upstream/ipython Files · IPython/nbformat/v3/nbpy.py

Backport PR : ZMQ heartbeat channel: catch EINTR exceptions and continue....

Backport PR : ZMQ heartbeat channel: catch EINTR exceptions and continue. The zmq heartbeat channel exits when it encounters an "Interrupted system call", thereby causing the qtconsole to report that it is not responding, despite the console working perfectly fine. Observed in a large Qt application embedding the ipython qtconsole in KDE desktop. Fixes Inspired by

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      """Read and write notebooks as regular .py files.

      Authors:

      * Brian Granger

      """

      #-----------------------------------------------------------------------------

      #  Copyright (C) 2008-2011  The IPython Development Team

      #

      #  Distributed under the terms of the BSD License.  The full license is in

      #  the file COPYING, distributed as part of this software.

      #-----------------------------------------------------------------------------

      #-----------------------------------------------------------------------------

      # Imports

      #-----------------------------------------------------------------------------

      import re

      from .rwbase import NotebookReader, NotebookWriter

      from .nbbase import (

          new_code_cell, new_text_cell, new_worksheet,

          new_notebook, new_heading_cell, nbformat, nbformat_minor,

      )

      #-----------------------------------------------------------------------------

      # Code

      #-----------------------------------------------------------------------------

      _encoding_declaration_re = re.compile(r"^#.*coding[:=]\s*([-\w.]+)")

      class PyReaderError(Exception):

          pass

      class PyReader(NotebookReader):

          def reads(self, s, **kwargs):

              return self.to_notebook(s,**kwargs)

          def to_notebook(self, s, **kwargs):

              lines = s.splitlines()

              cells = []

              cell_lines = []

              kwargs = {}

              state = u'codecell'

              for line in lines:

                  if line.startswith(u'# <nbformat>') or _encoding_declaration_re.match(line):

                      pass

                  elif line.startswith(u'# <codecell>'):

                      cell = self.new_cell(state, cell_lines, **kwargs)

                      if cell is not None:

                          cells.append(cell)

                      state = u'codecell'

                      cell_lines = []

                      kwargs = {}

                  elif line.startswith(u'# <htmlcell>'):

                      cell = self.new_cell(state, cell_lines, **kwargs)

                      if cell is not None:

                          cells.append(cell)

                      state = u'htmlcell'

                      cell_lines = []

                      kwargs = {}

                  elif line.startswith(u'# <markdowncell>'):

                      cell = self.new_cell(state, cell_lines, **kwargs)

                      if cell is not None:

                          cells.append(cell)

                      state = u'markdowncell'

                      cell_lines = []

                      kwargs = {}

                  # VERSIONHACK: plaintext -> raw

                  elif line.startswith(u'# <rawcell>') or line.startswith(u'# <plaintextcell>'):

                      cell = self.new_cell(state, cell_lines, **kwargs)

                      if cell is not None:

                          cells.append(cell)

                      state = u'rawcell'

                      cell_lines = []

                      kwargs = {}

                  elif line.startswith(u'# <headingcell'):

                      cell = self.new_cell(state, cell_lines, **kwargs)

                      if cell is not None:

                          cells.append(cell)

                          cell_lines = []

                      m = re.match(r'# <headingcell level=(?P<level>\d)>',line)

                      if m is not None:

                          state = u'headingcell'

                          kwargs = {}

                          kwargs['level'] = int(m.group('level'))

                      else:

                          state = u'codecell'

                          kwargs = {}

                          cell_lines = []

                  else:

                      cell_lines.append(line)

              if cell_lines and state == u'codecell':

                  cell = self.new_cell(state, cell_lines)

                  if cell is not None:

                      cells.append(cell)

              ws = new_worksheet(cells=cells)

              nb = new_notebook(worksheets=[ws])

              return nb

          def new_cell(self, state, lines, **kwargs):

              if state == u'codecell':

                  input = u'\n'.join(lines)

                  input = input.strip(u'\n')

                  if input:

                      return new_code_cell(input=input)

              elif state == u'htmlcell':

                  text = self._remove_comments(lines)

                  if text:

                      return new_text_cell(u'html',source=text)

              elif state == u'markdowncell':

                  text = self._remove_comments(lines)

                  if text:

                      return new_text_cell(u'markdown',source=text)

              elif state == u'rawcell':

                  text = self._remove_comments(lines)

                  if text:

                      return new_text_cell(u'raw',source=text)

              elif state == u'headingcell':

                  text = self._remove_comments(lines)

                  level = kwargs.get('level',1)

                  if text:

                      return new_heading_cell(source=text,level=level)

          def _remove_comments(self, lines):

              new_lines = []

              for line in lines:

                  if line.startswith(u'#'):

                      new_lines.append(line[2:])

                  else:

                      new_lines.append(line)

              text = u'\n'.join(new_lines)

              text = text.strip(u'\n')

              return text

          def split_lines_into_blocks(self, lines):

              if len(lines) == 1:

                  yield lines[0]

                  raise StopIteration()

              import ast

              source = '\n'.join(lines)

              code = ast.parse(source)

              starts = [x.lineno-1 for x in code.body]

              for i in range(len(starts)-1):

                  yield '\n'.join(lines[starts[i]:starts[i+1]]).strip('\n')

              yield '\n'.join(lines[starts[-1]:]).strip('\n')

      class PyWriter(NotebookWriter):

          def writes(self, nb, **kwargs):

              lines = [u'# -*- coding: utf-8 -*-']

              lines.extend([

                  u'# <nbformat>%i.%i</nbformat>' % (nbformat, nbformat_minor),

                  u'',

              ])

              for ws in nb.worksheets:

                  for cell in ws.cells:

                      if cell.cell_type == u'code':

                          input = cell.get(u'input')

                          if input is not None:

                              lines.extend([u'# <codecell>',u''])

                              lines.extend(input.splitlines())

                              lines.append(u'')

                      elif cell.cell_type == u'html':

                          input = cell.get(u'source')

                          if input is not None:

                              lines.extend([u'# <htmlcell>',u''])

                              lines.extend([u'# ' + line for line in input.splitlines()])

                              lines.append(u'')

                      elif cell.cell_type == u'markdown':

                          input = cell.get(u'source')

                          if input is not None:

                              lines.extend([u'# <markdowncell>',u''])

                              lines.extend([u'# ' + line for line in input.splitlines()])

                              lines.append(u'')

                      elif cell.cell_type == u'raw':

                          input = cell.get(u'source')

                          if input is not None:

                              lines.extend([u'# <rawcell>',u''])

                              lines.extend([u'# ' + line for line in input.splitlines()])

                              lines.append(u'')

                      elif cell.cell_type == u'heading':

                          input = cell.get(u'source')

                          level = cell.get(u'level',1)

                          if input is not None:

                              lines.extend([u'# <headingcell level=%s>' % level,u''])

                              lines.extend([u'# ' + line for line in input.splitlines()])

                              lines.append(u'')

              lines.append('')

              return unicode('\n'.join(lines))

      _reader = PyReader()

      _writer = PyWriter()

      reads = _reader.reads

      read = _reader.read

      to_notebook = _reader.to_notebook

      write = _writer.write

      writes = _writer.writes

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				"""Read and write notebooks as regular .py files.

				Authors:

				* Brian Granger
				"""

				#-----------------------------------------------------------------------------
				# Copyright (C) 2008-2011 The IPython Development Team
				#
				# Distributed under the terms of the BSD License. The full license is in
				# the file COPYING, distributed as part of this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------

				import re
				from .rwbase import NotebookReader, NotebookWriter
				from .nbbase import (
				new_code_cell, new_text_cell, new_worksheet,
				new_notebook, new_heading_cell, nbformat, nbformat_minor,
				)

				#-----------------------------------------------------------------------------
				# Code
				#-----------------------------------------------------------------------------

				_encoding_declaration_re = re.compile(r"^#.coding[:=]\s([-\w.]+)")

				class PyReaderError(Exception):
				pass


				class PyReader(NotebookReader):

				def reads(self, s, **kwargs):
				return self.to_notebook(s,**kwargs)

				def to_notebook(self, s, **kwargs):
				lines = s.splitlines()
				cells = []
				cell_lines = []
				kwargs = {}
				state = u'codecell'
				for line in lines:
				if line.startswith(u'# <nbformat>') or _encoding_declaration_re.match(line):
				pass
				elif line.startswith(u'# <codecell>'):
				cell = self.new_cell(state, cell_lines, **kwargs)
				if cell is not None:
				cells.append(cell)
				state = u'codecell'
				cell_lines = []
				kwargs = {}
				elif line.startswith(u'# <htmlcell>'):
				cell = self.new_cell(state, cell_lines, **kwargs)
				if cell is not None:
				cells.append(cell)
				state = u'htmlcell'
				cell_lines = []
				kwargs = {}
				elif line.startswith(u'# <markdowncell>'):
				cell = self.new_cell(state, cell_lines, **kwargs)
				if cell is not None:
				cells.append(cell)
				state = u'markdowncell'
				cell_lines = []
				kwargs = {}
				# VERSIONHACK: plaintext -> raw
				elif line.startswith(u'# <rawcell>') or line.startswith(u'# <plaintextcell>'):
				cell = self.new_cell(state, cell_lines, **kwargs)
				if cell is not None:
				cells.append(cell)
				state = u'rawcell'
				cell_lines = []
				kwargs = {}
				elif line.startswith(u'# <headingcell'):
				cell = self.new_cell(state, cell_lines, **kwargs)
				if cell is not None:
				cells.append(cell)
				cell_lines = []
				m = re.match(r'# <headingcell level=(?P<level>\d)>',line)
				if m is not None:
				state = u'headingcell'
				kwargs = {}
				kwargs['level'] = int(m.group('level'))
				else:
				state = u'codecell'
				kwargs = {}
				cell_lines = []
				else:
				cell_lines.append(line)
				if cell_lines and state == u'codecell':
				cell = self.new_cell(state, cell_lines)
				if cell is not None:
				cells.append(cell)
				ws = new_worksheet(cells=cells)
				nb = new_notebook(worksheets=[ws])
				return nb

				def new_cell(self, state, lines, **kwargs):
				if state == u'codecell':
				input = u'\n'.join(lines)
				input = input.strip(u'\n')
				if input:
				return new_code_cell(input=input)
				elif state == u'htmlcell':
				text = self._remove_comments(lines)
				if text:
				return new_text_cell(u'html',source=text)
				elif state == u'markdowncell':
				text = self._remove_comments(lines)
				if text:
				return new_text_cell(u'markdown',source=text)
				elif state == u'rawcell':
				text = self._remove_comments(lines)
				if text:
				return new_text_cell(u'raw',source=text)
				elif state == u'headingcell':
				text = self._remove_comments(lines)
				level = kwargs.get('level',1)
				if text:
				return new_heading_cell(source=text,level=level)

				def _remove_comments(self, lines):
				new_lines = []
				for line in lines:
				if line.startswith(u'#'):
				new_lines.append(line[2:])
				else:
				new_lines.append(line)
				text = u'\n'.join(new_lines)
				text = text.strip(u'\n')
				return text

				def split_lines_into_blocks(self, lines):
				if len(lines) == 1:
				yield lines[0]
				raise StopIteration()
				import ast
				source = '\n'.join(lines)
				code = ast.parse(source)
				starts = [x.lineno-1 for x in code.body]
				for i in range(len(starts)-1):
				yield '\n'.join(lines[starts[i]:starts[i+1]]).strip('\n')
				yield '\n'.join(lines[starts[-1]:]).strip('\n')


				class PyWriter(NotebookWriter):

				def writes(self, nb, **kwargs):
				lines = [u'# -- coding: utf-8 --']
				lines.extend([
				u'# <nbformat>%i.%i</nbformat>' % (nbformat, nbformat_minor),
				u'',
				])
				for ws in nb.worksheets:
				for cell in ws.cells:
				if cell.cell_type == u'code':
				input = cell.get(u'input')
				if input is not None:
				lines.extend([u'# <codecell>',u''])
				lines.extend(input.splitlines())
				lines.append(u'')
				elif cell.cell_type == u'html':
				input = cell.get(u'source')
				if input is not None:
				lines.extend([u'# <htmlcell>',u''])
				lines.extend([u'# ' + line for line in input.splitlines()])
				lines.append(u'')
				elif cell.cell_type == u'markdown':
				input = cell.get(u'source')
				if input is not None:
				lines.extend([u'# <markdowncell>',u''])
				lines.extend([u'# ' + line for line in input.splitlines()])
				lines.append(u'')
				elif cell.cell_type == u'raw':
				input = cell.get(u'source')
				if input is not None:
				lines.extend([u'# <rawcell>',u''])
				lines.extend([u'# ' + line for line in input.splitlines()])
				lines.append(u'')
				elif cell.cell_type == u'heading':
				input = cell.get(u'source')
				level = cell.get(u'level',1)
				if input is not None:
				lines.extend([u'# <headingcell level=%s>' % level,u''])
				lines.extend([u'# ' + line for line in input.splitlines()])
				lines.append(u'')
				lines.append('')
				return unicode('\n'.join(lines))


				_reader = PyReader()
				_writer = PyWriter()

				reads = _reader.reads
				read = _reader.read
				to_notebook = _reader.to_notebook
				write = _writer.write
				writes = _writer.writes