testing/tools/fixup_pdf_template.py - pdfium - Git at Google

 #!/usr/bin/env python
 # Copyright 2014 The PDFium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 """Expands a hand-written PDF testcase (template) into a valid PDF file.

 There are several places in a PDF file where byte-offsets are required. This
 script replaces {{name}}-style variables in the input with calculated results

   {{include path/to/file}} - inserts file's contents into stream.
   {{header}} - expands to the header comment required for PDF files.
   {{xref}} - expands to a generated xref table, noting the offset.
   {{trailer}} - expands to a standard trailer with "1 0 R" as the /Root.
   {{startxref} - expands to a startxref directive followed by correct offset.
   {{object x y}} - expands to |x y obj| declaration, noting the offset.
   {{streamlen}} - expands to |/Length n|.
 """

 import cStringIO
 import optparse
 import os
 import re
 import sys


 class StreamLenState:
   START = 1
   FIND_STREAM = 2
   FIND_ENDSTREAM = 3


 class TemplateProcessor:
   HEADER_TOKEN = '{{header}}'
   HEADER_REPLACEMENT = '%PDF-1.7\n%\xa0\xf2\xa4\xf4'

   XREF_TOKEN = '{{xref}}'
   XREF_REPLACEMENT = 'xref\n%d %d\n'

   XREF_REPLACEMENT_N = '%010d %05d n \n'
   XREF_REPLACEMENT_F = '0000000000 65535 f \n'
   # XREF rows must be exactly 20 bytes - space required.
   assert len(XREF_REPLACEMENT_F) == 20

   TRAILER_TOKEN = '{{trailer}}'
   TRAILER_REPLACEMENT = 'trailer <<\n  /Root 1 0 R\n  /Size %d\n>>'

   STARTXREF_TOKEN = '{{startxref}}'
   STARTXREF_REPLACEMENT = 'startxref\n%d'

   OBJECT_PATTERN = r'\{\{object\s+(\d+)\s+(\d+)\}\}'
   OBJECT_REPLACEMENT = r'\1 \2 obj'

   STREAMLEN_TOKEN = '{{streamlen}}'
   STREAMLEN_REPLACEMENT = '/Length %d'

   def __init__(self):
     self.streamlen_state = StreamLenState.START
     self.streamlens = []
     self.offset = 0
     self.xref_offset = 0
     self.max_object_number = 0
     self.objects = {}

   def insert_xref_entry(self, object_number, generation_number):
     self.objects[object_number] = (self.offset, generation_number)
     self.max_object_number = max(self.max_object_number, object_number)

   def generate_xref_table(self):
     result = self.XREF_REPLACEMENT % (0, self.max_object_number + 1)
     for i in range(0, self.max_object_number + 1):
       if i in self.objects:
         result += self.XREF_REPLACEMENT_N % self.objects[i]
       else:
         result += self.XREF_REPLACEMENT_F
     return result

   def preprocess_line(self, line):
     if self.STREAMLEN_TOKEN in line:
       assert self.streamlen_state == StreamLenState.START
       self.streamlen_state = StreamLenState.FIND_STREAM
       self.streamlens.append(0)
       return

     if (self.streamlen_state == StreamLenState.FIND_STREAM and
         line.rstrip() == 'stream'):
       self.streamlen_state = StreamLenState.FIND_ENDSTREAM
       return

     if self.streamlen_state == StreamLenState.FIND_ENDSTREAM:
       if line.rstrip() == 'endstream':
         self.streamlen_state = StreamLenState.START
       else:
         self.streamlens[-1] += len(line)

   def process_line(self, line):
     if self.HEADER_TOKEN in line:
       line = line.replace(self.HEADER_TOKEN, self.HEADER_REPLACEMENT)
     if self.STREAMLEN_TOKEN in line:
       sub = self.STREAMLEN_REPLACEMENT % self.streamlens.pop(0)
       line = re.sub(self.STREAMLEN_TOKEN, sub, line)
     if self.XREF_TOKEN in line:
       self.xref_offset = self.offset
       line = self.generate_xref_table()
     if self.TRAILER_TOKEN in line:
       replacement = self.TRAILER_REPLACEMENT % (self.max_object_number + 1)
       line = line.replace(self.TRAILER_TOKEN, replacement)
     if self.STARTXREF_TOKEN in line:
       replacement = self.STARTXREF_REPLACEMENT % self.xref_offset
       line = line.replace(self.STARTXREF_TOKEN, replacement)
     match = re.match(self.OBJECT_PATTERN, line)
     if match:
       self.insert_xref_entry(int(match.group(1)), int(match.group(2)))
       line = re.sub(self.OBJECT_PATTERN, self.OBJECT_REPLACEMENT, line)
     self.offset += len(line)
     return line


 def expand_file(infile, output_path):
   processor = TemplateProcessor()
   try:
     with open(output_path, 'wb') as outfile:
       preprocessed = cStringIO.StringIO()
       for line in infile:
         preprocessed.write(line)
         processor.preprocess_line(line)
       preprocessed.seek(0)
       for line in preprocessed:
         outfile.write(processor.process_line(line))
   except IOError:
     print >> sys.stderr, 'failed to process %s' % input_path


 def insert_includes(input_path, output_file, visited_set):
   input_path = os.path.normpath(input_path)
   if input_path in visited_set:
     print >> sys.stderr, 'Circular inclusion %s, ignoring' % input_path
     return
   visited_set.add(input_path)
   try:
     with open(input_path, 'rb') as infile:
       for line in infile:
         match = re.match(r'\s*\{\{include\s+(.+)\}\}', line)
         if match:
           insert_includes(
               os.path.join(os.path.dirname(input_path), match.group(1)),
               output_file, visited_set)
         else:
           output_file.write(line)
   except IOError:
     print >> sys.stderr, 'failed to include %s' % input_path
     raise
   visited_set.discard(input_path)


 def main():
   parser = optparse.OptionParser()
   parser.add_option('--output-dir', default='')
   options, args = parser.parse_args()
   for testcase_path in args:
     testcase_filename = os.path.basename(testcase_path)
     testcase_root, _ = os.path.splitext(testcase_filename)
     output_dir = os.path.dirname(testcase_path)
     if options.output_dir:
       output_dir = options.output_dir
     intermediate_stream = cStringIO.StringIO()
     insert_includes(testcase_path, intermediate_stream, set())
     intermediate_stream.seek(0)
     output_path = os.path.join(output_dir, testcase_root + '.pdf')
     expand_file(intermediate_stream, output_path)
   return 0


 if __name__ == '__main__':
   sys.exit(main())
	#!/usr/bin/env python
	# Copyright 2014 The PDFium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	"""Expands a hand-written PDF testcase (template) into a valid PDF file.

	There are several places in a PDF file where byte-offsets are required. This
	script replaces {{name}}-style variables in the input with calculated results

	{{include path/to/file}} - inserts file's contents into stream.
	{{header}} - expands to the header comment required for PDF files.
	{{xref}} - expands to a generated xref table, noting the offset.
	{{trailer}} - expands to a standard trailer with "1 0 R" as the /Root.
	{{startxref} - expands to a startxref directive followed by correct offset.
	{{object x y}} - expands to \|x y obj\| declaration, noting the offset.
	{{streamlen}} - expands to \|/Length n\|.
	"""

	import cStringIO
	import optparse
	import os
	import re
	import sys


	class StreamLenState:
	START = 1
	FIND_STREAM = 2
	FIND_ENDSTREAM = 3


	class TemplateProcessor:
	HEADER_TOKEN = '{{header}}'
	HEADER_REPLACEMENT = '%PDF-1.7\n%\xa0\xf2\xa4\xf4'

	XREF_TOKEN = '{{xref}}'
	XREF_REPLACEMENT = 'xref\n%d %d\n'

	XREF_REPLACEMENT_N = '%010d %05d n \n'
	XREF_REPLACEMENT_F = '0000000000 65535 f \n'
	# XREF rows must be exactly 20 bytes - space required.
	assert len(XREF_REPLACEMENT_F) == 20

	TRAILER_TOKEN = '{{trailer}}'
	TRAILER_REPLACEMENT = 'trailer <<\n /Root 1 0 R\n /Size %d\n>>'

	STARTXREF_TOKEN = '{{startxref}}'
	STARTXREF_REPLACEMENT = 'startxref\n%d'

	OBJECT_PATTERN = r'\{\{object\s+(\d+)\s+(\d+)\}\}'
	OBJECT_REPLACEMENT = r'\1 \2 obj'

	STREAMLEN_TOKEN = '{{streamlen}}'
	STREAMLEN_REPLACEMENT = '/Length %d'

	def __init__(self):
	self.streamlen_state = StreamLenState.START
	self.streamlens = []
	self.offset = 0
	self.xref_offset = 0
	self.max_object_number = 0
	self.objects = {}

	def insert_xref_entry(self, object_number, generation_number):
	self.objects[object_number] = (self.offset, generation_number)
	self.max_object_number = max(self.max_object_number, object_number)

	def generate_xref_table(self):
	result = self.XREF_REPLACEMENT % (0, self.max_object_number + 1)
	for i in range(0, self.max_object_number + 1):
	if i in self.objects:
	result += self.XREF_REPLACEMENT_N % self.objects[i]
	else:
	result += self.XREF_REPLACEMENT_F
	return result

	def preprocess_line(self, line):
	if self.STREAMLEN_TOKEN in line:
	assert self.streamlen_state == StreamLenState.START
	self.streamlen_state = StreamLenState.FIND_STREAM
	self.streamlens.append(0)
	return

	if (self.streamlen_state == StreamLenState.FIND_STREAM and
	line.rstrip() == 'stream'):
	self.streamlen_state = StreamLenState.FIND_ENDSTREAM
	return

	if self.streamlen_state == StreamLenState.FIND_ENDSTREAM:
	if line.rstrip() == 'endstream':
	self.streamlen_state = StreamLenState.START
	else:
	self.streamlens[-1] += len(line)

	def process_line(self, line):
	if self.HEADER_TOKEN in line:
	line = line.replace(self.HEADER_TOKEN, self.HEADER_REPLACEMENT)
	if self.STREAMLEN_TOKEN in line:
	sub = self.STREAMLEN_REPLACEMENT % self.streamlens.pop(0)
	line = re.sub(self.STREAMLEN_TOKEN, sub, line)
	if self.XREF_TOKEN in line:
	self.xref_offset = self.offset
	line = self.generate_xref_table()
	if self.TRAILER_TOKEN in line:
	replacement = self.TRAILER_REPLACEMENT % (self.max_object_number + 1)
	line = line.replace(self.TRAILER_TOKEN, replacement)
	if self.STARTXREF_TOKEN in line:
	replacement = self.STARTXREF_REPLACEMENT % self.xref_offset
	line = line.replace(self.STARTXREF_TOKEN, replacement)
	match = re.match(self.OBJECT_PATTERN, line)
	if match:
	self.insert_xref_entry(int(match.group(1)), int(match.group(2)))
	line = re.sub(self.OBJECT_PATTERN, self.OBJECT_REPLACEMENT, line)
	self.offset += len(line)
	return line


	def expand_file(infile, output_path):
	processor = TemplateProcessor()
	try:
	with open(output_path, 'wb') as outfile:
	preprocessed = cStringIO.StringIO()
	for line in infile:
	preprocessed.write(line)
	processor.preprocess_line(line)
	preprocessed.seek(0)
	for line in preprocessed:
	outfile.write(processor.process_line(line))
	except IOError:
	print >> sys.stderr, 'failed to process %s' % input_path


	def insert_includes(input_path, output_file, visited_set):
	input_path = os.path.normpath(input_path)
	if input_path in visited_set:
	print >> sys.stderr, 'Circular inclusion %s, ignoring' % input_path
	return
	visited_set.add(input_path)
	try:
	with open(input_path, 'rb') as infile:
	for line in infile:
	match = re.match(r'\s*\{\{include\s+(.+)\}\}', line)
	if match:
	insert_includes(
	os.path.join(os.path.dirname(input_path), match.group(1)),
	output_file, visited_set)
	else:
	output_file.write(line)
	except IOError:
	print >> sys.stderr, 'failed to include %s' % input_path
	raise
	visited_set.discard(input_path)


	def main():
	parser = optparse.OptionParser()
	parser.add_option('--output-dir', default='')
	options, args = parser.parse_args()
	for testcase_path in args:
	testcase_filename = os.path.basename(testcase_path)
	testcase_root, _ = os.path.splitext(testcase_filename)
	output_dir = os.path.dirname(testcase_path)
	if options.output_dir:
	output_dir = options.output_dir
	intermediate_stream = cStringIO.StringIO()
	insert_includes(testcase_path, intermediate_stream, set())
	intermediate_stream.seek(0)
	output_path = os.path.join(output_dir, testcase_root + '.pdf')
	expand_file(intermediate_stream, output_path)
	return 0


	if __name__ == '__main__':
	sys.exit(main())