def save_with_even_pages(exam_id, exam_pdf_file):
"""Save a finalized exam pdf with evem number of pages.
The exam is saved in the path returned by `get_exam_dir(exam_id)` with the name `exam.pdf`.
If the pdf has an odd number of pages, an extra blank page is added at the end,
this is specially usefull for printing and contatenating multiple copies at once.
Parameters
----------
exam_id : int
The exam identifier
exam_pdf_file : str or File like object
The exam pdf to be saved inthe data directory
"""
os.makedirs(exam_dir(exam_id), exist_ok=True)
pdf_path = exam_pdf_path(exam_id)
exam_pdf = PdfReader(exam_pdf_file)
pagecount = len(exam_pdf.pages)
if (pagecount % 2 == 0):
exam_pdf_file.seek(0)
exam_pdf_file.save(pdf_path)
return
new = PdfWriter()
new.addpages(exam_pdf.pages)
blank = PageMerge()
box = exam_pdf.pages[0].MediaBox
blank.mbox = box
blank = blank.render()
new.addpage(blank)
new.write(pdf_path)
def re_arrange(file_path, output_file_name, dic):
"""
The function reorder takes two arguments path and dic
path is the path of the source pdf file which is in wrong
order and then creates a modified pdf file with pages in the right order.
Parameters:
path : Path of the pdf file to be modified
dic : A dictionary with key value pairs of pages.
Returns:
None
"""
file_path = Path(file_path)
# create a pdf object using PdfReader that could be read
pdf_obj = PdfReader(file_path)
# pdf_obj.pages attribute gives the length of the pages in pdf
total_pages = len(pdf_obj.pages)
print("Total Pages in PDF are:", total_pages)
# Initialising the writer object using the PdfWriter class,from this we would create a new modified Pdf
writer = PdfWriter()
# new and old here mean the new position of the "old" page location
for new, old in dic.items():
# indexing pages list
writer.addpage(pdf_obj.pages[old - 1])
print(f"page{new} added from {old}")
# accesing the name of the file without .pdf to save it with a new one
writer.write(Path(os.path.dirname(file_path) + "\\" + output_file_name))
def ocr(tar_gz_filename, empty_page_threshold, language='eng'):
tar = tarfile.open(tar_gz_filename)
tar.extractall(path=TMP_DIR)
env = os.environ.copy()
env.update(dict(LD_LIBRARY_PATH=LIB_DIR, TESSDATA_PREFIX="{}/tessdata".format(SCRIPT_DIR)))
output = PdfWriter()
for filename in tar.getnames():
cmd = ['./tesseract', '-l', language,
'-c', 'min_orientation_margin=0', # don't leave out characters close to border
'{}/{}'.format(TMP_DIR, filename),
'{}/partial'.format(TMP_DIR),
'pdf']
try:
out = subprocess.check_output(cmd, cwd=SCRIPT_DIR, env=env, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError as e:
print('tesseract call failed, here\'s the output so far:')
print(e.output)
sys.exit(1)
print(out)
for p in PdfReader("{}/{}".format(TMP_DIR, "partial.pdf")).pages:
try:
if int(p.Contents['/Length']) < empty_page_threshold:
continue
except:
# if in doubt add the page
pass
output.addpage(p)
output.write('{}/output.pdf'.format(TMP_DIR))
for f in ['partial.pdf', DOWNLOAD_FILE] + tar.getnames():
os.remove("{}/{}".format(TMP_DIR, f))
return '{}/output.pdf'.format(TMP_DIR)
def post(self, request):
serializer = BookSerializer(data=request.data)
if serializer.is_valid():
inpfn = serializer.validated_data['pdf']
page_range = [
int(y) for y in serializer.validated_data['page'].split('-')
]
page_start = int(page_range[0])
page_end = int(page_range[1])
path = os.path.join(
'/books/pdfs',
'extracted_page_{}-{}.pdf'.format(page_start, page_end))
outfn = os.path.join(
'media',
'extracted_page_{}-{}.pdf'.format(page_start, page_end))
pages = PdfReader(inpfn).pages
outdata = PdfWriter(outfn)
page_range = (page_range + page_range[-1:])[:2]
for pagenum in range(page_range[0], page_range[1] + 1):
outdata.addpage(pages[pagenum - 1])
outdata.write()
serializer.validated_data['pdf'] = os.path.join(
'extracted_page_{}-{}.pdf'.format(page_start, page_end))
serializer.save()
return Response(serializer.data, status=status.HTTP_201_CREATED)
return Response(serializer.errors, status=status.HTTP_400_BAD_REQUEST)
def subset_pdf(inp_file, ranges): # Create PDF with subset pages
ranges = ranges.split(' ')
for x in ranges: # If ranges is something like a word or negative
for y in x.split('-'):
try:
int(y)
except ValueError:
return -1
ranges = ([int(y) for y in x.split('-')] for x in ranges)
pages = PdfReader(inp_file).pages
out_data = PdfWriter(inp_file)
num_pages = 0
try:
for one_range in ranges:
one_range = (one_range + one_range[-1:])[:2]
for page_num in range(one_range[0], one_range[1] + 1):
out_data.addpage(pages[page_num - 1])
num_pages += 1
except IndexError: # If user gave invalid pages
return -1
out_data.write()
return num_pages
def _generate_thumbnail_image_content_file(document):
content = None
if document.file_on_server:
content = document.unique_file.file_field.read()
else:
with requests.request('get', document.external_url,
stream=True) as response:
content = response.content
temp_pdf_path = os.path.join(settings.MEDIA_ROOT, 'document_thumbnails',
'temp.pdf')
with open(temp_pdf_path, 'w+') as f:
f.write(content)
reader = PdfReader(temp_pdf_path)
if len(reader.pages) > 1:
page = reader.pages[0]
writer = PdfWriter()
writer.addpage(page)
writer.write(temp_pdf_path)
images = Image(filename=temp_pdf_path, resolution=38)
images.background_color = Color('white')
images.alpha_channel = 'flatten'
os.remove(temp_pdf_path)
return ContentFile(images.make_blob('jpg'))
def delete(path, del_page):
"""
The function delete takes two arguments path and del_page
path is the path of the source pdf file.
This function deletes the pages from the pdf file.
Parameters:
path : Path of the pdf file.
del_page : A list of pages to be deleted.
Returns:
None
"""
# create a pdf object using PdfReader that could be read
pdf_obj = PdfReader(path)
# pdf_obj.pages attribute gives the length of the pages in pdf
total_pages = len(pdf_obj.pages)
print("Total Pages in PDF are:", total_pages)
# Initialising the writer object using the PdfWriter class
writer = PdfWriter()
# Adding only those pages that we need to this list excluding del_page
page_list = [
page for page in range(1, total_pages + 1) if page not in del_page
]
# Index of pdf_obj.pages starts from 0.
for page in page_list:
writer.addpage(pdf_obj.pages[page - 1])
# removing the original pdf
os.remove(path)
# writing the modified file to the memory
writer.write(path)
def pdfrw(self):
reader = PdfReader(self.file_name)
writer = PdfWriter(self.output)
for i in list(range(0, len(reader.pages))):
writer.addpage(self._pdfrw_adjust(reader.pages[i]))
writer.trailer.Info = IndirectPdfDict(reader.Info or {})
writer.write()
def split(fname, usernames, folder, pages=1):
"""
This function splits a big pdf into individual ones and names them
in the order given in a txt files. This function relies on the pdfrw library.
Disclaimer: I have not tested this function on quizzes with multiple pages :)
Args:
fname (str): Path to the large PDF to split.
usernames (str): List of usernames, in order, to be used as file names.
folder (str, optional): Folder to save the new PDFs in.
pages (int, optional): Number of pages to include in the smaller PDFs
Returns:
This function does not return anything.
"""
infile = PdfReader(fname)
page_num = 1
for i in range(len(infile.pages)):
out = PdfWriter()
if page_num < pages:
out.addpage(infile.pages[i])
page_num += 1
else:
out.addpage(infile.pages[i])
out.write("%s%s.pdf" % (folder, usernames.pop(0)))
page_num = 1
def upload_book(request):
if request.method == 'POST':
form = BookForm(request.POST, request.FILES)
if form.is_valid():
form2 = form.save(commit=False)
inpfn = form.cleaned_data['pdf']
print(inpfn)
page_range = [int(y) for y in form.cleaned_data['page'].split('-')]
page_start = int(page_range[0])
page_end = int(page_range[1])
path = os.path.join('/books/pdfs', 'extracted_page_{}-{}.pdf'.format(page_start, page_end))
outfn = os.path.join('media', 'extracted_page_{}-{}.pdf'.format(page_start, page_end))
pages = PdfReader(inpfn).pages
outdata = PdfWriter(outfn)
page_range = (page_range + page_range[-1:])[:2]
for pagenum in range(page_range[0], page_range[1]+1):
outdata.addpage(pages[pagenum-1])
outdata.write()
form2.pdf = os.path.join('extracted_page_{}-{}.pdf'.format(page_start, page_end))
form2.save()
return redirect('book_list')
else:
form = BookForm()
return render(request, 'upload_book.html', {
'form': form
})
def upscale(file_name, scale=1.5, margin_x=0, margin_y=0, suffix='scaled', tempdir=None):
"""Upscale a PDF to a large size."""
def adjust(page):
info = PageMerge().add(page)
x1, y1, x2, y2 = info.xobj_box
viewrect = (margin_x, margin_y, x2 - x1 - 2 * margin_x, y2 - y1 - 2 * margin_y)
page = PageMerge().add(page, viewrect=viewrect)
page[0].scale(scale)
return page.render()
# Set output file name
if tempdir:
output = NamedTemporaryFile(suffix='.pdf', dir=tempdir, delete=False).name
elif suffix:
output = os.path.join(os.path.dirname(file_name), add_suffix(file_name, suffix))
else:
output = NamedTemporaryFile(suffix='.pdf').name
reader = PdfReader(file_name)
writer = PdfWriter(output)
for i in list(range(0, len(reader.pages))):
writer.addpage(adjust(reader.pages[i]))
writer.trailer.Info = IndirectPdfDict(reader.Info or {})
writer.write()
return output
def extract_crossword(file_path: Path,
output_path: Path,
overwrite: bool = True) -> Path:
"""Save page with crossword.
Open a PDF document, search for a string identifying Le Monde
crossword, and save the corresponding page to a file.
Args:
file_path: Path of the PDF document to process
output_path: Path of the output directory
overwrite: Whether to overwrite existing files (default to True)
Returns:
Path of the saved file
"""
LOGGER.debug(f'Processing {file_path}')
max_extracted_pages = 15
rsrcmgr = PDFResourceManager(caching=True)
crossword_page = None
m = None
with open(file_path, 'rb') as f:
pages = [page for page in PDFPage.get_pages(f)]
LOGGER.debug(f'Found {len(pages)} pages')
first_checked_pageno = max(0, len(pages) - max_extracted_pages)
LOGGER.debug(f'Searching last {max_extracted_pages} pages first')
for i, page in enumerate(pages[first_checked_pageno:]):
m = _search_in_page(page, rsrcmgr)
if m:
crossword_page = first_checked_pageno + i
break
if not crossword_page:
LOGGER.debug(f'Extending search to all pages')
for i, page in enumerate(pages[:first_checked_pageno]):
m = _search_in_page(page, rsrcmgr)
if m:
crossword_page = i
break
if not crossword_page or not m:
raise CrosswordNotFoundError
LOGGER.debug(f'Crossword found on page {crossword_page}')
path = output_path / '{}.pdf'.format(m.group(1))
if path.exists() and not overwrite:
LOGGER.debug(f'File already exist ${path}')
raise FileAlreadyExistError
x = PdfReader(file_path)
page = x.pages[crossword_page]
y = PdfWriter()
y.addpage(page)
y.write(path)
return path
def go(inpfn, outfn):
reader = PdfReader(inpfn, decompress=False)
page, = reader.pages
writer = PdfWriter()
writer.addpage(adjust(page))
writer.trailer.Info = IndirectPdfDict(reader.Info)
writer.write(outfn)
def strip_pages_pdf(indir,
infile,
outdir=None,
outfile=None,
numpages=1,
keep=False):
'''
Deletes the first pages from a PDF. Omit outfile name to replace. Default is one page.
If option keep is specified, keeps first pages of PDF, dropping rest.
'''
if outfile is None:
outfile = infile
if outdir is None:
outdir = indir
output = PdfWriter()
inpath = os.path.join(indir, infile)
outpath = os.path.join(outdir, outfile)
for i, page in enumerate(PdfReader(inpath).pages):
if not keep:
if i > (numpages - 1):
output.addpage(page)
if keep:
if i <= (numpages - 1):
output.addpage(page)
output.write(outpath)
def two_up(data):
pdf = PdfReader(fdata=data)
pages = PageMerge() + pdf.pages
assert len(pages) == 2
left, right = pages
rotation = 270
scale = 0.7071067811865476 # sqrt(0.5)
x_increment = scale * pages.xobj_box[2]
left.Rotate = rotation
left.scale(scale)
right.Rotate = rotation
right.scale(scale)
right.x = x_increment
writer = PdfWriter()
writer.addpage(pages.render())
# retain and update metadata
pdf.Info.Creator = 'modulo-nic.py %s' % __version__
writer.trailer.Info = pdf.Info
sys.stdout.write('Content-Type: application/x-pdf\n\n')
writer.write(sys.stdout)
def addAction():
fileName = 'report.pdf'
pdf_writer = PdfWriter()
pdf_reader = PdfReader(fileName)
# JavaScript to be appended to PDF document.
# To learn more please check:
# "Developing Acrobat Applications Using JavaScript"
# and "JavaScript for Acrobat API Reference"
js = """
// genIDForm
var name = this.getField("nameText").value;
var age = this.getField("ageText").value;
var gender = this.getField("genderChoice").value;
// genQuestion1
var radioGroupSelectedVal = this.getField("q1").value;
// genQuestion2
var q2op1 = this.getField("q2op1").value;
var q2op2 = this.getField("q2op2").value;
var q2op3 = this.getField("q2op3").value;
var q2op4 = this.getField("q2op4").value;
var fieldsData = '';
fieldsData += "Name: " + name + " Age: " + age + " Gender: " + gender + "\\n";
fieldsData += "Feeling about JC: " + radioGroupSelectedVal + "\\n";
fieldsData += "1) " + q2op1 + ", 2) " + q2op2 + ", 3) " + q2op3 + ", 4) " + q2op4;
app.alert(fieldsData);
"""
# PDF document - Page 2
last = pdf_reader.pages[1]
# Note: We have just one form in the entire pdf!
# Annots are form fields
for field in last.Annots:
# Each field is compound with dictionaries inside of dictionaries inside of dictionaries...inside of dictionaries.
# buttonSubmit is the name we gave to the last text box - see survey.py line 64
if (field.get('/T') == '(buttonSubmit)'):
# AA - (Additional-Actions dictionary)
# Acrobat js api reference suggests this is where we should insert hidden actions - like javascript.
# For more please check: JavaScript for Acrobat API Reference
# Site: https://www.adobe.com/content/dam/acom/en/devnet/acrobat/pdfs/js_api_reference.pdf
# Page: 303 or search for AA
# D - An action that shall be performed when the mouse button is pressed inside the annotation's (field) active area.
# For more please check: Document management - Portable document format - part 1: PDF 1.7
# Site: https://www.adobe.com/content/dam/acom/en/devnet/pdf/pdfs/PDF32000_2008.pdf
# Page: 423 or search for "Entries in an annotation's additional-actions dictionary"
field.update(PdfDict(AA=PdfDict(D=make_js_action(js))))
break
# Make a copy of the original file
for page in pdf_reader.pages:
pdf_writer.addpage(page)
pdf_writer.write('reportChanged.pdf')
def duplicate_pages(original_filepath, output_filename, num_of_duplicates):
original = PdfReader(original_filepath)
output = PdfWriter()
for i in range(num_of_duplicates + 1):
for page in original.pages:
output.addpage(page)
output_stream = open(app.config['DOWNLOAD_FOLDER'] + output_filename, 'wb')
output.write(output_stream)
def split(number_of_pages, output):
pdf_obj = PdfReader(r'C:\Users\DELL\Python stuffs\pdf pypy\reportlab-sample.pdf')
total_pages = len(pdf_obj.pages)
writer = PdfWriter()
for page in range(number_of_pages):
if page <= total_pages:
writer.addpage(pdf_obj.pages[page])
writer.write(output)
def post(self, request):
fontname_g = "HeiseiKakuGo-W5"
pdfmetrics.registerFont(UnicodeCIDFont(fontname_g))
buffer = io.BytesIO()
cc = canvas.Canvas(buffer)
cc.setFont(fontname_g, 24)
page = PdfReader('media/pdf/sample.pdf', decompress=False).pages
pp = pagexobj(page[0])
# reader = PdfFileReader('media/pdf/sample.pdf')
# writer = PdfFileWriter()
test = {
"test1":
"test1",
"test2":
"S2",
"test3":
"テスト",
"test4": [
{
"key_label": "テスト1",
"flag": True
},
{
"key_label": "テスト2",
"flag": True
},
{
"key_label": "テスト3",
"flag": True
},
]
}
a = request.data['test_list']
for i in a:
self.test(cc, i.get('contents'), test)
cc.doForm(makerl(cc, pp))
cc.showPage()
cc.save()
buffer.seek(0)
# new_pdf = PdfFileReader(buffer)
# existing_page = reader.getPage(0)
# existing_page.mergePage(new_pdf.getPage(0))
# writer.addPage(existing_page)
# new = io.BytesIO()
# writer.write(new)
# new.seek(0)
# output_pdf = open('media/pdf/sample2.pdf', 'wb')
r = PdfReader(buffer)
y = PdfWriter()
y.addpage(r.pages[0])
with open('media/pdf/sample2.pdf', 'wb') as f:
y.write(f)
# writer.write(output_pdf)
# output_pdf.close()
return Response({'detail': _('Successfully confirmed email.')},
status=status.HTTP_201_CREATED)
def main():
parser = argparse.ArgumentParser(description="Strip ResearchGate additions from a PDF")
parser.add_argument("infile", metavar="input-filename", type=str, nargs=1,
help="PDF file to process")
parser.add_argument("outfile", metavar="output-filename", type=str, nargs=1,
help="name for processed output file")
args = parser.parse_args()
# This regular expression matches the form of the ResearchGate
# underlinings in the content streams. We match against a truncated form
# of the distinctive RGB triplet because it's not always given with
# the same accuracy.
# "0.3333333333 0.6941176471 0.9607843137"
regex = re.compile(r"""(0\.33333[0-9]+ 0\.694117[0-9]+ 0\.960784[0-9]+ RG
\d+\.?\d* w
\d+\.?\d* \d+\.?\d* m
\d+\.?\d* \d+\.?\d* )l
S""")
dict_pages = PdfReader(args.infile[0]).pages
def fix_stream(contents):
# Look for underlinings and make them invisible.
if not hasattr(contents, "stream"):
return
s = contents.stream
# We identify RG underlinings by their (hopefully unique)
# RGB colour triplet.
if s is not None and regex.search(s):
# Minimal change: change the line draw commands to
# moves, so no line is drawn. It would be more
# satisfying to remove the stream entirely, but it's
# simpler and safer to preserve the file structure
# (in particular, the stream length) wherever possible.
contents.stream = regex.sub("\\1m\nS", s)
for page in dict_pages:
if "/Annots" in page:
# Remove all annotations. This may of course cause some
# collateral damage, but PDFs of articles don't usually have
# annotations so probably this will just strip ResearchGate
# links. If this becomes a problem, it should be easy to
# identify RG annotations and remove only them.
page.pop("/Annots")
# There may be a stream in the Contents object and/or in its
# children, so we check for both.
fix_stream(page.Contents)
for contents in page.Contents:
fix_stream(contents)
writer = PdfWriter()
# Start at the second page to remove the ResearchGate cover sheet.
for page in dict_pages[1:]:
writer.addpage(page)
writer.write(args.outfile[0])
def run_stage(src, out):
i = PdfReader(src)
o = PdfWriter()
sum_i = len(i.pages)
num_i = i.Root.PageLabels.Nums
for r in range(1, len(num_i) // 2):
o.addpage(i.pages[int(num_i[r * 2]) - 1])
o.addpage(i.pages[sum_i - 1])
o.write(out)
def merge_attachment(self):
filename = 'Print Packing List.pdf'
picking_obj = self.env['stock.picking']
picking = picking_obj.browse(self._context.get('active_ids'))
lst = []
writer = PdfWriter()
for pick in picking:
if pick.packing_list_bool:
pick.packing_list_print_bool = True
ship_name = 'Packing List' "%s" % pick.name
attachments = self.env['ir.attachment'].search([
('res_id', '=', pick.id), ('name', '=', ship_name)
])
for att in attachments:
lst.append(att)
def get4_fedex(srcpages):
scale = 0.88
srcpages = PageMerge() + srcpages
x_increment, y_increment = (scale * i
for i in srcpages.xobj_box[2:])
for i, page in enumerate(srcpages):
page.scale(scale)
return srcpages.render()
for pdf in lst:
pages = PdfReader(BytesIO(base64.decodestring(pdf.datas))).pages
pick1 = picking_obj.browse(pdf.res_id)
for index in range(0, len(pages), 1):
writer.addpage(get4_fedex(pages[index:index + 1]))
s = BytesIO()
writer.write(s)
reader = PdfFileReader(s)
writer = PdfFileWriter()
for page in range(0, reader.getNumPages()):
p = reader.getPage(page)
writer.addPage(p)
s = BytesIO()
writer.write(s)
out = base64.b64encode(s.getvalue())
view_report_status_id = self.env['view.report'].create({
'file_name':
out,
'datas_fname':
filename
})
return {
'res_id': view_report_status_id.id,
'name': 'Print Packing List',
'view_type': 'form',
'view_mode': 'form',
'res_model': 'view.report',
'view_id': False,
'type': 'ir.actions.act_window',
}
def resize_2_a4(infn):
outfn = infn[:-4] + '-A4.pdf'
reader = PdfReader(infn)
writer = PdfWriter(outfn)
a4_size = get_size('A4.pdf', 0)
params = get_scale_margin(infn, a4_size, 0)
for page in reader.pages:
writer.addpage(adjust(page, params))
writer.trailer.Info = IndirectPdfDict(reader.Info or {})
writer.write()
def test_cut(start, end):
ipdf = PdfReader('book.pdf')
opdf = PdfWriter()
for i in range(start, end):
opdf.addpage(ipdf.pages[i])
opdf.write('pdfs/result.pdf')
ipdf = PdfReader('../pdfs/result.pdf')
return send_file('../pdfs/result.pdf')
def rotate(path, bad_page):
output=path[:-4]
reader = PdfReader(path)
writer = PdfWriter()
pages = reader.pages
for page in range(len(pages)):
if page == bad_page :
pages[bad_page].Rotate = 90
writer.addpage(pages[bad_page])
writer.write(output)
def appendPdfs(self, src, dst):
from pdfrw import PdfReader, PdfWriter
new_pdf = PdfWriter()
x = PdfReader(src)
y = PdfReader(dst)
new_pdf.addpage(x.pages[0])
print("Janraj")
new_pdf.addpage(y.pages[0])
print("CJ")
new_pdf.write("result.pdf")
def rotate_odd(path, output):
reader = PdfReader(path)
writer = PdfWriter()
pages = reader.pages
for page in range(len(pages)):
if page % 2:
pages[page].Rotate = 90
writer.addpage(pages[page])
writer.write(output)
def combine(inpfn, outfn, x, y, gap):
# Read all pages from input file
pages = PdfReader(inpfn).pages
# Object to write output PDF
writer = PdfWriter()
while pages:
writer.addpage(getPages(pages, x, y, gap))
writer.write(outfn)
def rotate_all_page(path):
output=path[:-4] +'_converted.pdf'
reader = PdfReader(path)
writer = PdfWriter()
pages = reader.pages
for page in range(len(pages)):
pages[page].Rotate = 90
writer.addpage(pages[page])
writer.write(output)
return(output)
print("It worked ooo")
def split(path, number_of_pages, output):
pdf_obj = PdfReader(path)
total_pages = len(pdf_obj.pages)
writer = PdfWriter()
for page in range(number_of_pages):
if page <= total_pages:
writer.addpage(pdf_obj.pages[page])
writer.write(output)
def pdf(rm_files_path, path_original_pdf, path_annotated_pdf, path_oap_pdf):
""" Render pdf with annotations. The path_oap_pdf defines the pdf
which includes only annotated pages.
"""
base_pdf = PdfReader(open(path_original_pdf, "rb"))
# Parse remarkable files and write into pdf
annotations_pdf = []
for page_nr in range(base_pdf.numPages):
rm_file_name = "%s/%d" % (rm_files_path, page_nr)
rm_file = "%s.rm" % rm_file_name
if not os.path.exists(rm_file):
annotations_pdf.append(None)
continue
page_layout = base_pdf.pages[page_nr].MediaBox
crop_box = base_pdf.pages[page_nr].CropBox
if page_layout is None:
page_layout = base_pdf.pages[page_nr].ArtBox
if page_layout is None:
annotations_pdf.append(None)
continue
image_width, image_height = float(page_layout[2]), float(
page_layout[3])
annotated_page = _render_rm_file(rm_file_name,
image_width=image_width,
image_height=image_height,
crop_box=crop_box)
if len(annotated_page.pages) <= 0:
annotations_pdf.append(None)
else:
page = annotated_page.pages[0]
annotations_pdf.append(page)
# Merge annotations pdf and original pdf
writer_full = PdfWriter()
writer_oap = PdfWriter()
for i in range(base_pdf.numPages):
annotations_page = annotations_pdf[i]
if annotations_page != None:
merger = PageMerge(base_pdf.pages[i])
merger.add(annotations_page).render()
writer_oap.addpage(base_pdf.pages[i])
writer_full.addpage(base_pdf.pages[i])
writer_full.write(path_annotated_pdf)
writer_oap.write(path_oap_pdf)
def Add_Title_Page(input_file, title_file, output_file, page):
# define the reader and writer objects
reader_input = PdfReader(input_file)
writer_output = PdfWriter()
watermark_input = PdfReader(title_file)
watermark = watermark_input.pages[page]
writer_output.addpage(watermark)
writer_output.addpages(reader_input.pages)
writer_output.write(output_file)
def get(self,id):
inpfn = 'teste.pdf'
ranges = [id]
#
assert ranges, "Expected at least one range"
#
ranges = ([int(y) for y in x.split('-')] for x in ranges)
outfn = '%sfrag' % os.path.basename(inpfn)
pages = PdfReader(inpfn).pages
outdata = PdfWriter()
#
for onerange in ranges:
onerange = (onerange + onerange[-1:])[:2]
for pagenum in range(onerange[0], onerange[1]+1):
outdata.addpage(pages[pagenum-1])
outdata.write(outfn)
#
pdfout = base64.encodestring(open(outfn,"rb").read())
#
self.write('<iframe src="data:application/pdf;base64,'+pdfout+'" style="position:fixed; top:0px; left:0px; bottom:0px; right:0px; width:100%; height:100%; border:none; margin:0; padding:0; overflow:hidden; z-index:999999;"/>')
So she did an 8.5x11" output with 0.5" margin all around
(actual size of useful area 7.5x10") and we scaled it
up by 4.8.
We also copy the Info dict to the new PDF.
'''
import sys
import os
from pdfrw import PdfReader, PdfWriter, PageMerge, IndirectPdfDict
def adjust(page, margin=36, scale=4.8):
info = PageMerge().add(page)
x1, y1, x2, y2 = info.xobj_box
viewrect = (margin, margin, x2 - x1 - 2 * margin, y2 - y1 - 2 * margin)
page = PageMerge().add(page, viewrect=viewrect)
page[0].scale(scale)
return page.render()
inpfn, = sys.argv[1:]
outfn = 'poster.' + os.path.basename(inpfn)
reader = PdfReader(inpfn)
writer = PdfWriter(outfn)
writer.addpage(adjust(reader.pages[0]))
writer.trailer.Info = IndirectPdfDict(reader.Info or {})
writer.write()
import re
import sys
import os
from pdfrw import PdfReader, PdfWriter
loc_pages = "pages"
loc_books = "books"
# Store the human-coded page nums in simple txt files separated by commas
for f in os.listdir(loc_pages):
with open(os.path.join(loc_pages, f)) as handle:
data = handle.read().strip('\n')
data = [int(p) for p in data.split(',')]
print data
# Corresponding book has same filename, diff extension
path_book = os.path.splitext(f)[0] + ".pdf"
path_book = os.path.join(loc_books, path_book)
# Try to open it
pages = PdfReader(path_book).pages
out_data = PdfWriter()
for p in data:
out_data.addpage(pages[p-1])
out_data.write('subset.%s' % os.path.basename(path_book))
args = parser.parse_args()
# The shuffling magic
even = PdfReader(args.evenFile[0])
odd = PdfReader(args.oddFile[0])
isEvenReversed = args.evenrev;
isOddReversed = args.oddrev;
all = PdfWriter()
blank = PageMerge()
blank.mbox = [0, 0, 612, 792] # 8.5 x 11
blank = blank.render()
if isEvenReversed and not isOddReversed:
for i in range(0, len(odd.pages)):
all.addpage(odd.pages[i])
all.addpage(even.pages[len(even.pages)-1-i])
elif isOddReversed and not isEvenReversed:
for i in range(0, len(odd.pages)):
all.addpage(odd.pages[len(odd.pages)-1-i])
all.addpage(even.pages[i])
elif isEvenReversed and isOddReversed:
for i in range(0, len(odd.pages)):
all.addpage(odd.pages[len(odd.pages)-1-i])
all.addpage(even.pages[len(even.pages)-1-i])
else:
for x,y in zip(odd.pages, even.pages):
all.addpage(x)
all.addpage(y)
all.write(args.resultFile[0])
# /usr/bin/python
# coding=utf-8
from pdfrw import PdfReader, PdfWriter
# Путь до автореферата
synopsis_path = '../synopsis.pdf'
# Путь до титульника Научного Доклада ГИА (должно быть две страницы: титульник и пустая)
gia_title_path = './gia_title.pdf'
synopsis = PdfReader(synopsis_path)
gia_title = PdfReader(gia_title_path)
sci_rep = PdfWriter()
for i, p in enumerate(synopsis.pages):
if i < 2:
sci_rep.addpage(gia_title.pages[i])
else:
sci_rep.addpage(p)
# Сохранение результата
sci_rep.write('./sci_rep.pdf')
def go(inpfn, outfn):
pages = PdfReader(inpfn, decompress=False).pages
writer = PdfWriter()
while pages:
writer.addpage(get4(pages))
writer.write(outfn)
page.AA = PdfDict()
# You probably should just wrap each JS action with a try/catch,
# because Chrome does no error reporting or even logging otherwise;
# you just get a silent failure.
page.AA.O = make_js_action("""
try {
%s
} catch (e) {
app.alert(e.message);
}
""" % (script))
page.Annots = PdfArray(annots)
return page
if len(sys.argv) > 1:
js_file = open(sys.argv[1], 'r')
fields = []
for line in js_file:
if not line.startswith('/// '): break
pieces = line.split()
params = [pieces[1]] + [float(token) for token in pieces[2:]]
fields.append(make_field(*params))
js_file.seek(0)
out = PdfWriter()
out.addpage(make_page(fields, js_file.read()))
out.write('result.pdf')
import os
import sys
from pdfrw import PdfReader, PdfWriter
if len(sys.argv) != 2:
print("Usage: InvertOrder.py FILETOINVERT")
sys.exit()
filename = sys.argv[1]
output = PdfWriter()
for p in reversed(PdfReader(filename).pages):
output.addpage(p)
fname, fext = os.path.splitext(filename)
outname = fname + "_inv" + fext
print("Writing output to "+outname)
output.write(outname)
var BALL_HEIGHT = %(BALL_HEIGHT)s;
var BRICK_ROW_COUNT = %(BRICK_ROW_COUNT)s;
var BRICK_COLUMN_COUNT = %(BRICK_COLUMN_COUNT)s;
var BRICK_WIDTH = %(BRICK_WIDTH)s;
var BRICK_HEIGHT = %(BRICK_HEIGHT)s;
var BRICK_PADDING = %(BRICK_PADDING)s;
var BRICK_OFFSET_BOTTOM = %(BRICK_OFFSET_BOTTOM)s;
var BRICK_OFFSET_LEFT = %(BRICK_OFFSET_LEFT)s;
%(script)s
""" % locals())
page.Contents.stream = """
BT
/F1 24 Tf
150 300 Td (Move your mouse down here!) Tj
40 -100 Td (also, README below...) Tj
ET
"""
readme = PdfReader('README.pdf')
out = PdfWriter()
out.addpage(page)
for readme_page in readme.pages:
out.addpage(readme_page)
out.write('breakout.pdf')
def write_async(self, outfile, process_semaphore, progress_cb=None):
pdf_writer = PdfWriter(version="1.5")
pdf_group = PdfDict()
pdf_group.indirect = True
pdf_group.CS = PdfName.DeviceRGB
pdf_group.I = PdfBool(True)
pdf_group.S = PdfName.Transparency
pdf_font_mapping = PdfDict()
pdf_font_mapping.indirect = True
pdf_font_mapping.F1 = self._build_font()
for _ in self._pages:
pdf_page = PdfDict()
pdf_page.Type = PdfName.Page
pdf_writer.addpage(pdf_page)
# pdfrw makes a internal copy of the pages
# use the copy so that references to pages in links are correct
pdf_pages = list(pdf_writer.pagearray)
# Handle all pages in parallel
@asyncio.coroutine
def make_page(page, pdf_page, psem):
# Prepare everything in parallel
@asyncio.coroutine
def get_pdf_thumbnail(psem):
if page.thumbnail is None:
return None
return (yield from page.thumbnail.pdf_thumbnail(psem))
@asyncio.coroutine
def get_pdf_background(psem):
if page.background is None:
return None
return (yield from page.background.pdf_image(psem))
@asyncio.coroutine
def get_pdf_mask(foreground, psem):
if foreground.color is not None:
return None
return (yield from foreground.pdf_mask(psem))
pdf_thumbnail, pdf_background, pdf_foregrounds, pdf_masks = (
yield from asyncio.gather(
get_pdf_thumbnail(psem),
get_pdf_background(psem),
asyncio.gather(*[fg.pdf_image(psem)
for fg in page.foreground]),
asyncio.gather(*[get_pdf_mask(fg, psem)
for fg in page.foreground])))
pdf_page.MediaBox = PdfArray([0, 0,
PdfNumber(page.width),
PdfNumber(page.height)])
pdf_page.Group = pdf_group
pdf_resources = PdfDict()
pdf_xobject = PdfDict()
if pdf_thumbnail is not None:
pdf_page.Thumb = pdf_thumbnail
im_index = 0
# Save graphics state and scale unity rectangle to page size
matrix = TransformationMatrix()
matrix.scale(page.width, page.height)
before_graphics = ("q\n" +
"%s cm\n" % matrix.to_pdf())
after_graphics = "\nQ\n"
contents = ""
graphics = ""
current_color = None
if page.color != self._factory.WHITE:
if current_color != page.color:
current_color = page.color
graphics += page.color.to_pdf() + " rg "
graphics += ("0 0 1 1 re " +
"f\n")
if pdf_background is not None:
pdf_xobject[PdfName("Im%d" % im_index)] = pdf_background
graphics += "/Im%d Do\n" % im_index
im_index += 1
for foreground, pdf_foreground, pdf_mask in zip(
page.foreground, pdf_foregrounds, pdf_masks):
if pdf_mask is not None:
pdf_xobject[PdfName("Im%d" % im_index)] = pdf_mask
im_index += 1
pdf_xobject[PdfName("Im%d" % im_index)] = pdf_foreground
if (foreground.color is not None and
current_color != foreground.color):
current_color = foreground.color
graphics += foreground.color.to_pdf() + " rg "
graphics += "/Im%d Do\n" % im_index
im_index += 1
if graphics:
contents += (before_graphics + graphics.rstrip(" \n") +
after_graphics)
current_color = None
before_text = ("BT\n" +
"/F1 1 Tf 3 Tr\n")
after_text = "\nET\n"
text = ""
pdf_annots = []
for t in page.text:
if t.text:
matrix = TransformationMatrix()
# Glyph size is 0.5 x 1
matrix.scale(2 / len(t.text), 1)
matrix.translate(-0.5, -0.5)
if t.direction == "ltr":
pass
elif t.direction == "rtl":
matrix.translate(0, -1)
elif t.direction == "ttb":
matrix.rotate(90)
matrix.rotate(-t.rotation)
matrix.translate(0.5, 0.5)
matrix.scale(t.width, t.height)
matrix.translate(t.x, t.y)
text += "%s Tm %s Tj\n" % (
matrix.to_pdf(),
PdfString().from_bytes(
t.text.encode("utf-16-be"), bytes_encoding="hex"))
if t.external_link is not None or t.internal_link is not None:
pdf_annot = PdfDict()
pdf_annots.append(pdf_annot)
pdf_annot.Type = PdfName.Annot
pdf_annot.Subtype = PdfName.Link
pdf_annot.Border = [0, 0, 0]
pdf_annot.Rect = [PdfNumber(t.x),
PdfNumber(t.y),
PdfNumber(t.x + t.width),
PdfNumber(t.y + t.height)]
if t.external_link is not None:
pdf_a = PdfDict()
pdf_annot.A = pdf_a
pdf_a.Type = PdfName.Action
pdf_a.S = PdfName.URI
pdf_a.URI = t.external_link.decode("latin-1")
if t.internal_link is not None:
pdf_target_page = pdf_pages[t.internal_link[0]]
target_x, target_y = t.internal_link[1]
pdf_annot.Dest = [
pdf_target_page,
PdfName.XYZ,
PdfNumber(target_x),
PdfNumber(target_y),
0]
text = text.rstrip(" \n")
if text:
pdf_resources.Font = pdf_font_mapping
contents += (before_text + text + after_text)
contents = contents.rstrip(" \n")
if contents:
pdf_contents = PdfDict()
pdf_contents.indirect = True
pdf_page.Contents = pdf_contents
if COMPRESS_PAGE_CONTENTS:
pdf_contents.Filter = [PdfName.FlateDecode]
pdf_contents.stream = zlib.compress(
contents.encode("latin-1"),
9).decode("latin-1")
else:
pdf_contents.stream = contents
if pdf_annots:
pdf_page.Annots = pdf_annots
if pdf_xobject:
pdf_resources.XObject = pdf_xobject
if pdf_resources:
pdf_page.Resources = pdf_resources
# Report progress
nonlocal finished_pages
finished_pages += 1
if progress_cb:
progress_cb(finished_pages / len(self._pages))
finished_pages = 0
yield from asyncio.gather(
*[make_page(page, pdf_page, process_semaphore)
for page, pdf_page in zip(self._pages, pdf_pages)])
with TemporaryDirectory(prefix="djpdf-") as temp_dir:
pdf_writer.write(path.join(temp_dir, "temp.pdf"))
cmd = [QPDF_CMD,
"--stream-data=preserve",
"--object-streams=preserve",
"--normalize-content=n"]
if LINEARIZE_PDF:
cmd.extend(["--linearize"])
cmd.extend([path.abspath(path.join(temp_dir, "temp.pdf")),
path.abspath(outfile)])
yield from run_command_async(cmd, process_semaphore)
usage: 4up.py my.pdf
Creates 4up.my.pdf with a single output page for every
4 input pages.
"""
import sys
import os
from pdfrw import PdfReader, PdfWriter, PageMerge
def get4(srcpages):
scale = 0.5
srcpages = PageMerge() + srcpages
x_increment, y_increment = (scale * i for i in srcpages.xobj_box[2:])
for i, page in enumerate(srcpages):
page.scale(scale)
page.x = x_increment if i & 1 else 0
page.y = 0 if i & 2 else y_increment
return srcpages.render()
inpfn, = sys.argv[1:]
outfn = "4up." + os.path.basename(inpfn)
pages = PdfReader(inpfn).pages
writer = PdfWriter()
for index in range(0, len(pages), 4):
writer.addpage(get4(pages[index : index + 4]))
writer.write(outfn)
#!/usr/bin/env python
'''
usage: subset.py my.pdf page[range] [page[range]] ...
eg. subset.py 1-3 5 7-9
Creates subset.my.pdf
'''
import sys
import os
from pdfrw import PdfReader, PdfWriter
inpfn = sys.argv[1]
ranges = sys.argv[2:]
assert ranges, "Expected at least one range"
ranges = ([int(y) for y in x.split('-')] for x in ranges)
outfn = 'subset.%s' % os.path.basename(inpfn)
pages = PdfReader(inpfn).pages
outdata = PdfWriter(outfn)
for onerange in ranges:
onerange = (onerange + onerange[-1:])[:2]
for pagenum in range(onerange[0], onerange[1]+1):
outdata.addpage(pages[pagenum-1])
outdata.write()
