))
print('Analytics: Inference network.Validation loss')
with doc.create(Subsection('Validation loss')):
with doc.create(Tabularx('ll')) as table:
table.add_row(
('Initial loss', '{:+.6e}'.format(valid_loss_initial)))
table.add_row(
('Final loss', '{:+.6e}'.format(valid_loss_final)))
table.add_row(('Loss change / s',
'{:+.6e}'.format(valid_loss_change_per_sec)))
table.add_row(('Loss change / iteration',
'{:+.6e}'.format(valid_loss_change_per_iter)))
table.add_row(('Loss change / trace',
'{:+.6e}'.format(valid_loss_change_per_trace)))
with doc.create(Figure(position='H')) as plot:
fig = plt.figure(figsize=(10, 6))
ax = plt.subplot(111)
ax.plot(inference_network._history_train_loss_trace,
inference_network._history_train_loss,
label='Training')
ax.plot(inference_network._history_valid_loss_trace,
inference_network._history_valid_loss,
label='Validation')
ax.legend()
plt.xlabel('Training traces')
plt.ylabel('Loss')
plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption('Loss plot.')
print('Analytics: Inference network.Neural network modules')
with doc.create(Section('Neural network modules')):
with doc.create(Tabularx('ll')) as table:
table.add_row(
('Total trainable parameters',
'{:,}'.format(inference_network._history_num_params[-1])))
# table.add_row(('Softmax boost', inference_network.softmax_boost))
# table.add_row(('Dropout', inference_network.dropout))
# table.add_row(('Standardize inputs', inference_network.standardize_observes))
with doc.create(Figure(position='H')) as plot:
fig = plt.figure(figsize=(10, 4))
ax = plt.subplot(111)
ax.plot(inference_network._history_num_params_trace,
inference_network._history_num_params)
plt.xlabel('Training traces')
plt.ylabel('Number of parameters')
plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption('Number of parameters.')
doc.append(NoEscape(r'\newpage'))
print(
'Analytics: Inference network.Neural network modules.All modules'
)
with doc.create(Subsection('All modules')):
doc.append(str(inference_network))
for m_name, m in inference_network.named_modules():
if (m_name != ''):
regex = r'(sample_embedding_layer\(\S*\)._)|(proposal_layer\(\S*\)._)|(_observe_embedding_layer.)|(_lstm)'
if len(list(re.finditer(regex, m_name))) > 0:
# if ('_observe_embedding_layer.' in m_name) or ('sample_embedding_layer.' in m_name) or ('proposal_layer.' in m_name):
doc.append(NoEscape(r'\newpage'))
with doc.create(Subsubsection(m_name)):
doc.append(str(m))
for p_name, p in m.named_parameters():
if not 'bias' in p_name:
with doc.create(
Figure(position='H')) as plot:
fig = plt.figure(figsize=(10, 10))
ax = plt.subplot(111)
plt.imshow(np.transpose(
util.weights_to_image(p),
(1, 2, 0)),
interpolation='none')
plt.axis('off')
plot.add_plot(
width=NoEscape(r'\textwidth'))
plot.add_caption(m_name + '_' + p_name)
# doc.append(NoEscape(r'\newpage'))
# print('Analytics: Inference network.Neural network modules.Address embeddings')
# with doc.create(Subsection('Address embeddings')):
# for p_name, p in inference_network.named_parameters():
# if ('address_embedding' in p_name):
# with doc.create(Figure(position='H')) as plot:
# fig = plt.figure(figsize=(10,10))
# ax = plt.subplot(111)
# plt.imshow(np.transpose(util.weights_to_image(p),(1,2,0)), interpolation='none')
# plt.axis('off')
# plot.add_plot(width=NoEscape(r'\textwidth'))
# plot.add_caption(FootnoteText(p_name.replace('::', ':: ')))
gc.collect()
doc.append(NoEscape(r'\newpage'))
print('Analytics: Inference network.Traces')
with doc.create(Section('Traces')):
with doc.create(Tabularx('ll')) as table:
table.add_row(
('Total training traces',
'{:,}'.format(inference_network._total_train_traces)))
print(
'Analytics: Inference network.Traces.Distributions encountered'
)
with doc.create(Subsection('Distributions encountered')):
with doc.create(Tabularx('ll')) as table:
# print([v[2] for v in inference_network._address_stats.values()])
distributions = set([
v[2]
for v in inference_network._address_stats.values()
])
num_distributions = len(distributions)
table.add_row(
('Number of distributions', num_distributions))
table.add_empty_row()
for distribution in distributions:
table.add_row((distribution, ''))
print('Analytics: Inference network.Traces.Addresses encountered')
with doc.create(Subsection('Addresses encountered')):
with doc.create(Tabularx('lX')) as table:
num_addresses_all = len(
inference_network._address_stats.keys())
table.add_row(('Number of addresses', num_addresses_all))
num_addresses_controlled = len([
k for k, v in inference_network._address_stats.items()
if v[3]
])
num_addresses_replaced = len([
k for k, v in inference_network._address_stats.items()
if v[3] and v[4]
])
num_addresses_observed = len([
k for k, v in inference_network._address_stats.items()
if v[5]
])
table.add_row(
(TextColor('red', 'Number of addresses (controlled)'),
TextColor('red', num_addresses_controlled)))
table.add_row((TextColor('green',
'Number of addresses (replaced)'),
TextColor('green', num_addresses_replaced)))
table.add_row((TextColor('blue',
'Number of addresses (observed)'),
TextColor('blue', num_addresses_observed)))
table.add_row(
('Number of addresses (uncontrolled)',
num_addresses_all - num_addresses_controlled -
num_addresses_observed))
table.add_empty_row()
doc.append('\n')
with doc.create(LongTable('llllllp{12cm}')) as table:
# table.add_empty_row()
table.add_row(FootnoteText('Count'), FootnoteText('ID'),
FootnoteText('Distrib.'),
FootnoteText('Ctrl.'),
FootnoteText('Replace'),
FootnoteText('Obs.'),
FootnoteText('Address'))
table.add_hline()
# address_to_abbrev = {}
# abbrev_to_address =
# abbrev_i = 0
# sorted_addresses = sorted(inference_network.address_histogram.items(), key=lambda x:x[1], reverse=True)
plt_all_addresses = []
plt_all_counts = []
plt_all_colors = []
plt_controlled_addresses = []
plt_controlled_counts = []
plt_controlled_colors = []
address_id_to_count = {}
address_id_to_color = {}
address_id_count_total = 0
for address, vals in inference_network._address_stats.items(
):
address = address.replace('::', ':: ')
count = vals[0]
address_id = vals[1]
distribution = vals[2]
control = vals[3]
replace = vals[4]
observed = vals[5]
plt_all_addresses.append(address_id)
plt_all_counts.append(1 if replace else count)
address_id_to_count[address_id] = count
address_id_count_total += count
if control:
if replace:
color = 'green'
plt_controlled_counts.append(1)
else:
color = 'red'
plt_controlled_counts.append(count)
plt_controlled_addresses.append(address_id)
plt_controlled_colors.append(color)
elif observed:
color = 'blue'
plt_controlled_addresses.append(address_id)
plt_controlled_colors.append(color)
plt_controlled_counts.append(count)
else:
color = 'black'
table.add_row(
(TextColor(color,
FootnoteText('{:,}'.format(count))),
TextColor(color, FootnoteText(address_id)),
TextColor(color, FootnoteText(distribution)),
TextColor(color, FootnoteText(control)),
TextColor(color, FootnoteText(replace)),
TextColor(color, FootnoteText(observed)),
TextColor(color, FootnoteText(address))))
plt_all_colors.append(color)
address_id_to_color[address_id] = color
gc.collect()
with doc.create(Figure(position='H')) as plot:
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
plt_x = range(len(plt_all_addresses))
ax.bar(plt_x, plt_all_counts, color=plt_all_colors)
plt.xticks(plt_x, plt_all_addresses)
plt.xlabel('Address ID')
plt.ylabel('Count')
# plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption(
'Histogram of all addresses. Red: controlled, green: replaced, black: uncontrolled, blue: observed.'
)
with doc.create(Figure(position='H')) as plot:
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
plt_x = range(len(plt_controlled_addresses))
ax.bar(plt_x,
plt_controlled_counts,
color=plt_controlled_colors)
plt.xticks(plt_x, plt_controlled_addresses)
plt.xlabel('Address ID')
plt.ylabel('Count')
# plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption(
'Histogram of controlled and observed addresses. Red: controlled, green: replaced, blue: observed.'
)
gc.collect()
print('Analytics: Inference network.Traces.Trace lengths')
with doc.create(Subsection('Trace lengths')):
with doc.create(Tabularx('ll')) as table:
trace_lengths_controlled = [
v[3] for v in inference_network._trace_stats.values()
]
trace_lengths_controlled_min = min(
trace_lengths_controlled)
trace_lengths_controlled_max = max(
trace_lengths_controlled)
trace_lengths_all = [
v[2] for v in inference_network._trace_stats.values()
]
trace_lengths_all_min = min(trace_lengths_all)
trace_lengths_all_max = max(trace_lengths_all)
s_controlled = 0
s_all = 0
total_count = 0
for _, v in inference_network._trace_stats.items():
trace_length_controlled = v[3]
trace_length_all = v[2]
count = v[0]
s_controlled += trace_length_controlled * count
total_count += count
s_all += trace_length_all * count
trace_length_controlled_mean = s_controlled / total_count
trace_length_all_mean = s_all / total_count
table.add_row(('Trace length min',
'{:,}'.format(trace_lengths_all_min)))
table.add_row(('Trace length max',
'{:,}'.format(trace_lengths_all_max)))
table.add_row(('Trace length mean',
'{:.2f}'.format(trace_length_all_mean)))
table.add_row(
('Controlled trace length min',
'{:,}'.format(trace_lengths_controlled_min)))
table.add_row(
('Controlled trace length max',
'{:,}'.format(trace_lengths_controlled_max)))
table.add_row(
('Controlled trace length mean',
'{:.2f}'.format(trace_length_controlled_mean)))
with doc.create(Figure(position='H')) as plot:
plt_counter = dict(Counter(trace_lengths_all))
plt_lengths = [
i for i in range(0, trace_lengths_all_max + 1)
]
plt_counts = [
plt_counter[i] if i in plt_counter else 0
for i in range(0, trace_lengths_all_max + 1)
]
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
ax.bar(plt_lengths,
plt_counts,
width=trace_lengths_all_max / 500.)
plt.xlabel('Length')
plt.ylabel('Count')
# plt.yscale('log')
# plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption('Histogram of trace lengths.')
with doc.create(Figure(position='H')) as plot:
plt_counter = dict(Counter(trace_lengths_controlled))
plt_lengths = [
i for i in range(0, trace_lengths_controlled_max + 1)
]
plt_counts = [
plt_counter[i] if i in plt_counter else 0
for i in range(0, trace_lengths_controlled_max + 1)
]
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
ax.bar(plt_lengths, plt_counts)
plt.xlabel('Length')
plt.ylabel('Count')
# plt.yscale('log')
# plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption('Histogram of controlled trace lengths.')
gc.collect()
print(
'Analytics: Inference network.Traces.Unique traces encountered'
)
with doc.create(Subsection('Unique traces encountered')):
detailed_traces = min(len(inference_network._trace_stats),
detailed_traces)
with doc.create(Tabularx('ll')) as table:
table.add_row(
('Unique traces encountered',
'{:,}'.format(len(inference_network._trace_stats))))
table.add_row(('Unique traces rendered in detail',
'{:,}'.format(detailed_traces)))
doc.append('\n')
with doc.create(LongTable('llllp{15cm}')) as table:
# table.add_empty_row()
table.add_row(FootnoteText('Count'), FootnoteText('ID'),
FootnoteText('Len.'),
FootnoteText('Ctrl. len.'),
FootnoteText('Unique trace'))
table.add_hline()
plt_traces = []
plt_counts = []
for trace_str, vals in inference_network._trace_stats.items(
):
count = vals[0]
trace_id = vals[1]
length_all = vals[2]
length_controlled = vals[3]
addresses_controlled = vals[4]
addresses_controlled_str = ' '.join(
addresses_controlled)
plt_traces.append(trace_id)
plt_counts.append(count)
table.add_row(
(FootnoteText('{:,}'.format(count)),
FootnoteText(trace_id),
FootnoteText('{:,}'.format(length_all)),
FootnoteText('{:,}'.format(length_controlled)),
FootnoteText(addresses_controlled_str)))
with doc.create(Figure(position='H')) as plot:
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
plt_x = range(len(plt_traces))
ax.bar(plt_x, plt_counts)
plt.xticks(plt_x, plt_traces)
plt.xlabel('Trace ID')
plt.ylabel('Count')
# plt.grid()
fig.tight_layout()
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption('Histogram of unique traces.')
with doc.create(Figure(position='H')) as plot:
sorted_trace_stats = OrderedDict(
sorted(dict(inference_network._trace_stats).items(),
key=lambda x: x[1],
reverse=True))
master_trace_pairs = {}
transition_count_total = 0
for trace_str, vals in sorted_trace_stats.items():
count = vals[0]
ta = vals[4]
for left, right in zip(ta, ta[1:]):
if (left, right) in master_trace_pairs:
master_trace_pairs[(left, right)] += count
else:
master_trace_pairs[(left, right)] = count
transition_count_total += count
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
master_graph = pydotplus.graphviz.Dot(graph_type='digraph',
rankdir='LR')
transition_count_max = 0
for p, count in master_trace_pairs.items():
if count > transition_count_max:
transition_count_max = count
nodes = master_graph.get_node(p[0])
if len(nodes) > 0:
n0 = nodes[0]
else:
n0 = pydotplus.Node(p[0])
master_graph.add_node(n0)
nodes = master_graph.get_node(p[1])
if len(nodes) > 0:
n1 = nodes[0]
else:
n1 = pydotplus.Node(p[1])
master_graph.add_node(n1)
master_graph.add_edge(
pydotplus.Edge(n0, n1, weight=count))
for node in master_graph.get_nodes():
node.set_color('gray')
node.set_fontcolor('gray')
for edge in master_graph.get_edges():
edge.set_color('gray')
master_graph_annotated = pydotplus.graphviz.graph_from_dot_data(
master_graph.to_string())
for node in master_graph_annotated.get_nodes():
# color = util.rgb_to_hex(util.rgb_blend((1, 1, 1), (1, 0, 0), address_id_to_count[node.obj_dict['name']] / address_id_count_total))
address_id = node.obj_dict['name']
node.set_style('filled')
node.set_fillcolor(address_id_to_color[address_id])
node.set_color('black')
node.set_fontcolor('black')
for edge in master_graph_annotated.get_edges():
(left, right) = edge.obj_dict['points']
count = master_trace_pairs[(left, right)]
edge.set_label(count)
# color = util.rgb_to_hex((1.5*(count/transition_count_total), 0, 0))
edge.set_color('black')
edge.set_penwidth(2.5 * count / transition_count_max)
png_str = master_graph_annotated.create_png(
prog=['dot', '-Gsize=90', '-Gdpi=600'])
bio = BytesIO()
bio.write(png_str)
bio.seek(0)
img = np.asarray(mpimg.imread(bio))
plt.imshow(util.crop_image(img), interpolation='bilinear')
plt.axis('off')
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption(
'Succession of controlled addresses (accumulated over all traces). Red: controlled, green: replaced, blue: observed.'
)
for trace_str, vals in OrderedDict(
islice(sorted_trace_stats.items(), 0,
detailed_traces)).items():
count = vals[0]
trace_id = vals[1]
doc.append(NoEscape(r'\newpage'))
with doc.create(Subsubsection('Unique trace ' + trace_id)):
sys.stdout.write(
'Rendering unique trace {0}... \r'
.format(trace_id))
sys.stdout.flush()
addresses = len(plt_controlled_addresses)
trace_addresses = vals[4]
with doc.create(Tabularx('ll')) as table:
table.add_row(FootnoteText('Count'),
FootnoteText('{:,}'.format(count)))
table.add_row(
FootnoteText('Controlled length'),
FootnoteText('{:,}'.format(
len(trace_addresses))))
doc.append('\n')
im = np.zeros((addresses, len(trace_addresses)))
for i in range(len(trace_addresses)):
address = trace_addresses[i]
address_i = plt_controlled_addresses.index(address)
im[address_i, i] = 1
truncate = 100
for col_start in range(0, len(trace_addresses),
truncate):
col_end = min(col_start + truncate,
len(trace_addresses))
with doc.create(Figure(position='H')) as plot:
fig = plt.figure(figsize=(20 * (
(col_end + 4 - col_start) / truncate), 4))
ax = plt.subplot(111)
# ax.imshow(im,cmap=plt.get_cmap('Greys'))
sns.heatmap(
im[:, col_start:col_end],
cbar=False,
linecolor='lightgray',
linewidths=.5,
cmap='Greys',
yticklabels=plt_controlled_addresses,
xticklabels=np.arange(col_start, col_end))
plt.yticks(rotation=0)
fig.tight_layout()
plot.add_plot(
width=NoEscape(r'{0}\textwidth'.format(
(col_end + 4 - col_start) / truncate)),
placement=NoEscape(r'\raggedright'))
with doc.create(Figure(position='H')) as plot:
pairs = {}
for left, right in zip(trace_addresses,
trace_addresses[1:]):
if (left, right) in pairs:
pairs[(left, right)] += 1
else:
pairs[(left, right)] = 1
fig = plt.figure(figsize=(10, 5))
ax = plt.subplot(111)
graph = pydotplus.graphviz.graph_from_dot_data(
master_graph.to_string())
trace_address_to_count = {}
for address in trace_addresses:
if address in trace_address_to_count:
trace_address_to_count[address] += 1
else:
trace_address_to_count[address] = 1
transition_count_max = 0
for p, count in pairs.items():
if count > transition_count_max:
transition_count_max = count
left_node = graph.get_node(p[0])[0]
right_node = graph.get_node(p[1])[0]
edge = graph.get_edge(p[0], p[1])[0]
# color = util.rgb_to_hex(util.rgb_blend((1,1,1), (1,0,0), trace_address_to_count[p[0]] / len(trace_addresses)))
left_node.set_style('filled')
left_node.set_fillcolor(
address_id_to_color[p[0]])
left_node.set_color('black')
left_node.set_fontcolor('black')
# color = util.rgb_to_hex(util.rgb_blend((1,1,1), (1,0,0), trace_address_to_count[p[0]] / len(trace_addresses)))
right_node.set_style('filled')
right_node.set_fillcolor(
address_id_to_color[p[1]])
right_node.set_color('black')
right_node.set_fontcolor('black')
# (left, right) = edge.obj_dict['points']
edge.set_label(count)
# color = util.rgb_to_hex((1.5*(count/len(trace_addresses)),0,0))
edge.set_color('black')
edge.set_penwidth(2.5 * count /
transition_count_max)
png_str = graph.create_png(
prog=['dot', '-Gsize=90', '-Gdpi=600'])
bio = BytesIO()
bio.write(png_str)
bio.seek(0)
img = np.asarray(mpimg.imread(bio))
plt.imshow(util.crop_image(img),
interpolation='bilinear')
plt.axis('off')
plot.add_plot(width=NoEscape(r'\textwidth'))
plot.add_caption(
'Succession of controlled addresses (for one trace of type '
+ trace_id +
'). Red: controlled, green: replaced, blue: observed.'
)
with doc.create(Tabularx('lp{16cm}')) as table:
table.add_row(
FootnoteText('Trace'),
FootnoteText(' '.join(trace_addresses)))
doc.generate_pdf(file_name, clean_tex=False)
sys.stdout.write(
' \r')
sys.stdout.flush()
def generate_unique():
geometry_options = {
"head": "40pt",
"margin": "0.5in",
"bottom": "0.6in",
"includeheadfoot": True
}
doc = Document(geometry_options=geometry_options)
# Generating first page style
first_page = PageStyle("firstpage")
# Header image
with first_page.create(Head("L")) as header_left:
with header_left.create(
MiniPage(width=NoEscape(r"0.49\textwidth"),
pos='c')) as logo_wrapper:
logo_file = os.path.join(os.path.dirname(__file__),
'sample-logo.png')
logo_wrapper.append(
StandAloneGraphic(image_options="width=120px",
filename=logo_file))
# Add document title
with first_page.create(Head("R")) as right_header:
with right_header.create(
MiniPage(width=NoEscape(r"0.49\textwidth"), pos='c',
align='r')) as title_wrapper:
title_wrapper.append(LargeText(bold("Bank Account Statement")))
title_wrapper.append(LineBreak())
title_wrapper.append(MediumText(bold("Date")))
# Add footer
with first_page.create(Foot("C")) as footer:
message = "Important message please read"
with footer.create(
Tabularx(
"X X X X",
width_argument=NoEscape(r"\textwidth"))) as footer_table:
footer_table.add_row(
[MultiColumn(4, align='l', data=TextColor("blue", message))])
footer_table.add_hline(color="blue")
footer_table.add_empty_row()
branch_address = MiniPage(width=NoEscape(r"0.25\textwidth"),
pos='t')
branch_address.append("960 - 22nd street east")
branch_address.append("\n")
branch_address.append("Saskatoon, SK")
document_details = MiniPage(width=NoEscape(r"0.25\textwidth"),
pos='t',
align='r')
document_details.append("1000")
document_details.append(LineBreak())
document_details.append(simple_page_number())
footer_table.add_row([
branch_address, branch_address, branch_address,
document_details
])
doc.preamble.append(first_page)
# End first page style
# Add customer information
with doc.create(Tabu("X[l] X[r]")) as first_page_table:
customer = MiniPage(width=NoEscape(r"0.49\textwidth"), pos='h')
customer.append("Verna Volcano")
customer.append("\n")
customer.append("For some Person")
customer.append("\n")
customer.append("Address1")
customer.append("\n")
customer.append("Address2")
customer.append("\n")
customer.append("Address3")
# Add branch information
branch = MiniPage(width=NoEscape(r"0.49\textwidth"),
pos='t!',
align='r')
branch.append("Branch no.")
branch.append(LineBreak())
branch.append(bold("1181..."))
branch.append(LineBreak())
branch.append(bold("TIB Cheque"))
first_page_table.add_row([customer, branch])
first_page_table.add_empty_row()
doc.change_document_style("firstpage")
doc.add_color(name="lightgray", model="gray", description="0.80")
# Add statement table
with doc.create(LongTabu("X[l] X[2l] X[r] X[r] X[r]",
row_height=1.5)) as data_table:
data_table.add_row(
["date", "description", "debits($)", "credits($)", "balance($)"],
mapper=bold,
color="lightgray")
data_table.add_empty_row()
data_table.add_hline()
row = ["2016-JUN-01", "Test", "$100", "$1000", "-$900"]
for i in range(30):
if (i % 2) == 0:
data_table.add_row(row, color="lightgray")
else:
data_table.add_row(row)
doc.append(NewPage())
# Add cheque images
with doc.create(LongTabu("X[c] X[c]")) as cheque_table:
cheque_file = os.path.join(os.path.dirname(__file__),
'chequeexample.png')
cheque = StandAloneGraphic(cheque_file, image_options="width=200px")
for i in range(0, 20):
cheque_table.add_row([cheque, cheque])
doc.generate_pdf("complex_report", clean_tex=False)
def save_latex(self,
uiObj,
Design_Check,
reportsummary,
filename,
rel_path,
Disp_2d_image,
Disp_3d_image,
module=''):
companyname = str(reportsummary["ProfileSummary"]['CompanyName'])
companylogo = str(reportsummary["ProfileSummary"]['CompanyLogo'])
groupteamname = str(reportsummary["ProfileSummary"]['Group/TeamName'])
designer = str(reportsummary["ProfileSummary"]['Designer'])
projecttitle = str(reportsummary['ProjectTitle'])
subtitle = str(reportsummary['Subtitle'])
jobnumber = str(reportsummary['JobNumber'])
client = str(reportsummary['Client'])
does_design_exist = reportsummary['does_design_exist']
osdagheader = '/ResourceFiles/images/Osdag_header_report.png'
# Add document header
geometry_options = {
"top": "5cm",
"hmargin": "2cm",
"headheight": "100pt",
"footskip": "100pt",
"bottom": "5cm"
}
doc = Document(geometry_options=geometry_options, indent=False)
doc.packages.append(Package('amsmath'))
doc.packages.append(Package('graphicx'))
doc.packages.append(Package('needspace'))
doc.append(pyl.Command('fontsize', arguments=[8, 12]))
doc.append(pyl.Command('selectfont'))
doc.add_color('OsdagGreen', 'RGB', '153,169,36')
doc.add_color('PassColor', 'RGB', '153,169,36')
doc.add_color('Red', 'RGB', '255,0,0')
doc.add_color('Green', 'RGB', '0,200,0')
doc.add_color('FailColor', 'HTML', '933A16')
header = PageStyle("header")
# Create center header
with header.create(Head("C")):
with header.create(Tabularx('|l|p{4cm}|l|X|')) as table:
table.add_hline()
# MultiColumn(4)
table.add_row((
MultiColumn(
2,
align='|c|',
data=('' if companylogo is '' else StandAloneGraphic(
image_options="height=0.95cm",
filename=companylogo))),
MultiColumn(2,
align='|c|',
data=[
'Created with',
StandAloneGraphic(
image_options="width=4.0cm,height=1cm",
filename=rel_path + osdagheader)
]),
))
table.add_hline()
table.add_row(('Company Name', companyname, 'Project Title',
projecttitle),
color='OsdagGreen')
table.add_hline()
table.add_row(
('Group/Team Name', groupteamname, 'Subtitle', subtitle),
color='OsdagGreen')
table.add_hline()
table.add_row(('Designer', designer, 'Job Number', jobnumber),
color='OsdagGreen')
table.add_hline()
table.add_row(
('Date', time.strftime("%d /%m /%Y"), 'Client', client),
color='OsdagGreen')
table.add_hline()
# Create right footer
with header.create(Foot("R")):
header.append(NoEscape(r'Page \thepage'))
#
# doc.preamble.append(header)
# doc.change_document_style("header")
# Add Heading
# with doc.create(MiniPage(align='c')):
doc.preamble.append(header)
doc.change_document_style("header")
with doc.create(Section('Input Parameters')):
with doc.create(
LongTable('|p{5cm}|p{2.5cm}|p{1.5cm}|p{3cm}|p{3.5cm}|',
row_height=1.2)) as table:
table.add_hline()
for i in uiObj:
# row_cells = ('9', MultiColumn(3, align='|c|', data='Multicolumn not on left'))
if i == "Selected Section Details" or i == KEY_DISP_ANGLE_LIST or i == KEY_DISP_TOPANGLE_LIST or i == KEY_DISP_CLEAT_ANGLE_LIST:
# if type(uiObj[i]) == list:
continue
if type(uiObj[i]) == dict:
table.add_hline()
sectiondetails = uiObj[i]
image_name = sectiondetails[KEY_DISP_SEC_PROFILE]
Img_path = '/ResourceFiles/images/' + image_name + '.png'
if (len(sectiondetails)) % 2 == 0:
# merge_rows = int(round_up(len(sectiondetails),2)/2 + 2)
merge_rows = int((len(sectiondetails) / 2)) + 2
else:
merge_rows = round_up((len(sectiondetails) / 2), 2)
if (len(sectiondetails)) % 2 == 0:
sectiondetails[''] = ''
a = list(sectiondetails.keys())
# index=0
for x in range(1, (merge_rows + 1)):
# table.add_row("Col.Det.",i,columndetails[i])
if x == 1:
table.add_row((
MultiRow(
merge_rows,
data=StandAloneGraphic(
image_options=
"width=5cm,height=5cm",
filename=rel_path + Img_path)),
MultiColumn(2, align='|c|', data=a[x]),
MultiColumn(2,
align='|c|',
data=sectiondetails[a[x]]),
))
elif x <= 4:
table.add_row((
'',
MultiColumn(2,
align='|c|',
data=NoEscape(a[x])),
MultiColumn(2,
align='|c|',
data=NoEscape(
sectiondetails[a[x]])),
))
else:
table.add_row((
'',
NoEscape(a[x]),
sectiondetails[a[x]],
NoEscape(a[merge_rows + x - 4]),
sectiondetails[a[merge_rows + x - 4]],
))
table.add_hline(2, 5)
elif uiObj[i] == "TITLE":
table.add_hline()
table.add_row((MultiColumn(
5,
align='|c|',
data=bold(i),
), ))
table.add_hline()
elif i == 'Section Size*':
table.add_hline()
table.add_row((
MultiColumn(
3,
align='|c|',
data=i,
),
MultiColumn(2,
align='|c|',
data="Ref List of Input Section"),
))
table.add_hline()
elif len(str(uiObj[i])) > 55 and type(
uiObj[i]) != pyl.math.Math:
str_len = len(str(uiObj[i]))
loop_len = round_up((str_len / 55), 1, 1)
for j in range(1, loop_len + 1):
b = 55 * j + 1
if j == 1:
table.add_row((
MultiColumn(3,
align='|c|',
data=MultiRow(loop_len,
data=i)),
MultiColumn(2,
align='|c|',
data=uiObj[i][0:b]),
))
else:
table.add_row((
MultiColumn(3,
align='|c|',
data=MultiRow(loop_len,
data="")),
MultiColumn(2,
align='|c|',
data=uiObj[i][b - 55:b]),
))
table.add_hline()
else:
table.add_hline()
table.add_row((
MultiColumn(3, align='|c|', data=NoEscape(i)),
MultiColumn(2, align='|c|', data=uiObj[i]),
))
table.add_hline()
for i in uiObj:
if i == 'Section Size*' or i == KEY_DISP_ANGLE_LIST or i == KEY_DISP_TOPANGLE_LIST or i == KEY_DISP_CLEAT_ANGLE_LIST:
with doc.create(Subsection("List of Input Section")):
# with doc.create(LongTable('|p{8cm}|p{8cm}|', row_height=1.2)) as table:
with doc.create(Tabularx('|p{4cm}|X|',
row_height=1.2)) as table:
table.add_hline()
table.add_row((
MultiColumn(
1,
align='|c|',
data=i,
),
MultiColumn(1,
align='|X|',
data=uiObj[i].strip("[]")),
))
# str_len = len(uiObj[i])
# loop_len = round_up((str_len/100),1,1)
# table.add_hline()
# for j in range(1,loop_len+1):
# b= 100*j+1
# if j ==1:
# table.add_row((MultiColumn(1, align='|c|', data=i, ),
# MultiColumn(1, align='|X|', data=uiObj[i][0:b]),))
# else:
# table.add_row((MultiColumn(1, align='|c|', data=" ", ),
# MultiColumn(1, align='|X|', data=uiObj[i][b-100:b]),))
table.add_hline()
doc.append(
pyl.Command('Needspace', arguments=NoEscape(r'10\baselineskip')))
doc.append(NewPage())
count = 0
with doc.create(Section('Design Checks')):
with doc.create(
Tabularx(
r'|>{\centering}p{12.5cm}|>{\centering\arraybackslash}X|',
row_height=1.2)) as table:
table.add_hline()
# Fail = TextColor("FailColor", bold("Fail"))
# Pass = TextColor("PassColor", bold("Pass"))
if does_design_exist != True:
table.add_row(bold('Design Status'),
color_cell("Red", bold("Fail")))
else:
table.add_row(bold('Design Status'),
color_cell("OsdagGreen", bold("Pass")))
table.add_hline()
for check in Design_Check:
if check[0] == 'SubSection':
if count >= 1:
# doc.append(NewPage())
doc.append(
pyl.Command(
'Needspace',
arguments=NoEscape(r'10\baselineskip')))
with doc.create(Subsection(check[1])):
#########################
# if uiObj== "WELDImage":
# table.add_hline()
# table.add_row((MultiColumn(5, align='|c|', data=bold(i), ),))
# table.add_hline()
# else:
#########################
with doc.create(LongTable(check[2], row_height=1.2)
) as table: # todo anjali remove
table.add_hline()
table.add_row(
('Check', 'Required', 'Provided', 'Remarks'),
color='OsdagGreen')
table.add_hline()
table.end_table_header()
table.add_hline()
count = count + 1
elif check[0] == "Selected":
if count >= 1:
# doc.append(NewPage())
doc.append(
pyl.Command(
'Needspace',
arguments=NoEscape(r'10\baselineskip')))
with doc.create(Subsection(check[1])):
with doc.create(LongTable(check[2],
row_height=1.2)) as table:
table.add_hline()
for i in uiObj:
# row_cells = ('9', MultiColumn(3, align='|c|', data='Multicolumn not on left'))
print(i)
if type(
uiObj[i]
) == dict and i == 'Selected Section Details':
table.add_hline()
sectiondetails = uiObj[i]
image_name = sectiondetails[
KEY_DISP_SEC_PROFILE]
Img_path = '/ResourceFiles/images/' + image_name + '.png'
if (len(sectiondetails)) % 2 == 0:
# merge_rows = int(round_up(len(sectiondetails),2)/2 + 2)
merge_rows = int(
round_up((len(sectiondetails) /
2), 1, 0) + 2)
else:
merge_rows = int(
round_up((len(sectiondetails) /
2), 1, 0) + 1)
print('Hi',
len(sectiondetails) / 2,
round_up(len(sectiondetails), 2) / 2,
merge_rows)
if (len(sectiondetails)) % 2 == 0:
sectiondetails[''] = ''
a = list(sectiondetails.keys())
# index=0
for x in range(1, (merge_rows + 1)):
# table.add_row("Col.Det.",i,columndetails[i])
if x == 1:
table.add_row((
MultiRow(
merge_rows,
data=StandAloneGraphic(
image_options=
"width=5cm,height=5cm",
filename=rel_path +
Img_path)),
MultiColumn(2,
align='|c|',
data=NoEscape(
a[x])),
MultiColumn(
2,
align='|c|',
data=NoEscape(
sectiondetails[a[x]])),
))
elif x <= 4:
table.add_row((
'',
MultiColumn(2,
align='|c|',
data=NoEscape(
a[x])),
MultiColumn(
2,
align='|c|',
data=sectiondetails[a[x]]),
))
else:
table.add_row((
'',
NoEscape(a[x]),
sectiondetails[a[x]],
NoEscape(a[merge_rows + x -
4]),
sectiondetails[a[merge_rows +
x - 4]],
))
table.add_hline(2, 5)
table.add_hline()
count = count + 1
else:
if check[3] == 'Fail':
table.add_row((NoEscape(check[0])), check[1], check[2],
TextColor("Red", bold(check[3])))
else:
table.add_row((NoEscape(check[0])), check[1], check[2],
TextColor("OsdagGreen", bold(check[3])))
table.add_hline()
# 2D images
if len(Disp_2d_image) != 0:
if module == KEY_DISP_BCENDPLATE or module == KEY_DISP_BB_EP_SPLICE:
if does_design_exist and sys.platform != 'darwin':
doc.append(NewPage())
weld_details = rel_path + Disp_2d_image[0]
detailing_details = rel_path + Disp_2d_image[1]
stiffener_details = rel_path + Disp_2d_image[2]
with doc.create(Section('2D Drawings (Typical)')):
with doc.create(Figure()) as image:
image.add_image(weld_details,
width=NoEscape(r'0.7\textwidth'),
placement=NoEscape(r'\centering'))
image.add_caption(
'Typical Weld Details -- Beam to End Plate Connection'
)
# doc.append(NewPage())
with doc.create(Figure()) as image_2:
image_2.add_image(
detailing_details,
width=NoEscape(r'0.7\textwidth'),
placement=NoEscape(r'\centering'))
image_2.add_caption('Typical Detailing')
# doc.append(NewPage())
with doc.create(Figure()) as image_3:
image_3.add_image(
stiffener_details,
width=NoEscape(r'0.9\textwidth'),
placement=NoEscape(r'\centering'))
image_3.add_caption('Typical Stiffener Details')
# doc.append(NewPage())
elif module == KEY_DISP_BASE_PLATE:
if does_design_exist and sys.platform != 'darwin':
doc.append(NewPage())
bp_sketch = rel_path + Disp_2d_image[0]
bp_detailing = rel_path + Disp_2d_image[1]
bp_weld = rel_path + Disp_2d_image[2]
bp_anchor = rel_path + Disp_2d_image[3]
bp_key = rel_path + Disp_2d_image[4]
with doc.create(Section('2D Drawings (Typical)')):
with doc.create(Figure()) as image_1:
image_1.add_image(
bp_sketch,
width=NoEscape(r'1.0\textwidth'),
placement=NoEscape(r'\centering'))
image_1.add_caption('Typical Base Plate Details')
# doc.append(NewPage())
with doc.create(Figure()) as image_2:
image_2.add_image(
bp_detailing,
width=NoEscape(r'1.0\textwidth'),
placement=NoEscape(r'\centering'))
image_2.add_caption('Typical Base Plate Detailing')
# doc.append(NewPage())
with doc.create(Figure()) as image_3:
image_3.add_image(
bp_weld,
width=NoEscape(r'1.0\textwidth'),
placement=NoEscape(r'\centering'))
image_3.add_caption('Typical Weld Details')
# doc.append(NewPage())
with doc.create(Figure()) as image_4:
image_4.add_image(
bp_anchor,
width=NoEscape(r'0.5\textwidth'),
placement=NoEscape(r'\centering'))
image_4.add_caption('Typical Anchor Bolt Details')
# doc.append(NewPage())
if len(Disp_2d_image[-1]) > 0:
with doc.create(Figure()) as image_5:
image_5.add_image(
bp_key,
width=NoEscape(r'0.9\textwidth'),
placement=NoEscape(r'\centering'))
image_5.add_caption(
'Typical Shear Key Details')
# doc.append(NewPage())
if does_design_exist and sys.platform != 'darwin':
doc.append(NewPage())
Disp_top_image = "/ResourceFiles/images/top.png"
Disp_side_image = "/ResourceFiles/images/side.png"
Disp_front_image = "/ResourceFiles/images/front.png"
view_3dimg_path = rel_path + Disp_3d_image
view_topimg_path = rel_path + Disp_top_image
view_sideimg_path = rel_path + Disp_side_image
view_frontimg_path = rel_path + Disp_front_image
with doc.create(Section('3D Views')):
with doc.create(
Tabularx(
r'|>{\centering}X|>{\centering\arraybackslash}X|',
row_height=1.2)) as table:
view_3dimg_path = rel_path + Disp_3d_image
view_topimg_path = rel_path + Disp_top_image
view_sideimg_path = rel_path + Disp_side_image
view_frontimg_path = rel_path + Disp_front_image
table.add_hline()
table.add_row([
StandAloneGraphic(image_options="height=4cm",
filename=view_3dimg_path),
StandAloneGraphic(image_options="height=4cm",
filename=view_topimg_path)
])
table.add_row('(a) 3D View', '(b) Top View')
table.add_hline()
table.add_row([
StandAloneGraphic(image_options="height=4cm",
filename=view_sideimg_path),
StandAloneGraphic(image_options="height=4cm",
filename=view_frontimg_path)
])
table.add_row('(c) Side View', '(d) Front View')
table.add_hline()
# with doc.create(Figure(position='h!')) as view_3D:
# view_3dimg_path = rel_path + Disp_3d_image
# # view_3D.add_image(filename=view_3dimg_path, width=NoEscape(r'\linewidth'))
#
# view_3D.add_image(filename=view_3dimg_path,width=NoEscape(r'\linewidth,height=6.5cm'))
#
# view_3D.add_caption('3D View')
with doc.create(Section('Design Log')):
doc.append(
pyl.Command('Needspace',
arguments=NoEscape(r'10\baselineskip')))
logger_msgs = reportsummary['logger_messages'].split('\n')
for msg in logger_msgs:
if ('WARNING' in msg):
colour = 'blue'
elif ('INFO' in msg):
colour = 'OsdagGreen'
elif ('ERROR' in msg):
colour = 'red'
else:
continue
doc.append(TextColor(colour, '\n' + msg))
try:
doc.generate_pdf(filename, compiler='pdflatex', clean_tex=False)
except:
pass
def generate_unique_dw(final_hvs1, final_hvs2, hl1_ch1, hl2_ch1, hl1_ch2,
hl2_ch2, sectors):
geometry_options = {
"head": "40pt",
"margin": "0.5in",
"bottom": "1.0in",
"includeheadfoot": True
}
doc = Document(indent=False, geometry_options=geometry_options)
# Generating first page style
first_page = PageStyle("firstpage")
# Header image
with first_page.create(Head("L")) as header_left:
with header_left.create(
MiniPage(width=NoEscape(r"0.49\textwidth"),
pos='c')) as logo_wrapper:
logo_file = os.path.join(os.path.dirname(__file__),
'../cernlogo.png')
logo_wrapper.append(
StandAloneGraphic(image_options="width=80px",
filename=logo_file))
# Add document title
with first_page.create(Head("R")) as right_header:
with right_header.create(
MiniPage(width=NoEscape(r"0.49\textwidth"), pos='c',
align='r')) as title_wrapper:
title_wrapper.append(LargeText(bold("ATLAS New Small Wheel")))
title_wrapper.append(LineBreak())
title_wrapper.append(bold("Integration Tests"))
title_wrapper.append(LineBreak())
title_wrapper.append(bold(now.strftime("%d-%m-%Y")))
title_wrapper.append(LineBreak())
title_wrapper.append("\n")
title_wrapper.append(
LargeText(bold("Double Wedge: " + str(DW_name))))
title_wrapper.append(LineBreak())
# Add footer
with first_page.create(Foot("C")) as footer:
with footer.create(
Tabularx(
"X X X ",
width_argument=NoEscape(r"\textwidth"))) as footer_table:
footer_table.add_empty_row()
footer_table.add_hline(color="blue")
branch_address1 = MiniPage(width=NoEscape(r"0.25\textwidth"),
pos='t')
branch_address1.append("Lorenzo Pezzotti")
branch_address1.append("\n")
branch_address1.append("*****@*****.**")
branch_address2 = MiniPage(width=NoEscape(r"0.25\textwidth"),
pos='t')
branch_address2.append("Alan Peyaud")
branch_address2.append("\n")
branch_address2.append("*****@*****.**")
branch_address3 = MiniPage(width=NoEscape(r"0.25\textwidth"),
pos='t')
branch_address3.append("Ivan Gnesi")
branch_address3.append("\n")
branch_address3.append("*****@*****.**")
document_details = MiniPage(width=NoEscape(r"0.2\textwidth"),
pos='t',
align='r')
document_details.append(" ")
document_details.append(LineBreak())
document_details.append(simple_page_number())
footer_table.add_row(
[branch_address1, branch_address2, branch_address3])
doc.append(first_page)
# End first page style
redcircle = glob.glob("redcircle.png")
redcircle = StandAloneGraphic(redcircle, image_options="width=220px")
# Add customer information
with doc.create(Tabu("X[r]")) as first_page_table:
first_page_table.add_empty_row()
doc.change_document_style("firstpage")
doc.add_color(name="lightgray", model="gray", description="0.80")
doc.append("\n")
doc.append(timeslot)
doc.append(LineBreak())
# IP
with doc.create(Section('IP SIDE', numbering=False)):
# first chamber
# Verify if its SM1, LM1, SM1 or LM2
if chambername1IP[0:3] == "SM1" or chambername2HO[0:3] == "LM1":
limit = 10
else:
limit = 6
with doc.create(
Subsection("Chambers: " + chambername1IP + " + " +
chambername2IP,
numbering=False)):
with doc.create(Subsection(chambername1IP, numbering=False)):
with doc.create(
LongTabu("|X[l]|X[r]|X[r]|X[r]|X[r]|X[r]|X[r]|",
row_height=1.5)) as data_table:
data_table.add_hline()
data_table.add_row(
["Sector", "L1", "L2", "L3", "L4", "HL1", "HL2"],
mapper=bold,
color="lightgray")
data_table.add_hline()
row = ["blank", "l1", "l2", "l3", "l4", "hl1", "hl2"]
for i, hv in enumerate(final_hvs1[0]):
hl1_str = ""
hl2_str = ""
l1 = ""
l2 = ""
l3 = ""
l4 = ""
# assign each sector to a line
if hv == hl1_ch1:
hl1_str = str(hl1_ch1)
elif hv == hl2_ch1:
hl2_str = str(hl2_ch1)
elif i > limit - 1 + limit * 2:
l4 = "570"
elif i > limit - 1 + limit:
l3 = "570"
elif i > limit - 1:
l2 = "570"
else:
l1 = "570"
if (i % 2) == 0:
data_table.add_row([
str(sectors[0][i]), l1, l2, l3, l4, hl1_str,
hl2_str
])
else:
data_table.add_row([
str(sectors[0][i]), l1, l2, l3, l4, hl1_str,
hl2_str
],
color="lightgray")
data_table.add_hline()
# second chamber
if chambername2IP[0:3] == "SM1" or chambername2HO[0:3] == "LM1":
limit = 10
else:
limit = 6
with doc.create(Subsection(chambername2IP, numbering=False)):
with doc.create(
LongTabu("|X[l]|X[r]|X[r]|X[r]|X[r]|X[r]|X[r]|",
row_height=1.5)) as data_table2:
data_table2.add_hline()
data_table2.add_row(
["Sector", "L1", "L2", "L3", "L4", "HL1", "HL2"],
mapper=bold,
color="lightgray")
data_table2.add_hline()
row = ["blank", "l1", "l2", "l3", "l4", "hl1", "hl2"]
for i, hv in enumerate(final_hvs1[1]):
hl1_str = ""
hl2_str = ""
l1 = ""
l2 = ""
l3 = ""
l4 = ""
# assign each sector to a line
if hv == hl1_ch1:
hl1_str = str(hl1_ch1)
elif hv == hl2_ch1:
hl2_str = str(hl2_ch1)
elif i > limit - 1 + limit * 2:
l4 = "570"
elif i > limit - 1 + limit:
l3 = "570"
elif i > limit - 1:
l2 = "570"
else:
l1 = "570"
if (i % 2) == 0:
data_table2.add_row([
str(sectors[1][i]), l1, l2, l3, l4, hl1_str,
hl2_str
])
else:
data_table2.add_row([
str(sectors[1][i]), l1, l2, l3, l4, hl1_str,
hl2_str
],
color="lightgray")
data_table2.add_hline()
# HO
# Swap R an L
final_hvs2[0] = swap(final_hvs2[0])
final_hvs2[1] = swap(final_hvs2[1])
if chambername1HO[0:3] == "SM1" or chambername2HO[0:3] == "LM1":
limit = 10
else:
limit = 6
doc.append(NewPage())
with doc.create(Section('HO SIDE', numbering=False)):
# first chamber
with doc.create(
Subsection("Chambers: " + chambername1HO + " + " +
chambername2HO,
numbering=False)):
with doc.create(Subsection(chambername1HO, numbering=False)):
with doc.create(
LongTabu("|X[l]|X[r]|X[r]|X[r]|X[r]|X[r]|X[r]|",
row_height=1.5)) as data_table3:
data_table3.add_hline()
data_table3.add_row(
["Sector", "L1", "L2", "L3", "L4", "HL1", "HL2"],
mapper=bold,
color="lightgray")
data_table3.add_hline()
row = ["blank", "l1", "l2", "l3", "l4", "hl1", "hl2"]
for i, hv in enumerate(final_hvs2[0]):
hl1_str = ""
hl2_str = ""
l1 = ""
l2 = ""
l3 = ""
l4 = ""
# assign each sector to a line
if hv == hl1_ch2:
hl1_str = str(hl1_ch2)
elif hv == hl2_ch2:
hl2_str = str(hl2_ch2)
elif i > limit - 1 + limit * 2:
l4 = "570"
elif i > limit - 1 + limit:
l3 = "570"
elif i > limit - 1:
l2 = "570"
else:
l1 = "570"
if (i % 2) == 0:
data_table3.add_row([
str(sectors[2][i]), l1, l2, l3, l4, hl1_str,
hl2_str
])
else:
data_table3.add_row([
str(sectors[2][i]), l1, l2, l3, l4, hl1_str,
hl2_str
],
color="lightgray")
data_table3.add_hline()
# second chamber
if chambername2HO[0:3] == "SM1" or chambername2HO[0:3] == "LM1":
limit = 10
else:
limit = 6
with doc.create(Subsection(chambername2HO, numbering=False)):
with doc.create(
LongTabu("|X[l]|X[r]|X[r]|X[r]|X[r]|X[r]|X[r]|",
row_height=1.5)) as data_table4:
data_table4.add_hline()
data_table4.add_row(
["Sector", "L1", "L2", "L3", "L4", "HL1", "HL2"],
mapper=bold,
color="lightgray")
data_table4.add_hline()
row = ["blank", "l1", "l2", "l3", "l4", "hl1", "hl2"]
for i, hv in enumerate(final_hvs2[1]):
hl1_str = ""
hl2_str = ""
l1 = ""
l2 = ""
l3 = ""
l4 = ""
# assign each sector to a line
if hv == hl1_ch2:
hl1_str = str(hl1_ch2)
elif hv == hl2_ch2:
hl2_str = str(hl2_ch2)
elif i > limit - 1 + limit * 2:
l4 = "570"
elif i > limit - 1 + limit:
l3 = "570"
elif i > limit - 1:
l2 = "570"
else:
l1 = "570"
if (i % 2) == 0:
data_table4.add_row([
str(sectors[3][i]), l1, l2, l3, l4, hl1_str,
hl2_str
])
else:
data_table4.add_row([
str(sectors[3][i]), l1, l2, l3, l4, hl1_str,
hl2_str
],
color="lightgray")
data_table4.add_hline()
doc.generate_pdf("complex_report_DW", clean_tex=False, compiler='pdflatex')
def generar(self, Carrera, Asignatura, Curso, listaPreguntas, aleatorio):
today = str(self.__fecha)
geometry_options = {
"head": "48pt",
"margin": "0.5in",
"bottom": "0.6in",
"includeheadfoot": True
}
doc = Document(geometry_options=geometry_options)
header = PageStyle("header") # DEFINIMOS LA VARIABLE CON ESTILO
#image_filename = os.path.join(os.path.dirname("__file__"), '../static/zigmap.png') # IMAGEN UNAB
#data_folder = os.path.join("../", "static/zigmap.png")
#file_to_open = os.path.join(data_folder, "zigmap.png")
#image_filename = data_folder
image_filename = "zigmap.png"
# Generating first page style
first_page = PageStyle("firstpage")
# Header image
with first_page.create(Head("L")) as header_left:
with header_left.create(
SubFigure(
position='L',
width=NoEscape(r'0.10\linewidth'))) as logo_wrapper:
print("IMAGEN")
#logo_wrapper.add_image('zigmap.png', width=NoEscape(r'\linewidth'))
# Add document title
with first_page.create(Head("C")) as center_header:
with center_header.create(
MiniPage(width=NoEscape(r"0.49\textwidth"),
pos='c',
align='c')) as title_wrapper:
title_wrapper.append(LargeText(bold(self.__nombre)))
# Add document title
with first_page.create(Head("R")) as right_header:
with right_header.create(
MiniPage(width=NoEscape(r"0.49\textwidth"),
pos='c',
align='r')) as title_wrapper:
#title_wrapper.append(LargeText(bold("Solemne II")))
#title_wrapper.append(LineBreak())
title_wrapper.append(MediumText(bold(
Asignatura.get_nombreA())))
# Add footer
with first_page.create(Foot("C")) as footer:
message = "Programación II"
with footer.create(
Tabularx("X X X X", width_argument=NoEscape(
r"\textwidth"))) as footer_table:
footer_table.add_row([
MultiColumn(4, align='l', data=TextColor("black", message))
])
footer_table.add_hline(color="black")
footer_table.add_empty_row()
branch_address = MiniPage(width=NoEscape(r"0.45\textwidth"),
pos='t',
align='l')
branch_address.append(
MediumText("Facultad de " + Carrera.get_facultad()))
branch_address.append("\n")
branch_address.append("")
branch_address2 = MiniPage(width=NoEscape(r"0.10\textwidth"),
pos='t')
branch_address2.append("")
branch_address2.append("\n")
branch_address2.append("")
document_details = MiniPage(width=NoEscape(r"0.25\textwidth"),
pos='t',
align='r')
document_details.append(self.__fecha)
document_details.append(LineBreak())
document_details.append("") # simple_page_number()
footer_table.add_row([
branch_address, branch_address2, branch_address2,
document_details
])
doc.preamble.append(first_page)
# End first page style
############################################
####################################################
# Add customer information
with doc.create(Tabu("X[l] X[r]")) as first_page_table:
customer = MiniPage(width=NoEscape(r"0.55\textwidth"), pos='h')
customer.append("Nombre: ___________________________________")
customer.append("\n")
customer.append(" Rut: _______________")
customer.append("\n")
customer.append("Nota: ______________")
customer.append("\n")
customer.append("\n")
# Add branch information
branch = MiniPage(width=NoEscape(r"0.35\textwidth"),
pos='t!',
align='r')
if self.__unidad == "unidad1":
branch.append(bold("Unidad: 1"))
elif self.__unidad == "unidad2":
branch.append(bold("Unidad: 2"))
else:
branch.append(bold("Unidades: 1 & 2"))
branch.append(LineBreak())
branch.append(bold("Curso: "))
branch.append(bold(Curso.get_cod()))
branch.append(LineBreak())
branch.append(bold("Ponderación: "))
branch.append(bold(self.__ponderacion + "%"))
branch.append(LineBreak())
first_page_table.add_row([customer, branch])
doc.append(LargeText(bold("Indicaciones:")))
# INDICACIONES
with doc.create(Itemize()) as itemize:
doc.append(LineBreak())
itemize.add_item(
" Lea atentamente los enunciados de cada pregunta antes de contestar."
)
itemize.add_item(
" Conteste su evaluación en silencio, está prohibido conversar o gesticulizar en la sala durante la prueba."
)
itemize.add_item(
" Dispone de 90 minutos para realizar esta evaluación.")
itemize.add_item(
" Marque la alternativa con lapiz pasta, no se aceptan marcadas con lapiz grafito."
)
itemize.add_item(
" Utilice solamente sus materiales, está prohibido solicitar materiales a sus compañeros."
)
# you can append to existing items
itemize.append(Command("ldots"))
doc.change_document_style("firstpage")
doc.add_color(name="lightgray", model="gray", description="0.80")
customer.append(LineBreak())
now = str(datetime.today())
for p in listaPreguntas:
with doc.create(Section('Pregunta - ' + p.get_tipo())):
doc.append(p.get_contenido())
doc.append(NewPage())
nombreFile = str(
self.__nombre) + " - " + self.get_fecha() + " - " + str(aleatorio)
print(
"--------------------------ANTES DE DIR------------------------------"
)
try:
# GENERANDO PDF
doc.generate_pdf(filepath="tests/" + nombreFile,
clean_tex=True,
clean=True)
#doc.generate_pdf(dirName + "/" + nombreFile, clean_tex=False)
except FileNotFoundError as e:
doc.generate_pdf(filepath="../tests/" + nombreFile,
clean_tex=True,
clean=True)