def add_notes_overlapping(svg, q_color, tags, fname_original, header, footer,
did):
svg = copy.deepcopy(svg)
color = "#" + q_color
# The number of cards that will be generated.
nr_of_cards = nr_of_shapes(svg)
# Get a temporary directory to store the images
media_dir = tempfile.mkdtemp(prefix="media-for-anki")
svg_no_pic = copy.deepcopy(svg)
svg_no_pic.remove(svg_no_pic[0])
strip_attributes(svg_no_pic, useless_attribs)
svg_fname = os.path.join(media_dir, "source_svg.svg")
f = open(svg_fname, 'w')
f.write(etree.tostring(svg_no_pic))
f.close()
fnames_q_svg = gen_fnames_q(media_dir, nr_of_cards, 'svg')
fname_a_svg = gen_fnames_a(media_dir, 1, 'svg')[0]
# Generate the question sides of the cards:
for i in xrange(nr_of_cards):
# We use a deep copy because we will be destructively modifying
# the variable svg_i
svg_i = copy.deepcopy(svg)
shapes_layer = svg_i[shapes_layer_index]
shapes = [shapes_layer[j + 1]
for j in xrange(nr_of_cards)] # j+1 stays because
# we want the modifications to be destructive. Bad style, but whatever...
j = 0
for shape in shapes:
if j == i:
set_color_recursive(shape, q_color)
else:
shapes_layer.remove(shape)
j = j + 1
svg_i.remove(svg_i[0]) # remove 'Picture' layer
strip_attributes(svg_i, useless_attribs)
f = open(fnames_q_svg[i], 'w')
f.write(etree.tostring(svg_i))
f.close()
svg_a = copy.deepcopy(svg)
svg_a[shapes_layer_index].clear()
svg_a.remove(svg_a[0])
# Generate the answer side of the cards:
f = open(fname_a_svg, 'w')
f.write(etree.tostring(svg_a)) # Write dummy file
f.close()
# add notes, updating the GUI:
add_notes.gui_add_QA_notes(fnames_q_svg, [fname_a_svg] * nr_of_cards,
media_dir, tags, svg_fname, fname_original,
header, footer, did)
return media_dir
def add_notes_overlapping(svg, q_color, tags, fname_original,
header, footer, did):
svg = copy.deepcopy(svg)
color = "#" + q_color
# The number of cards that will be generated.
nr_of_cards = nr_of_shapes(svg)
# Get a temporary directory to store the images
media_dir = tempfile.mkdtemp(prefix="media-for-anki")
svg_no_pic = copy.deepcopy(svg)
svg_no_pic.remove(svg_no_pic[0])
strip_attributes(svg_no_pic, useless_attribs)
svg_fname = os.path.join(media_dir, "source_svg.svg")
f = open(svg_fname, 'w')
f.write(etree.tostring(svg_no_pic))
f.close()
fnames_q_svg = gen_fnames_q(media_dir, nr_of_cards, 'svg')
fname_a_svg = gen_fnames_a(media_dir, 1, 'svg')[0]
# Generate the question sides of the cards:
for i in xrange(nr_of_cards):
# We use a deep copy because we will be destructively modifying
# the variable svg_i
svg_i = copy.deepcopy(svg)
shapes_layer = svg_i[shapes_layer_index]
shapes = [shapes_layer[j+1] for j in xrange(nr_of_cards)] # j+1 stays because
# we want the modifications to be destructive. Bad style, but whatever...
j = 0
for shape in shapes:
if j == i:
set_color_recursive(shape, q_color)
else:
shapes_layer.remove(shape)
j = j+1
svg_i.remove(svg_i[0]) # remove 'Picture' layer
strip_attributes(svg_i, useless_attribs)
f = open(fnames_q_svg[i], 'w')
f.write(etree.tostring(svg_i))
f.close()
svg_a = copy.deepcopy(svg)
svg_a[shapes_layer_index].clear()
svg_a.remove(svg_a[0])
# Generate the answer side of the cards:
f = open(fname_a_svg, 'w')
f.write(etree.tostring(svg_a)) # Write dummy file
f.close()
# add notes, updating the GUI:
add_notes.gui_add_QA_notes(fnames_q_svg, [fname_a_svg]*nr_of_cards,
media_dir, tags, svg_fname, fname_original,
header, footer, did)
return media_dir
def add_notes_non_overlapping(svg, q_color, tags, fname_original,
header, footer, did):
svg = copy.deepcopy(svg)
color = "#" + q_color
# The number of cards that will be generated.
nr_of_cards = nr_of_shapes(svg)
# Get a temporary directory to store the images
media_dir = tempfile.mkdtemp(prefix="media-for-anki")
svg_no_pic = copy.deepcopy(svg)
svg_no_pic.remove(svg_no_pic[0])
strip_attributes(svg_no_pic, useless_attribs)
svg_fname = os.path.join(media_dir, "source_svg.svg")
f = open(svg_fname, 'w')
f.write(etree.tostring(svg_no_pic))
f.close()
fnames_q_svg = gen_fnames_q(media_dir, nr_of_cards, 'svg')
fnames_a_svg = gen_fnames_a(media_dir, nr_of_cards, 'svg')
# Generate the question sides of the cards:
for i in xrange(nr_of_cards):
svg_i = copy.deepcopy(svg)
shapes_layer = svg_i[shapes_layer_index]
set_color_recursive(shapes_layer[i+1], q_color) ## <title>
svg_i.remove(svg_i[0])
strip_attributes(svg_i, useless_attribs)
f = open(fnames_q_svg[i], 'w')
f.write(etree.tostring(svg_i))
f.close()
# Generate the answer sides of the cards:
for i in xrange(nr_of_cards):
svg_i = copy.deepcopy(svg)
shapes_layer = svg_i[shapes_layer_index]
shapes_layer.remove(shapes_layer[i+1])
svg_i.remove(svg_i[0])
strip_attributes(svg_i, useless_attribs)
f = open(fnames_a_svg[i], 'w')
f.write(etree.tostring(svg_i))
f.close()
add_notes.gui_add_QA_notes(fnames_q_svg, fnames_a_svg,
media_dir, tags, svg_fname, fname_original,
header, footer, did)
return media_dir
def add_notes_non_overlapping(svg, q_color, tags, fname_original, header,
footer, did):
svg = copy.deepcopy(svg)
color = "#" + q_color
# The number of cards that will be generated.
nr_of_cards = nr_of_shapes(svg)
# Get a temporary directory to store the images
media_dir = tempfile.mkdtemp(prefix="media-for-anki")
svg_no_pic = copy.deepcopy(svg)
svg_no_pic.remove(svg_no_pic[0])
strip_attributes(svg_no_pic, useless_attribs)
svg_fname = os.path.join(media_dir, "source_svg.svg")
f = open(svg_fname, 'w')
f.write(etree.tostring(svg_no_pic))
f.close()
fnames_q_svg = gen_fnames_q(media_dir, nr_of_cards, 'svg')
fnames_a_svg = gen_fnames_a(media_dir, nr_of_cards, 'svg')
# Generate the question sides of the cards:
for i in xrange(nr_of_cards):
svg_i = copy.deepcopy(svg)
shapes_layer = svg_i[shapes_layer_index]
set_color_recursive(shapes_layer[i + 1], q_color) ## <title>
svg_i.remove(svg_i[0])
strip_attributes(svg_i, useless_attribs)
f = open(fnames_q_svg[i], 'w')
f.write(etree.tostring(svg_i))
f.close()
# Generate the answer sides of the cards:
for i in xrange(nr_of_cards):
svg_i = copy.deepcopy(svg)
shapes_layer = svg_i[shapes_layer_index]
shapes_layer.remove(shapes_layer[i + 1])
svg_i.remove(svg_i[0])
strip_attributes(svg_i, useless_attribs)
f = open(fnames_a_svg[i], 'w')
f.write(etree.tostring(svg_i))
f.close()
add_notes.gui_add_QA_notes(fnames_q_svg, fnames_a_svg, media_dir, tags,
svg_fname, fname_original, header, footer, did)
return media_dir
