def _build_table_for_sentence(self, sentence: str) -> Table:
t = Table(number_of_columns=len(sentence), number_of_rows=3)
for c in sentence:
if c in [".", "?", "!", ",", " "]:
t.add(
TableCell(
Paragraph(c, respect_spaces_in_text=True),
background_color=X11Color("SlateGray"),
)
)
else:
num = ord(c.upper()) - ord("A") + 1
t.add(
Paragraph(
str(num),
font_size=Decimal(6),
text_alignment=Alignment.CENTERED,
)
)
for c in sentence:
t.add(Paragraph(" ", respect_spaces_in_text=True))
for c in sentence:
t.add(
TableCell(
Paragraph(" ", respect_spaces_in_text=True),
border_top=False,
border_left=False,
border_right=False,
)
)
t.set_padding_on_all_cells(Decimal(2), Decimal(2), Decimal(2), Decimal(2))
return t
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
# title
layout.add(
Paragraph(
"Lissajours Line Art",
font_size=Decimal(20),
font_color=X11Color("Blue"),
))
# table
N = 7
fill_colors = [
HSVColor(Decimal(x / N), Decimal(1), Decimal(1))
for x in range(0, N)
]
stroke_colors = [HSVColor.darker(x) for x in fill_colors]
fixed_bb = Rectangle(Decimal(0), Decimal(0), Decimal(100),
Decimal(100))
t = Table(number_of_rows=N, number_of_columns=N)
for i in range(0, N):
for j in range(0, N):
t.add(
Shape(
LineArtFactory.lissajours(fixed_bb, i + 1, j + 1),
fill_color=fill_colors[(i + j) % N],
stroke_color=stroke_colors[(i + j) % N],
line_width=Decimal(2),
))
t.set_padding_on_all_cells(Decimal(10), Decimal(10), Decimal(10),
Decimal(10))
layout.add(t)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
N = 4
colors = [
HSVColor(Decimal(x / 360.0), Decimal(1), Decimal(1))
for x in range(0, 360, int(360 / N))
]
t = Table(number_of_rows=N, number_of_columns=N)
for i in range(0, N):
for _ in range(0, N):
t.add(
TableCell(
Shape(
points=BlobFactory.blob(i + 3),
stroke_color=colors[i],
fill_color=None,
line_width=Decimal(1),
horizontal_alignment=Alignment.CENTERED,
).scale_up(Decimal(100), Decimal(100))))
t.set_padding_on_all_cells(Decimal(2), Decimal(2), Decimal(2),
Decimal(2))
layout.add(t)
# determine output location
out_file = self.output_dir / "output.pdf"
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
t = Table(number_of_rows=3, number_of_columns=2)
# row 0
t.add(Paragraph("A"))
t.add(Paragraph("B"))
# row 1
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.add(Paragraph(" ", respect_spaces_in_text=True))
# row 2
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5),
Decimal(5))
layout.add(t)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def _write_background(self, page: Page):
layout = SingleColumnLayout(page)
t = Table(number_of_columns=10, number_of_rows=25)
for i in range(0, 25):
for j in range(0, 10):
put_star = random.choice([x <= 3 for x in range(0, 10)])
if i < 11 and j >= 5:
t.add(Paragraph(" ", respect_spaces_in_text=True))
continue
if put_star:
c = random.choice(
[
self.ACCENT_COLOR_1,
self.ACCENT_COLOR_2,
self.ACCENT_COLOR_3,
self.ACCENT_COLOR_4,
self.ACCENT_COLOR_5,
]
)
t.add(
Shape(
LineArtFactory.n_pointed_star(
bounding_box=Rectangle(
Decimal(0), Decimal(0), Decimal(16), Decimal(16)
),
n=random.choice([3, 5, 7, 12]),
),
fill_color=c,
stroke_color=c,
line_width=Decimal(1),
)
)
else:
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.no_borders()
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5), Decimal(5))
layout.add(t)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create empty document
pdf: Document = Document()
# create empty page
page: Page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
# add title
layout.add(
Paragraph(
"Copy the picture",
font_size=Decimal(20),
font_color=X11Color("YellowGreen"),
))
layout.add(
Paragraph(
"""
Copy the picture using the grid lines as a guide.
You might find it easier to copy one square at a time.
Count the squares carefully!
""",
respect_newlines_in_text=True,
font_color=X11Color("SlateGray"),
font_size=Decimal(8),
))
pics: typing.List[Image] = self._split_picture_to_grid(
"https://icons.iconarchive.com/icons/iconka/meow-2/128/cat-sing-icon.png"
)
# fmt: off
coords: typing.List[str] = [
"1A",
"2A",
"3A",
"4A",
"1B",
"2B",
"3B",
"4B",
"1C",
"2C",
"3C",
"4C",
"1D",
"2D",
"3D",
"4D",
]
# fmt: on
pics_and_coords = [x for x in zip(pics, coords)]
random.shuffle(pics_and_coords)
t = Table(
number_of_rows=4,
number_of_columns=8,
column_widths=[
Decimal(1),
Decimal(3),
Decimal(1),
Decimal(3),
Decimal(1),
Decimal(3),
Decimal(1),
Decimal(3),
],
)
for p, c in pics_and_coords:
t.add(Paragraph(c, font_size=Decimal(6)))
t.add(Image(p))
t.set_padding_on_all_cells(Decimal(2), Decimal(2), Decimal(2),
Decimal(2))
t.no_borders()
layout.add(t)
# table 2
t2 = Table(number_of_columns=4, number_of_rows=4)
for c in coords:
t2.add(
Paragraph(
"\n" + c + "\n",
respect_newlines_in_text=True,
font_color=X11Color("LightGray"),
horizontal_alignment=Alignment.CENTERED,
))
t2.set_padding_on_all_cells(Decimal(2), Decimal(2), Decimal(2),
Decimal(2))
layout.add(t2)
# write
file = self.output_dir / "output.pdf"
with open(file, "wb") as pdf_file_handle:
PDF.dumps(pdf_file_handle, pdf)
return True
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
t = Table(number_of_columns=10, number_of_rows=25)
for _ in range(0, 10):
for _ in range(0, 25):
put_star = random.choice([x <= 3 for x in range(0, 10)])
if put_star:
c: Color = random.choice(self.COLORS)
s: Decimal = random.choice(
[
Decimal(16),
Decimal(16),
Decimal(16),
Decimal(16),
Decimal(8),
Decimal(4),
]
)
t.add(
Shape(
LineArtFactory.n_pointed_star(
bounding_box=Rectangle(Decimal(0), Decimal(0), s, s),
n=random.choice([3, 5, 7, 12]),
),
fill_color=c,
stroke_color=c,
line_width=Decimal(1),
)
)
else:
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.no_borders()
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5), Decimal(5))
layout.add(t)
# footer
rectangle_box = Rectangle(
Decimal(0),
Decimal(0),
page.get_page_info().get_width(),
page.get_page_info().get_height() * Decimal(0.1),
)
Shape(
LineArtFactory.rectangle(rectangle_box),
fill_color=self.COLORS[0],
stroke_color=self.COLORS[0],
line_width=Decimal(1),
).layout(page, rectangle_box)
rectangle_box = Rectangle(
Decimal(0),
page.get_page_info().get_height() * Decimal(0.1),
page.get_page_info().get_width(),
Decimal(2),
)
Shape(
LineArtFactory.rectangle(rectangle_box),
fill_color=self.COLORS[1],
stroke_color=self.COLORS[1],
line_width=Decimal(1),
).layout(page, rectangle_box)
# determine output location
out_file = self.output_dir / "output.pdf"
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
sentences = [
"THE BOAT WILL ARRIVE ON MONDAY",
"SHE LIVES AT THE HOUSE WITH THE BLUE DOOR",
"A FRIEND IN NEED IS A FRIEND INDEED",
"AN APPLE A DAY KEEPS THE DOCTOR AWAY",
]
pdf = Document()
page = Page()
pdf.append_page(page)
# layout
layout = SingleColumnLayout(page)
# add title
layout.add(
Paragraph(
"Reverse the words",
font_size=Decimal(20),
font_color=X11Color("YellowGreen"),
))
# add text
layout.add(
Paragraph(
"""
This is perhaps the simplest code to use and solve.
Simply read each word backwards.
""",
font_color=X11Color("SlateGray"),
font_size=Decimal(8),
))
# add grid
t = Table(
number_of_rows=len(sentences) * 2,
number_of_columns=2,
column_widths=[Decimal(1), Decimal(9)],
)
for i, s in enumerate(sentences):
# code word
coded_sentence = "".join([
"".join([y for y in reversed(x)]) + " " for x in s.split(" ")
])
t.add(
TableCell(
Paragraph(str(i + 1) + "."),
border_top=False,
border_right=False,
border_left=False,
border_bottom=False,
row_span=2,
))
t.add(
TableCell(
Paragraph(coded_sentence, respect_spaces_in_text=True),
border_top=False,
border_right=False,
border_left=False,
border_bottom=False,
))
t.add(
TableCell(
Paragraph(".."),
border_top=False,
border_right=False,
border_left=False,
border_bottom=True,
))
t.set_padding_on_all_cells(Decimal(15), Decimal(5), Decimal(5),
Decimal(5))
layout.add(t)
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
# add title
layout.add(
Paragraph(
"Match Up Puzzle",
font_size=Decimal(20),
font_color=X11Color("YellowGreen"),
)
)
# add explanation
layout.add(
Paragraph(
"""
These simple "match up" puzzles help children with observation skills.
They will also need to learn a way of marking or remembering which items they have matched,
so that they can identify the odd ones out.
If you would like to reuse puzzles you could place counters on each "pair" that your child finds, perhaps.""",
font_color=X11Color("SlateGray"),
font_size=Decimal(8),
)
)
# random locations for each image
imgs = [
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Orc-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/King-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Knight-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Medusa-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Monster-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Sorceress-Witch-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Centaur-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Elf-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Poison-Spider-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Unicorn-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Viking-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Villager-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Dragon-Egg-icon.png",
]
N = 10
random.shuffle(imgs)
image_positions: typing.Dict[int, str] = {}
for i, img_url in enumerate(imgs[0 : (N + 1)]):
# place image 1
p0 = random.randint(0, N ** 2)
while p0 in image_positions:
p0 = random.randint(0, N ** 2)
image_positions[p0] = img_url
if i != 0:
# place image 2
p1 = random.randint(0, N ** 2)
while p1 in image_positions:
p1 = random.randint(0, N ** 2)
image_positions[p1] = img_url
t = Table(number_of_rows=N, number_of_columns=N)
for i in range(0, N ** 2):
if i in image_positions:
t.add(Image(image_positions[i], width=Decimal(32), height=Decimal(32)))
else:
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.no_borders()
t.set_padding_on_all_cells(Decimal(2), Decimal(2), Decimal(2), Decimal(2))
layout.add(t)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = MultiColumnLayout(page)
# background
self._write_background(page)
# table
avatar_urls = [
"https://avatars.githubusercontent.com/u/" + str(x)
for x in self.FIRST_100_STARS
]
t = Table(number_of_columns=4, number_of_rows=25)
for s in avatar_urls[0 : (4 * 25)]:
im = PILImage.open(requests.get(s, stream=True).raw)
t.add(Image(im, width=Decimal(20), height=Decimal(20)))
t.set_padding_on_all_cells(Decimal(2), Decimal(2), Decimal(2), Decimal(2))
t.no_borders()
layout.add(t)
layout.add(
Paragraph(
"100 stars!",
font="Helvetica-Bold",
font_size=Decimal(20),
font_color=self.ACCENT_COLOR_1,
horizontal_alignment=Alignment.CENTERED,
)
)
# next column
layout.switch_to_next_column()
# paragraph
layout.add(
Paragraph(
"Thank you,",
font="Helvetica-Bold",
font_size=Decimal(20),
font_color=self.ACCENT_COLOR_1,
)
)
layout.add(
Paragraph(
"Your support and encouragement have always been the driving factors in the development of pText. "
"I want you to know that I value your appreciation immensely!"
)
)
layout.add(
Paragraph(
"-- Joris Schellekens",
font="Helvetica-Oblique",
font_size=Decimal(8),
font_color=self.ACCENT_COLOR_2,
)
)
layout.add(
Barcode(
data="https://github.com/jorisschellekens/ptext-release/stargazers",
type=BarcodeType.QR,
width=Decimal(128),
stroke_color=self.ACCENT_COLOR_1,
)
)
# footer
rectangle_box = Rectangle(
Decimal(0),
Decimal(0),
page.get_page_info().get_width(),
page.get_page_info().get_height() * Decimal(0.1),
)
Shape(
LineArtFactory.rectangle(rectangle_box),
fill_color=self.ACCENT_COLOR_1,
stroke_color=self.ACCENT_COLOR_1,
line_width=Decimal(1),
).layout(page, rectangle_box)
rectangle_box = Rectangle(
Decimal(0),
page.get_page_info().get_height() * Decimal(0.1),
page.get_page_info().get_width(),
Decimal(2),
)
Shape(
LineArtFactory.rectangle(rectangle_box),
fill_color=self.ACCENT_COLOR_2,
stroke_color=self.ACCENT_COLOR_2,
line_width=Decimal(1),
).layout(page, rectangle_box)
# determine output location
out_file = self.output_dir / "output.pdf"
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
t = Table(number_of_rows=10, number_of_columns=4)
t.add(
Paragraph(
"lowercase",
font_color=X11Color("YellowGreen"),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"uppercase",
font_color=X11Color("YellowGreen"),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"lowercase acute",
font_color=X11Color("YellowGreen"),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"uppercase acute",
font_color=X11Color("YellowGreen"),
horizontal_alignment=Alignment.CENTERED,
))
# A
font: Font = TrueTypeFont.true_type_font_from_file(
Path(__file__).parent / "Pacifico.ttf")
t.add(Paragraph("a", font=font))
t.add(Paragraph("A", font=font))
t.add(Paragraph("á", font=font))
t.add(Paragraph("Á", font=font))
# B
t.add(Paragraph("b", font=font))
t.add(Paragraph("B", font=font))
t.add(Paragraph("-", font=font))
t.add(Paragraph("-", font=font))
# C
t.add(Paragraph("c", font=font))
t.add(Paragraph("C", font=font))
t.add(Paragraph("-", font=font))
t.add(Paragraph("-", font=font))
# D
t.add(Paragraph("d", font=font))
t.add(Paragraph("D", font=font))
t.add(Paragraph("-", font=font))
t.add(Paragraph("-", font=font))
# E
t.add(Paragraph("e", font=font))
t.add(Paragraph("E", font=font))
t.add(Paragraph("é", font=font))
t.add(Paragraph("É", font=font))
# F
t.add(Paragraph("f", font=font))
t.add(Paragraph("F", font=font))
t.add(Paragraph("-", font=font))
t.add(Paragraph("-", font=font))
# G
t.add(Paragraph("g", font=font))
t.add(Paragraph("G", font=font))
t.add(Paragraph("-", font=font))
t.add(Paragraph("-", font=font))
# ..
t.add(
Paragraph(
"...",
font_color=X11Color("LightGray"),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"...",
font_color=X11Color("LightGray"),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"...",
font_color=X11Color("LightGray"),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"...",
font_color=X11Color("LightGray"),
horizontal_alignment=Alignment.CENTERED,
))
# Z
t.add(Paragraph("z", font=font))
t.add(Paragraph("Z", font=font))
t.add(Paragraph("-", font=font))
t.add(Paragraph("-", font=font))
t.set_border_width_on_all_cells(Decimal(0.2))
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5),
Decimal(5))
layout.add(t)
layout.add(
Paragraph(
text=
"**These are the characters pText can currently render in a PDF",
font_size=Decimal(8),
font_color=X11Color("Gray"),
horizontal_alignment=Alignment.RIGHT,
))
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
t = Table(number_of_rows=5, number_of_columns=3)
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.add(
Paragraph(
"Close-up",
font_color=X11Color("SteelBlue"),
font_size=Decimal(20),
horizontal_alignment=Alignment.CENTERED,
))
t.add(
Paragraph(
"Panoramic",
font_color=X11Color("SteelBlue"),
font_size=Decimal(20),
horizontal_alignment=Alignment.CENTERED,
))
t.add(Paragraph("Nature"))
self._add_image_to_table(
"https://images.unsplash.com/photo-1520860560195-0f14c411476e?ixid=MXwxMjA3fDB8MHxwaG90by1wYWdlfHx8fGVufDB8fHw",
t,
)
self._add_image_to_table(
"https://images.unsplash.com/photo-1613480123595-c5582aa551b9?ixid=MXwxMjA3fDB8MHxwaG90by1wYWdlfHx8fGVufDB8fHw",
t,
)
t.add(Paragraph("Architecture"))
self._add_image_to_table(
"https://images.unsplash.com/photo-1611321569296-1305a38ebd74?ixid=MXwxMjA3fDB8MHxwaG90by1wYWdlfHx8fGVufDB8fHw",
t,
)
self._add_image_to_table(
"https://images.unsplash.com/photo-1613262666714-acebcc37f11e?ixid=MXwxMjA3fDB8MHxwaG90by1wYWdlfHx8fGVufDB8fHw",
t,
)
t.set_border_width_on_all_cells(Decimal(0.2))
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5),
Decimal(5))
layout = SingleColumnLayout(page)
layout.add(t)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create empty document
pdf: Document = Document()
page: Page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
# add title
layout.add(
Paragraph(
"Match The Shadow",
font_size=Decimal(20),
font_color=X11Color("YellowGreen"),
))
# add explanation
layout.add(
Paragraph(
"""
These simple "match up" puzzles help children with observation skills.
They will also need to learn a way of marking or remembering which items they have matched,
so that they can identify the odd ones out.
If you would like to reuse puzzles you could place counters on each "pair" that your child finds, perhaps.""",
font_color=X11Color("SlateGray"),
font_size=Decimal(8),
))
# add image
imgs = [
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Orc-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/King-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Knight-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Medusa-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Monster-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Sorceress-Witch-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Centaur-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Elf-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Poison-Spider-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Unicorn-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Viking-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Villager-icon.png",
"https://icons.iconarchive.com/icons/chanut/role-playing/128/Dragon-Egg-icon.png",
]
N = 10
imgs = imgs[0:N]
random.shuffle(imgs)
shadows = [
TestMatchTheShadowPuzzle._make_image_shadow(x) for x in imgs
]
random.shuffle(imgs)
t = Table(number_of_columns=5, number_of_rows=N)
for i in range(0, N):
t.add(Image(imgs[i], width=Decimal(32), height=Decimal(32)))
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.add(Paragraph(" ", respect_spaces_in_text=True))
t.add(Image(shadows[i], width=Decimal(32), height=Decimal(32)))
t.no_borders()
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5),
Decimal(5))
layout.add(t)
# write
file = self.output_dir / "output.pdf"
with open(file, "wb") as pdf_file_handle:
PDF.dumps(pdf_file_handle, pdf)
return True
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
t = Table(number_of_rows=5, number_of_columns=3)
t.add(
TableCell(
Paragraph(" ", respect_spaces_in_text=True),
border_top=False,
border_left=False,
)
)
t.add(
Paragraph(
"Language", font_color=X11Color("SteelBlue"), font_size=Decimal(20)
)
)
t.add(
Paragraph(
"Nof. Questions",
font_color=X11Color("SteelBlue"),
font_size=Decimal(20),
)
)
t.add(
TableCell(
Paragraph("front-end", font_color=X11Color("SteelBlue")), row_span=2
)
)
t.add(Paragraph("Javascript"))
t.add(Paragraph("2,167,178"))
t.add(Paragraph("Php"))
t.add(Paragraph("1,391,524"))
t.add(
TableCell(
Paragraph("back-end", font_color=X11Color("SteelBlue")), row_span=2
)
)
t.add(Paragraph("C++"))
t.add(Paragraph("711,944"))
t.add(Paragraph("Java"))
t.add(Paragraph("1,752,877"))
t.set_border_width_on_all_cells(Decimal(0.2))
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5), Decimal(5))
table_rect = t.layout(
page,
bounding_box=Rectangle(
Decimal(20), Decimal(600), Decimal(500), Decimal(200)
),
)
Paragraph(
text="**Data gathered from Stackoverflow.com on 10th of february 2021",
font_size=Decimal(8),
font_color=X11Color("Gray"),
).layout(
page,
bounding_box=Rectangle(
Decimal(20), table_rect.y - 40, table_rect.width, Decimal(20)
),
)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
layout = SingleColumnLayout(page)
# title
layout.add(
Paragraph("Flowchart Line Art",
font_size=Decimal(20),
font_color=X11Color("Blue")))
# table
fixed_bb = Rectangle(Decimal(0), Decimal(0), Decimal(100),
Decimal(100))
t = Table(number_of_rows=10, number_of_columns=6)
t.add(
Shape(
LineArtFactory.flowchart_process(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_decision(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_document(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_predefined_document(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.regular_n_gon(fixed_bb, 8),
# LineArtFactory.flowchart_multiple_documents(fixed_bb)
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_data(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
# captions
t.add(Paragraph("Process"))
t.add(Paragraph("Decision"))
t.add(Paragraph("Document"))
t.add(Paragraph("Predefined Document"))
t.add(Paragraph("Multiple Documents"))
t.add(Paragraph("Data"))
# second row of shapes
t.add(
Shape(
LineArtFactory.flowchart_predefined_process(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.regular_n_gon(fixed_bb, 8),
# LineArtFactory.flowchart_stored_data(fixed_bb),
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_internal_storage(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_sequential_data(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.regular_n_gon(fixed_bb, 8),
# LineArtFactory.flowchart_direct_data(fixed_bb),
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_manual_input(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
# captions
t.add(Paragraph("Predefined Process"))
t.add(Paragraph("Stored Data"))
t.add(Paragraph("Internal Storage"))
t.add(Paragraph("Sequential Data"))
t.add(Paragraph("Direct Data"))
t.add(Paragraph("Manual Input"))
# third row of shapes
t.add(
Shape(
LineArtFactory.flowchart_manual_operation(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_card(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_paper_tape(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.regular_n_gon(fixed_bb, 8),
# LineArtFactory.flowchart_display(fixed_bb),
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_preparation(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_loop_limit(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
# captions
t.add(Paragraph("Manual Operation"))
t.add(Paragraph("Card"))
t.add(Paragraph("Paper Tape"))
t.add(Paragraph("Display"))
t.add(Paragraph("Preparation"))
t.add(Paragraph("Loop Limit"))
# fourth row of shapes
t.add(
Shape(
# LineArtFactory.flowchart_termination(fixed_bb),
LineArtFactory.regular_n_gon(fixed_bb, 8),
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_collate(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.regular_n_gon(fixed_bb, 8),
# LineArtFactory.flowchart_delay(fixed_bb),
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_extract(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_merge(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_or(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
# captions
t.add(Paragraph("Termination"))
t.add(Paragraph("Collate"))
t.add(Paragraph("Delay"))
t.add(Paragraph("Extract"))
t.add(Paragraph("Merge"))
t.add(Paragraph("Or"))
# fifth row of shapes
t.add(
Shape(
LineArtFactory.flowchart_sort(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_summing_junction(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.regular_n_gon(fixed_bb, 8),
# LineArtFactory.flowchart_database(fixed_bb),
fill_color=X11Color("White"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_on_page_reference(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_off_page_reference(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
t.add(
Shape(
LineArtFactory.flowchart_process_iso_9000(fixed_bb),
fill_color=X11Color("Blue"),
stroke_color=X11Color("Black"),
line_width=Decimal(1),
))
# captions
t.add(Paragraph("Sort"))
t.add(Paragraph("Summing Junction"))
t.add(Paragraph("Database"))
t.add(Paragraph("On Page Reference"))
t.add(Paragraph("Off Page Reference"))
t.add(Paragraph("Process ISO 9000"))
t.set_padding_on_all_cells(Decimal(10), Decimal(10), Decimal(10),
Decimal(10))
layout.add(t)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
t = Table(number_of_rows=20, number_of_columns=20)
colors = [
HSVColor(Decimal(x / 360), Decimal(1), Decimal(1))
for x in range(0, 360, int(360 / 20))
]
for i in range(0, 18 * 20):
t.add(
TableCell(
Paragraph(" ", respect_spaces_in_text=True),
background_color=colors[i % len(colors)],
))
for i in range(0, 20):
t.add(
TableCell(
Paragraph(" ", respect_spaces_in_text=True),
background_color=colors[i % len(colors)].darker(),
))
for i in range(0, 20):
t.add(
TableCell(
Paragraph(" ", respect_spaces_in_text=True),
background_color=colors[i % len(colors)].darker().darker(),
))
t.no_borders()
t.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5),
Decimal(5))
table_rect = t.layout(
page,
bounding_box=Rectangle(Decimal(20), Decimal(600), Decimal(500),
Decimal(200)),
)
Paragraph(
text="Love is love",
font_size=Decimal(8),
font_color=X11Color("Gray"),
horizontal_alignment=Alignment.RIGHT,
).layout(
page,
bounding_box=Rectangle(Decimal(20), table_rect.y - 40,
table_rect.width, Decimal(20)),
)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
def test_write_document(self):
# create output directory if it does not exist yet
if not self.output_dir.exists():
self.output_dir.mkdir()
# create document
pdf = Document()
# add page
page = Page()
pdf.append_page(page)
# set layout
layout = SingleColumnLayout(page)
my_dict = {
" ": ["A Error", "B Error", "C Error", "D Error"],
"lab1": [0.34, 0.23, 0.80, 0.79],
"lab2": [0.53, 0.38, 0.96, 1.25],
"lab3": [0.40, 0.27, 0.68, 0.93],
}
colors = {
0: X11Color("Green"),
0.25: X11Color("Yellow"),
0.5: X11Color("Orange"),
0.75: X11Color("Red"),
}
table = Table(number_of_rows=4, number_of_columns=5)
table.add(Paragraph(" ", respect_spaces_in_text=True))
for h in my_dict[" "]:
table.add(
Paragraph(text=h, font="Helvetica-Bold",
font_size=Decimal(12)))
for name, row in [(k, v) for k, v in my_dict.items() if k != " "]:
table.add(Paragraph(name))
for v in row:
c = X11Color("Green")
for b, bc in colors.items():
if v > b:
c = bc
table.add(
Paragraph(str(v),
font_color=c,
horizontal_alignment=Alignment.CENTERED))
# set border
table.set_border_width_on_all_cells(Decimal(0.2))
# set padding
table.set_padding_on_all_cells(Decimal(5), Decimal(5), Decimal(5),
Decimal(5))
# add to layout
layout.add(
Paragraph(
"This table contains all measurands for 3 lab-sessions:"))
layout.add(table)
# determine output location
out_file = self.output_dir / ("output.pdf")
# attempt to store PDF
with open(out_file, "wb") as in_file_handle:
PDF.dumps(in_file_handle, pdf)
# attempt to re-open PDF
with open(out_file, "rb") as in_file_handle:
PDF.loads(in_file_handle)
