upstream/ipython Files · IPython/core/inputtransformer2.py

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      import re

      from typing import List, Tuple

      from IPython.utils import tokenize2

      from IPython.utils.tokenutil import generate_tokens

      def leading_indent(lines):

          """Remove leading indentation.

          If the first line starts with a spaces or tabs, the same whitespace will be

          removed from each following line.

          """

          m = re.match(r'^[ \t]+', lines[0])

          if not m:

              return lines

          space = m.group(0)

          n = len(space)

          return [l[n:] if l.startswith(space) else l

                  for l in lines]

      class PromptStripper:

          """Remove matching input prompts from a block of input.

          Parameters

          ----------

          prompt_re : regular expression

              A regular expression matching any input prompt (including continuation)

          initial_re : regular expression, optional

              A regular expression matching only the initial prompt, but not continuation.

              If no initial expression is given, prompt_re will be used everywhere.

              Used mainly for plain Python prompts, where the continuation prompt

              ``...`` is a valid Python expression in Python 3, so shouldn't be stripped.

          If initial_re and prompt_re differ,

          only initial_re will be tested against the first line.

          If any prompt is found on the first two lines,

          prompts will be stripped from the rest of the block.

          """

          def __init__(self, prompt_re, initial_re=None):

              self.prompt_re = prompt_re

              self.initial_re = initial_re or prompt_re

          def _strip(self, lines):

              return [self.prompt_re.sub('', l, count=1) for l in lines]

          def __call__(self, lines):

              if self.initial_re.match(lines[0]) or \

                      (len(lines) > 1 and self.prompt_re.match(lines[1])):

                  return self._strip(lines)

              return lines

      classic_prompt = PromptStripper(

          prompt_re=re.compile(r'^(>>>|\.\.\.)( |$)'),

          initial_re=re.compile(r'^>>>( |$)')

      )

      ipython_prompt = PromptStripper(re.compile(r'^(In \[\d+\]: |\s*\.{3,}: ?)'))

      def cell_magic(lines):

          if not lines[0].startswith('%%'):

              return lines

          if re.match('%%\w+\?', lines[0]):

              # This case will be handled by help_end

              return lines

          magic_name, first_line = lines[0][2:].partition(' ')

          body = '\n'.join(lines[1:])

          return ['get_ipython().run_cell_magic(%r, %r, %r)' % (magic_name, first_line, body)]

      line_transforms = [

          leading_indent,

          classic_prompt,

          ipython_prompt,

          cell_magic,

      ]

      # -----

      def help_end(tokens_by_line):

          pass

      def escaped_command(tokens_by_line):

          pass

      def _find_assign_op(token_line):

          # Find the first assignment in the line ('=' not inside brackets)

          # We don't try to support multiple special assignment (a = b = %foo)

          paren_level = 0

          for i, ti in enumerate(token_line):

              s = ti.string

              if s == '=' and paren_level == 0:

                  return i 

              if s in '([{':

                  paren_level += 1

              elif s in ')]}':

                  paren_level -= 1

      def find_end_of_continued_line(lines, start_line: int):

          """Find the last line of a line explicitly extended using backslashes.

          Uses 0-indexed line numbers.

          """

          end_line = start_line

          while lines[end_line].endswith('\\\n'):

              end_line += 1

              if end_line >= len(lines):

                  break

          return end_line

      def assemble_continued_line(lines, start: Tuple[int, int], end_line: int):

          """Assemble pieces of a continued line into a single line.

          Uses 0-indexed line numbers. *start* is (lineno, colno).

          """

          parts = [lines[start[0]][start[1]:]] + lines[start[0]+1:end_line+1]

          return ' '.join([p[:-2] for p in parts[:-1]]  # Strip backslash+newline

                          + [parts[-1][:-1]])         # Strip newline from last line

      class MagicAssign:

          @staticmethod

          def find(tokens_by_line):

              """Find the first magic assignment (a = %foo) in the cell.

              Returns (line, column) of the % if found, or None. *line* is 1-indexed.

              """

              for line in tokens_by_line:

                  assign_ix = _find_assign_op(line)

                  if (assign_ix is not None) \

                          and (len(line) >= assign_ix + 2) \

                          and (line[assign_ix+1].string == '%') \

                          and (line[assign_ix+2].type == tokenize2.NAME):

                      return line[assign_ix+1].start

          @staticmethod

          def transform(lines: List[str], start: Tuple[int, int]):

              """Transform a magic assignment found by find

              """

              start_line = start[0] - 1   # Shift from 1-index to 0-index

              start_col  = start[1]

              lhs = lines[start_line][:start_col]

              end_line = find_end_of_continued_line(lines, start_line)

              rhs = assemble_continued_line(lines, (start_line, start_col), end_line)

              assert rhs.startswith('%'), rhs

              magic_name, _, args = rhs[1:].partition(' ')

              lines_before = lines[:start_line]

              call = "get_ipython().run_line_magic({!r}, {!r})".format(magic_name, args)

              new_line = lhs + call + '\n'

              lines_after = lines[end_line+1:]

              return lines_before + [new_line] + lines_after

      class SystemAssign:

          @staticmethod

          def find(tokens_by_line):

              """Find the first system assignment (a = !foo) in the cell.

              Returns (line, column) of the ! if found, or None. *line* is 1-indexed.

              """

              for line in tokens_by_line:

                  assign_ix = _find_assign_op(line)

                  if (assign_ix is not None) \

                          and (len(line) >= assign_ix + 2) \

                          and (line[assign_ix + 1].type == tokenize2.ERRORTOKEN):

                      ix = assign_ix + 1

                      while ix < len(line) and line[ix].type == tokenize2.ERRORTOKEN:

                          if line[ix].string == '!':

                              return line[ix].start

                          elif not line[ix].string.isspace():

                              break

                          ix += 1

          @staticmethod

          def transform(lines: List[str], start: Tuple[int, int]):

              """Transform a system assignment found by find

              """

              start_line = start[0] - 1  # Shift from 1-index to 0-index

              start_col = start[1]

              lhs = lines[start_line][:start_col]

              end_line = find_end_of_continued_line(lines, start_line)

              rhs = assemble_continued_line(lines, (start_line, start_col), end_line)

              assert rhs.startswith('!'), rhs

              cmd = rhs[1:]

              lines_before = lines[:start_line]

              call = "get_ipython().getoutput({!r})".format(cmd)

              new_line = lhs + call + '\n'

              lines_after = lines[end_line + 1:]

              return lines_before + [new_line] + lines_after

      # The escape sequences that define the syntax transformations IPython will

      # apply to user input.  These can NOT be just changed here: many regular

      # expressions and other parts of the code may use their hardcoded values, and

      # for all intents and purposes they constitute the 'IPython syntax', so they

      # should be considered fixed.

      ESC_SHELL  = '!'     # Send line to underlying system shell

      ESC_SH_CAP = '!!'    # Send line to system shell and capture output

      ESC_HELP   = '?'     # Find information about object

      ESC_HELP2  = '??'    # Find extra-detailed information about object

      ESC_MAGIC  = '%'     # Call magic function

      ESC_MAGIC2 = '%%'    # Call cell-magic function

      ESC_QUOTE  = ','     # Split args on whitespace, quote each as string and call

      ESC_QUOTE2 = ';'     # Quote all args as a single string, call

      ESC_PAREN  = '/'     # Call first argument with rest of line as arguments

      ESCAPE_SINGLES = {'!', '?', '%', ',', ';', '/'}

      ESCAPE_DOUBLES = {'!!', '??'}  # %% (cell magic) is handled separately

      def _make_help_call(target, esc, next_input=None):

          """Prepares a pinfo(2)/psearch call from a target name and the escape

          (i.e. ? or ??)"""

          method  = 'pinfo2' if esc == '??' \

                      else 'psearch' if '*' in target \

                      else 'pinfo'

          arg = " ".join([method, target])

          #Prepare arguments for get_ipython().run_line_magic(magic_name, magic_args)

          t_magic_name, _, t_magic_arg_s = arg.partition(' ')

          t_magic_name = t_magic_name.lstrip(ESC_MAGIC)

          if next_input is None:

              return 'get_ipython().run_line_magic(%r, %r)' % (t_magic_name, t_magic_arg_s)

          else:

              return 'get_ipython().set_next_input(%r);get_ipython().run_line_magic(%r, %r)' % \

                 (next_input, t_magic_name, t_magic_arg_s)

      def _tr_help(content):

          "Translate lines escaped with: ?"

          # A naked help line should just fire the intro help screen

          if not content:

              return 'get_ipython().show_usage()'

          return _make_help_call(content, '?')

      def _tr_help2(content):

          "Translate lines escaped with: ??"

          # A naked help line should just fire the intro help screen

          if not content:

              return 'get_ipython().show_usage()'

          return _make_help_call(content, '??')

      def _tr_magic(content):

          "Translate lines escaped with: %"

          name, _, args = content.partition(' ')

          return 'get_ipython().run_line_magic(%r, %r)' % (name, args)

      def _tr_quote(content):

          "Translate lines escaped with: ,"

          name, _, args = content.partition(' ')

          return '%s("%s")' % (name, '", "'.join(args.split()) )

      def _tr_quote2(content):

          "Translate lines escaped with: ;"

          name, _, args = content.partition(' ')

          return '%s("%s")' % (name, args)

      def _tr_paren(content):

          "Translate lines escaped with: /"

          name, _, args = content.partition(' ')

          return '%s(%s)' % (name, ", ".join(args.split()))

      tr = { ESC_SHELL  : 'get_ipython().system({!r})'.format,

             ESC_SH_CAP : 'get_ipython().getoutput({!r})'.format,

             ESC_HELP   : _tr_help,

             ESC_HELP2  : _tr_help2,

             ESC_MAGIC  : _tr_magic,

             ESC_QUOTE  : _tr_quote,

             ESC_QUOTE2 : _tr_quote2,

             ESC_PAREN  : _tr_paren }

      class EscapedCommand:

          @staticmethod

          def find(tokens_by_line):

              """Find the first escaped command (%foo, !foo, etc.) in the cell.

              Returns (line, column) of the escape if found, or None. *line* is 1-indexed.

              """

              for line in tokens_by_line:

                  ix = 0

                  while line[ix].type in {tokenize2.INDENT, tokenize2.DEDENT}:

                      ix += 1

                  if line[ix].string in ESCAPE_SINGLES:

                      return line[ix].start

          @staticmethod

          def transform(lines, start):

              start_line = start[0] - 1  # Shift from 1-index to 0-index

              start_col = start[1]

              indent = lines[start_line][:start_col]

              end_line = find_end_of_continued_line(lines, start_line)

              line = assemble_continued_line(lines, (start_line, start_col), end_line)

              if line[:2] in ESCAPE_DOUBLES:

                  escape, content = line[:2], line[2:]

              else:

                  escape, content = line[:1], line[1:]

              call = tr[escape](content)

              lines_before = lines[:start_line]

              new_line = indent + call + '\n'

              lines_after = lines[end_line + 1:]

              return lines_before + [new_line] + lines_after

      def make_tokens_by_line(lines):

          tokens_by_line = [[]]

          for token in generate_tokens(iter(lines).__next__):

              tokens_by_line[-1].append(token)

              if token.type == tokenize2.NEWLINE:

                  tokens_by_line.append([])

          return tokens_by_line

      def show_linewise_tokens(s: str):

          """For investigation"""

          if not s.endswith('\n'):

              s += '\n'

          lines = s.splitlines(keepends=True)

          for line in make_tokens_by_line(lines):

              print("Line -------")

              for tokinfo in line:

                  print(" ", tokinfo)

      class TokenTransformers:

          def __init__(self):

              self.transformers = [

                  MagicAssign,

                  SystemAssign,

              ]

          def do_one_transform(self, lines):

              """Find and run the transform earliest in the code.

              Returns (changed, lines).

              This method is called repeatedly until changed is False, indicating

              that all available transformations are complete.

              The tokens following IPython special syntax might not be valid, so

              the transformed code is retokenised every time to identify the next

              piece of special syntax. Hopefully long code cells are mostly valid

              Python, not using lots of IPython special syntax, so this shouldn't be

              a performance issue. 

              """

              tokens_by_line = make_tokens_by_line(lines)

              candidates = []

              for transformer in self.transformers:

                  locn = transformer.find(tokens_by_line)

                  if locn:

                      candidates.append((locn, transformer))

              if not candidates:

                  # Nothing to transform

                  return False, lines

              first_locn, transformer = min(candidates)

              return True, transformer.transform(lines, first_locn)

          def __call__(self, lines):

              while True:

                  changed, lines = self.do_one_transform(lines)

                  if not changed:

                      return lines

      def assign_from_system(tokens_by_line, lines):

          pass

      def transform_cell(cell):

          if not cell.endswith('\n'):

              cell += '\n'  # Ensure every line has a newline

          lines = cell.splitlines(keepends=True)

          for transform in line_transforms:

              #print(transform, lines)

              lines = transform(lines)

          lines = TokenTransformers()(lines)

          for line in lines:

              print('~~', line)

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				import re
				from typing import List, Tuple
				from IPython.utils import tokenize2
				from IPython.utils.tokenutil import generate_tokens

				def leading_indent(lines):
				"""Remove leading indentation.

				If the first line starts with a spaces or tabs, the same whitespace will be
				removed from each following line.
				"""
				m = re.match(r'^[ \t]+', lines[0])
				if not m:
				return lines
				space = m.group(0)
				n = len(space)
				return [l[n:] if l.startswith(space) else l
				for l in lines]

				class PromptStripper:
				"""Remove matching input prompts from a block of input.

				Parameters
				----------
				prompt_re : regular expression
				A regular expression matching any input prompt (including continuation)
				initial_re : regular expression, optional
				A regular expression matching only the initial prompt, but not continuation.
				If no initial expression is given, prompt_re will be used everywhere.
				Used mainly for plain Python prompts, where the continuation prompt
				``...`` is a valid Python expression in Python 3, so shouldn't be stripped.

				If initial_re and prompt_re differ,
				only initial_re will be tested against the first line.
				If any prompt is found on the first two lines,
				prompts will be stripped from the rest of the block.
				"""
				def __init__(self, prompt_re, initial_re=None):
				self.prompt_re = prompt_re
				self.initial_re = initial_re or prompt_re

				def _strip(self, lines):
				return [self.prompt_re.sub('', l, count=1) for l in lines]

				def __call__(self, lines):
				if self.initial_re.match(lines[0]) or \
				(len(lines) > 1 and self.prompt_re.match(lines[1])):
				return self._strip(lines)
				return lines

				classic_prompt = PromptStripper(
				prompt_re=re.compile(r'^(>>>\|\.\.\.)( \|$)'),
				initial_re=re.compile(r'^>>>( \|$)')
				)

				ipython_prompt = PromptStripper(re.compile(r'^(In \[\d+\]: \|\s*\.{3,}: ?)'))

				def cell_magic(lines):
				if not lines[0].startswith('%%'):
				return lines
				if re.match('%%\w+\?', lines[0]):
				# This case will be handled by help_end
				return lines
				magic_name, first_line = lines[0][2:].partition(' ')
				body = '\n'.join(lines[1:])
				return ['get_ipython().run_cell_magic(%r, %r, %r)' % (magic_name, first_line, body)]

				line_transforms = [
				leading_indent,
				classic_prompt,
				ipython_prompt,
				cell_magic,
				]

				# -----

				def help_end(tokens_by_line):
				pass

				def escaped_command(tokens_by_line):
				pass

				def _find_assign_op(token_line):
				# Find the first assignment in the line ('=' not inside brackets)
				# We don't try to support multiple special assignment (a = b = %foo)
				paren_level = 0
				for i, ti in enumerate(token_line):
				s = ti.string
				if s == '=' and paren_level == 0:
				return i
				if s in '([{':
				paren_level += 1
				elif s in ')]}':
				paren_level -= 1

				def find_end_of_continued_line(lines, start_line: int):
				"""Find the last line of a line explicitly extended using backslashes.

				Uses 0-indexed line numbers.
				"""
				end_line = start_line
				while lines[end_line].endswith('\\\n'):
				end_line += 1
				if end_line >= len(lines):
				break
				return end_line

				def assemble_continued_line(lines, start: Tuple[int, int], end_line: int):
				"""Assemble pieces of a continued line into a single line.

				Uses 0-indexed line numbers. start is (lineno, colno).
				"""
				parts = [lines[start[0]][start[1]:]] + lines[start[0]+1:end_line+1]
				return ' '.join([p[:-2] for p in parts[:-1]] # Strip backslash+newline
				+ [parts[-1][:-1]]) # Strip newline from last line

				class MagicAssign:
				@staticmethod
				def find(tokens_by_line):
				"""Find the first magic assignment (a = %foo) in the cell.

				Returns (line, column) of the % if found, or None. line is 1-indexed.
				"""
				for line in tokens_by_line:
				assign_ix = _find_assign_op(line)
				if (assign_ix is not None) \
				and (len(line) >= assign_ix + 2) \
				and (line[assign_ix+1].string == '%') \
				and (line[assign_ix+2].type == tokenize2.NAME):
				return line[assign_ix+1].start

				@staticmethod
				def transform(lines: List[str], start: Tuple[int, int]):
				"""Transform a magic assignment found by find
				"""
				start_line = start[0] - 1 # Shift from 1-index to 0-index
				start_col = start[1]

				lhs = lines[start_line][:start_col]
				end_line = find_end_of_continued_line(lines, start_line)
				rhs = assemble_continued_line(lines, (start_line, start_col), end_line)
				assert rhs.startswith('%'), rhs
				magic_name, _, args = rhs[1:].partition(' ')

				lines_before = lines[:start_line]
				call = "get_ipython().run_line_magic({!r}, {!r})".format(magic_name, args)
				new_line = lhs + call + '\n'
				lines_after = lines[end_line+1:]

				return lines_before + [new_line] + lines_after


				class SystemAssign:
				@staticmethod
				def find(tokens_by_line):
				"""Find the first system assignment (a = !foo) in the cell.

				Returns (line, column) of the ! if found, or None. line is 1-indexed.
				"""
				for line in tokens_by_line:
				assign_ix = _find_assign_op(line)
				if (assign_ix is not None) \
				and (len(line) >= assign_ix + 2) \
				and (line[assign_ix + 1].type == tokenize2.ERRORTOKEN):
				ix = assign_ix + 1

				while ix < len(line) and line[ix].type == tokenize2.ERRORTOKEN:
				if line[ix].string == '!':
				return line[ix].start
				elif not line[ix].string.isspace():
				break
				ix += 1

				@staticmethod
				def transform(lines: List[str], start: Tuple[int, int]):
				"""Transform a system assignment found by find
				"""
				start_line = start[0] - 1 # Shift from 1-index to 0-index
				start_col = start[1]

				lhs = lines[start_line][:start_col]
				end_line = find_end_of_continued_line(lines, start_line)
				rhs = assemble_continued_line(lines, (start_line, start_col), end_line)
				assert rhs.startswith('!'), rhs
				cmd = rhs[1:]

				lines_before = lines[:start_line]
				call = "get_ipython().getoutput({!r})".format(cmd)
				new_line = lhs + call + '\n'
				lines_after = lines[end_line + 1:]

				return lines_before + [new_line] + lines_after

				# The escape sequences that define the syntax transformations IPython will
				# apply to user input. These can NOT be just changed here: many regular
				# expressions and other parts of the code may use their hardcoded values, and
				# for all intents and purposes they constitute the 'IPython syntax', so they
				# should be considered fixed.

				ESC_SHELL = '!' # Send line to underlying system shell
				ESC_SH_CAP = '!!' # Send line to system shell and capture output
				ESC_HELP = '?' # Find information about object
				ESC_HELP2 = '??' # Find extra-detailed information about object
				ESC_MAGIC = '%' # Call magic function
				ESC_MAGIC2 = '%%' # Call cell-magic function
				ESC_QUOTE = ',' # Split args on whitespace, quote each as string and call
				ESC_QUOTE2 = ';' # Quote all args as a single string, call
				ESC_PAREN = '/' # Call first argument with rest of line as arguments

				ESCAPE_SINGLES = {'!', '?', '%', ',', ';', '/'}
				ESCAPE_DOUBLES = {'!!', '??'} # %% (cell magic) is handled separately

				def _make_help_call(target, esc, next_input=None):
				"""Prepares a pinfo(2)/psearch call from a target name and the escape
				(i.e. ? or ??)"""
				method = 'pinfo2' if esc == '??' \
				else 'psearch' if '*' in target \
				else 'pinfo'
				arg = " ".join([method, target])
				#Prepare arguments for get_ipython().run_line_magic(magic_name, magic_args)
				t_magic_name, _, t_magic_arg_s = arg.partition(' ')
				t_magic_name = t_magic_name.lstrip(ESC_MAGIC)
				if next_input is None:
				return 'get_ipython().run_line_magic(%r, %r)' % (t_magic_name, t_magic_arg_s)
				else:
				return 'get_ipython().set_next_input(%r);get_ipython().run_line_magic(%r, %r)' % \
				(next_input, t_magic_name, t_magic_arg_s)

				def _tr_help(content):
				"Translate lines escaped with: ?"
				# A naked help line should just fire the intro help screen
				if not content:
				return 'get_ipython().show_usage()'

				return _make_help_call(content, '?')

				def _tr_help2(content):
				"Translate lines escaped with: ??"
				# A naked help line should just fire the intro help screen
				if not content:
				return 'get_ipython().show_usage()'

				return _make_help_call(content, '??')

				def _tr_magic(content):
				"Translate lines escaped with: %"
				name, _, args = content.partition(' ')
				return 'get_ipython().run_line_magic(%r, %r)' % (name, args)

				def _tr_quote(content):
				"Translate lines escaped with: ,"
				name, _, args = content.partition(' ')
				return '%s("%s")' % (name, '", "'.join(args.split()) )

				def _tr_quote2(content):
				"Translate lines escaped with: ;"
				name, _, args = content.partition(' ')
				return '%s("%s")' % (name, args)

				def _tr_paren(content):
				"Translate lines escaped with: /"
				name, _, args = content.partition(' ')
				return '%s(%s)' % (name, ", ".join(args.split()))

				tr = { ESC_SHELL : 'get_ipython().system({!r})'.format,
				ESC_SH_CAP : 'get_ipython().getoutput({!r})'.format,
				ESC_HELP : _tr_help,
				ESC_HELP2 : _tr_help2,
				ESC_MAGIC : _tr_magic,
				ESC_QUOTE : _tr_quote,
				ESC_QUOTE2 : _tr_quote2,
				ESC_PAREN : _tr_paren }

				class EscapedCommand:
				@staticmethod
				def find(tokens_by_line):
				"""Find the first escaped command (%foo, !foo, etc.) in the cell.

				Returns (line, column) of the escape if found, or None. line is 1-indexed.
				"""
				for line in tokens_by_line:
				ix = 0
				while line[ix].type in {tokenize2.INDENT, tokenize2.DEDENT}:
				ix += 1
				if line[ix].string in ESCAPE_SINGLES:
				return line[ix].start

				@staticmethod
				def transform(lines, start):
				start_line = start[0] - 1 # Shift from 1-index to 0-index
				start_col = start[1]

				indent = lines[start_line][:start_col]
				end_line = find_end_of_continued_line(lines, start_line)
				line = assemble_continued_line(lines, (start_line, start_col), end_line)

				if line[:2] in ESCAPE_DOUBLES:
				escape, content = line[:2], line[2:]
				else:
				escape, content = line[:1], line[1:]
				call = tr[escape](content)

				lines_before = lines[:start_line]
				new_line = indent + call + '\n'
				lines_after = lines[end_line + 1:]

				return lines_before + [new_line] + lines_after

				def make_tokens_by_line(lines):
				tokens_by_line = [[]]
				for token in generate_tokens(iter(lines).__next__):
				tokens_by_line[-1].append(token)
				if token.type == tokenize2.NEWLINE:
				tokens_by_line.append([])

				return tokens_by_line

				def show_linewise_tokens(s: str):
				"""For investigation"""
				if not s.endswith('\n'):
				s += '\n'
				lines = s.splitlines(keepends=True)
				for line in make_tokens_by_line(lines):
				print("Line -------")
				for tokinfo in line:
				print(" ", tokinfo)

				class TokenTransformers:
				def __init__(self):
				self.transformers = [
				MagicAssign,
				SystemAssign,
				]

				def do_one_transform(self, lines):
				"""Find and run the transform earliest in the code.

				Returns (changed, lines).

				This method is called repeatedly until changed is False, indicating
				that all available transformations are complete.

				The tokens following IPython special syntax might not be valid, so
				the transformed code is retokenised every time to identify the next
				piece of special syntax. Hopefully long code cells are mostly valid
				Python, not using lots of IPython special syntax, so this shouldn't be
				a performance issue.
				"""
				tokens_by_line = make_tokens_by_line(lines)
				candidates = []
				for transformer in self.transformers:
				locn = transformer.find(tokens_by_line)
				if locn:
				candidates.append((locn, transformer))

				if not candidates:
				# Nothing to transform
				return False, lines

				first_locn, transformer = min(candidates)
				return True, transformer.transform(lines, first_locn)

				def __call__(self, lines):
				while True:
				changed, lines = self.do_one_transform(lines)
				if not changed:
				return lines

				def assign_from_system(tokens_by_line, lines):
				pass


				def transform_cell(cell):
				if not cell.endswith('\n'):
				cell += '\n' # Ensure every line has a newline
				lines = cell.splitlines(keepends=True)
				for transform in line_transforms:
				#print(transform, lines)
				lines = transform(lines)

				lines = TokenTransformers()(lines)
				for line in lines:
				print('~~', line)