upstream/ipython Files · IPython/core/magics/ast_mod.py

IPython/utils/_process_emscripten.py: New (#14316)...

IPython/utils/_process_emscripten.py: New (#14316) From https://github.com/ipython/ipython/pull/14312#issuecomment-1917947192 @hoodmane

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      """

      This module contains utility function and classes to inject simple ast

      transformations based on code strings into IPython. While it is already possible

      with ast-transformers it is not easy to directly manipulate ast.

      IPython has pre-code and post-code hooks, but are ran from within the IPython

      machinery so may be inappropriate, for example for performance mesurement.

      This module give you tools to simplify this, and expose 2 classes:

      - `ReplaceCodeTransformer` which is a simple ast transformer based on code

        template,

      and for advance case:

      - `Mangler` which is a simple ast transformer that mangle names in the ast.

      Example, let's try to make a simple version of the ``timeit`` magic, that run a

      code snippet 10 times and print the average time taken.

      Basically we want to run :

      .. code-block:: python

          from time import perf_counter

          now = perf_counter()

          for i in range(10):

              __code__ # our code

          print(f"Time taken: {(perf_counter() - now)/10}")

          __ret__ # the result of the last statement

      Where ``__code__`` is the code snippet we want to run, and ``__ret__`` is the

      result, so that if we for example run `dataframe.head()` IPython still display

      the head of dataframe instead of nothing.

      Here is a complete example of a file `timit2.py` that define such a magic:

      .. code-block:: python

          from IPython.core.magic import (

              Magics,

              magics_class,

              line_cell_magic,

          )

          from IPython.core.magics.ast_mod import ReplaceCodeTransformer

          from textwrap import dedent

          import ast

          template = template = dedent('''

              from time import perf_counter

              now = perf_counter()

              for i in range(10):

                  __code__

              print(f"Time taken: {(perf_counter() - now)/10}")

              __ret__

          '''

          )

          @magics_class

          class AstM(Magics):

              @line_cell_magic

              def t2(self, line, cell):

                  transformer = ReplaceCodeTransformer.from_string(template)

                  transformer.debug = True

                  transformer.mangler.debug = True

                  new_code = transformer.visit(ast.parse(cell))

                  return exec(compile(new_code, "<ast>", "exec"))

          def load_ipython_extension(ip):

              ip.register_magics(AstM)

      .. code-block:: python

          In [1]: %load_ext timit2

          In [2]: %%t2

             ...: import time

             ...: time.sleep(0.05)

             ...:

             ...:

          Time taken: 0.05435649999999441

      If you wish to ran all the code enter in IPython in an ast transformer, you can

      do so as well:

      .. code-block:: python

          In [1]: from IPython.core.magics.ast_mod import ReplaceCodeTransformer

             ...:

             ...: template = '''

             ...: from time import perf_counter

             ...: now = perf_counter()

             ...: __code__

             ...: print(f"Code ran in {perf_counter()-now}")

             ...: __ret__'''

             ...:

             ...: get_ipython().ast_transformers.append(ReplaceCodeTransformer.from_string(template))

          In [2]: 1+1

          Code ran in 3.40410006174352e-05

          Out[2]: 2

      Hygiene and Mangling

      --------------------

      The ast transformer above is not hygienic, it may not work if the user code use

      the same variable names as the ones used in the template. For example.

      To help with this by default the `ReplaceCodeTransformer` will mangle all names

      staring with 3 underscores. This is a simple heuristic that should work in most

      case, but can be cumbersome in some case. We provide a `Mangler` class that can

      be overridden to change the mangling heuristic, or simply use the `mangle_all`

      utility function. It will _try_ to mangle all names (except `__ret__` and

      `__code__`), but this include builtins (``print``, ``range``, ``type``) and

      replace those by invalid identifiers py prepending ``mangle-``:

      ``mangle-print``, ``mangle-range``, ``mangle-type`` etc. This is not a problem

      as currently Python AST support invalid identifiers, but it may not be the case

      in the future.

      You can set `ReplaceCodeTransformer.debug=True` and

      `ReplaceCodeTransformer.mangler.debug=True` to see the code after mangling and

      transforming:

      .. code-block:: python

          In [1]: from IPython.core.magics.ast_mod import ReplaceCodeTransformer, mangle_all

             ...:

             ...: template = '''

             ...: from builtins import type, print

             ...: from time import perf_counter

             ...: now = perf_counter()

             ...: __code__

             ...: print(f"Code ran in {perf_counter()-now}")

             ...: __ret__'''

             ...:

             ...: transformer = ReplaceCodeTransformer.from_string(template, mangling_predicate=mangle_all)

          In [2]: transformer.debug = True

             ...: transformer.mangler.debug = True

             ...: get_ipython().ast_transformers.append(transformer)

          In [3]: 1+1

          Mangling Alias mangle-type

          Mangling Alias mangle-print

          Mangling Alias mangle-perf_counter

          Mangling now

          Mangling perf_counter

          Not mangling __code__

          Mangling print

          Mangling perf_counter

          Mangling now

          Not mangling __ret__

          ---- Transformed code ----

          from builtins import type as mangle-type, print as mangle-print

          from time import perf_counter as mangle-perf_counter

          mangle-now = mangle-perf_counter()

          ret-tmp = 1 + 1

          mangle-print(f'Code ran in {mangle-perf_counter() - mangle-now}')

          ret-tmp

          ---- ---------------- ----

          Code ran in 0.00013654199938173406

          Out[3]: 2

      """

      __skip_doctest__ = True

      from ast import NodeTransformer, Store, Load, Name, Expr, Assign, Module

      import ast

      import copy

      from typing import Dict, Optional

      mangle_all = lambda name: False if name in ("__ret__", "__code__") else True

      class Mangler(NodeTransformer):

          """

          Mangle given names in and ast tree to make sure they do not conflict with

          user code.

          """

          enabled: bool = True

          debug: bool = False

          def log(self, *args, **kwargs):

              if self.debug:

                  print(*args, **kwargs)

          def __init__(self, predicate=None):

              if predicate is None:

                  predicate = lambda name: name.startswith("___")

              self.predicate = predicate

          def visit_Name(self, node):

              if self.predicate(node.id):

                  self.log("Mangling", node.id)

                  # Once in the ast we do not need

                  # names to be valid identifiers.

                  node.id = "mangle-" + node.id

              else:

                  self.log("Not mangling", node.id)

              return node

          def visit_FunctionDef(self, node):

              if self.predicate(node.name):

                  self.log("Mangling", node.name)

                  node.name = "mangle-" + node.name

              else:

                  self.log("Not mangling", node.name)

              for arg in node.args.args:

                  if self.predicate(arg.arg):

                      self.log("Mangling function arg", arg.arg)

                      arg.arg = "mangle-" + arg.arg

                  else:

                      self.log("Not mangling function arg", arg.arg)

              return self.generic_visit(node)

          def visit_ImportFrom(self, node):

              return self._visit_Import_and_ImportFrom(node)

          def visit_Import(self, node):

              return self._visit_Import_and_ImportFrom(node)

          def _visit_Import_and_ImportFrom(self, node):

              for alias in node.names:

                  asname = alias.name if alias.asname is None else alias.asname

                  if self.predicate(asname):

                      new_name: str = "mangle-" + asname

                      self.log("Mangling Alias", new_name)

                      alias.asname = new_name

                  else:

                      self.log("Not mangling Alias", alias.asname)

              return node

      class ReplaceCodeTransformer(NodeTransformer):

          enabled: bool = True

          debug: bool = False

          mangler: Mangler

          def __init__(

              self, template: Module, mapping: Optional[Dict] = None, mangling_predicate=None

          ):

              assert isinstance(mapping, (dict, type(None)))

              assert isinstance(mangling_predicate, (type(None), type(lambda: None)))

              assert isinstance(template, ast.Module)

              self.template = template

              self.mangler = Mangler(predicate=mangling_predicate)

              if mapping is None:

                  mapping = {}

              self.mapping = mapping

          @classmethod

          def from_string(

              cls, template: str, mapping: Optional[Dict] = None, mangling_predicate=None

          ):

              return cls(

                  ast.parse(template), mapping=mapping, mangling_predicate=mangling_predicate

              )

          def visit_Module(self, code):

              if not self.enabled:

                  return code

              # if not isinstance(code, ast.Module):

              # recursively called...

              #    return generic_visit(self, code)

              last = code.body[-1]

              if isinstance(last, Expr):

                  code.body.pop()

                  code.body.append(Assign([Name("ret-tmp", ctx=Store())], value=last.value))

                  ast.fix_missing_locations(code)

                  ret = Expr(value=Name("ret-tmp", ctx=Load()))

                  ret = ast.fix_missing_locations(ret)

                  self.mapping["__ret__"] = ret

              else:

                  self.mapping["__ret__"] = ast.parse("None").body[0]

              self.mapping["__code__"] = code.body

              tpl = ast.fix_missing_locations(self.template)

              tx = copy.deepcopy(tpl)

              tx = self.mangler.visit(tx)

              node = self.generic_visit(tx)

              node_2 = ast.fix_missing_locations(node)

              if self.debug:

                  print("---- Transformed code ----")

                  print(ast.unparse(node_2))

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

              return node_2

          # this does not work as the name might be in a list and one might want to extend the list.

          # def visit_Name(self, name):

          #     if name.id in self.mapping and name.id == "__ret__":

          #         print(name, "in mapping")

          #         if isinstance(name.ctx, ast.Store):

          #             return Name("tmp", ctx=Store())

          #         else:

          #             return copy.deepcopy(self.mapping[name.id])

          #     return name

          def visit_Expr(self, expr):

              if isinstance(expr.value, Name) and expr.value.id in self.mapping:

                  if self.mapping[expr.value.id] is not None:

                      return copy.deepcopy(self.mapping[expr.value.id])

              return self.generic_visit(expr)

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				"""
				This module contains utility function and classes to inject simple ast
				transformations based on code strings into IPython. While it is already possible
				with ast-transformers it is not easy to directly manipulate ast.


				IPython has pre-code and post-code hooks, but are ran from within the IPython
				machinery so may be inappropriate, for example for performance mesurement.

				This module give you tools to simplify this, and expose 2 classes:

				- `ReplaceCodeTransformer` which is a simple ast transformer based on code
				template,

				and for advance case:

				- `Mangler` which is a simple ast transformer that mangle names in the ast.


				Example, let's try to make a simple version of the ``timeit`` magic, that run a
				code snippet 10 times and print the average time taken.

				Basically we want to run :

				.. code-block:: python

				from time import perf_counter
				now = perf_counter()
				for i in range(10):
				__code__ # our code
				print(f"Time taken: {(perf_counter() - now)/10}")
				__ret__ # the result of the last statement

				Where ``__code__`` is the code snippet we want to run, and ``__ret__`` is the
				result, so that if we for example run `dataframe.head()` IPython still display
				the head of dataframe instead of nothing.

				Here is a complete example of a file `timit2.py` that define such a magic:

				.. code-block:: python

				from IPython.core.magic import (
				Magics,
				magics_class,
				line_cell_magic,
				)
				from IPython.core.magics.ast_mod import ReplaceCodeTransformer
				from textwrap import dedent
				import ast

				template = template = dedent('''
				from time import perf_counter
				now = perf_counter()
				for i in range(10):
				__code__
				print(f"Time taken: {(perf_counter() - now)/10}")
				__ret__
				'''
				)


				@magics_class
				class AstM(Magics):
				@line_cell_magic
				def t2(self, line, cell):
				transformer = ReplaceCodeTransformer.from_string(template)
				transformer.debug = True
				transformer.mangler.debug = True
				new_code = transformer.visit(ast.parse(cell))
				return exec(compile(new_code, "<ast>", "exec"))


				def load_ipython_extension(ip):
				ip.register_magics(AstM)



				.. code-block:: python

				In [1]: %load_ext timit2

				In [2]: %%t2
				...: import time
				...: time.sleep(0.05)
				...:
				...:
				Time taken: 0.05435649999999441


				If you wish to ran all the code enter in IPython in an ast transformer, you can
				do so as well:

				.. code-block:: python

				In [1]: from IPython.core.magics.ast_mod import ReplaceCodeTransformer
				...:
				...: template = '''
				...: from time import perf_counter
				...: now = perf_counter()
				...: __code__
				...: print(f"Code ran in {perf_counter()-now}")
				...: __ret__'''
				...:
				...: get_ipython().ast_transformers.append(ReplaceCodeTransformer.from_string(template))

				In [2]: 1+1
				Code ran in 3.40410006174352e-05
				Out[2]: 2



				Hygiene and Mangling
				--------------------

				The ast transformer above is not hygienic, it may not work if the user code use
				the same variable names as the ones used in the template. For example.

				To help with this by default the `ReplaceCodeTransformer` will mangle all names
				staring with 3 underscores. This is a simple heuristic that should work in most
				case, but can be cumbersome in some case. We provide a `Mangler` class that can
				be overridden to change the mangling heuristic, or simply use the `mangle_all`
				utility function. It will _try_ to mangle all names (except `__ret__` and
				`__code__`), but this include builtins (``print``, ``range``, ``type``) and
				replace those by invalid identifiers py prepending ``mangle-``:
				``mangle-print``, ``mangle-range``, ``mangle-type`` etc. This is not a problem
				as currently Python AST support invalid identifiers, but it may not be the case
				in the future.

				You can set `ReplaceCodeTransformer.debug=True` and
				`ReplaceCodeTransformer.mangler.debug=True` to see the code after mangling and
				transforming:

				.. code-block:: python


				In [1]: from IPython.core.magics.ast_mod import ReplaceCodeTransformer, mangle_all
				...:
				...: template = '''
				...: from builtins import type, print
				...: from time import perf_counter
				...: now = perf_counter()
				...: __code__
				...: print(f"Code ran in {perf_counter()-now}")
				...: __ret__'''
				...:
				...: transformer = ReplaceCodeTransformer.from_string(template, mangling_predicate=mangle_all)


				In [2]: transformer.debug = True
				...: transformer.mangler.debug = True
				...: get_ipython().ast_transformers.append(transformer)

				In [3]: 1+1
				Mangling Alias mangle-type
				Mangling Alias mangle-print
				Mangling Alias mangle-perf_counter
				Mangling now
				Mangling perf_counter
				Not mangling __code__
				Mangling print
				Mangling perf_counter
				Mangling now
				Not mangling __ret__
				---- Transformed code ----
				from builtins import type as mangle-type, print as mangle-print
				from time import perf_counter as mangle-perf_counter
				mangle-now = mangle-perf_counter()
				ret-tmp = 1 + 1
				mangle-print(f'Code ran in {mangle-perf_counter() - mangle-now}')
				ret-tmp
				---- ---------------- ----
				Code ran in 0.00013654199938173406
				Out[3]: 2


				"""

				__skip_doctest__ = True


				from ast import NodeTransformer, Store, Load, Name, Expr, Assign, Module
				import ast
				import copy

				from typing import Dict, Optional


				mangle_all = lambda name: False if name in ("__ret__", "__code__") else True


				class Mangler(NodeTransformer):
				"""
				Mangle given names in and ast tree to make sure they do not conflict with
				user code.
				"""

				enabled: bool = True
				debug: bool = False

				def log(self, args, *kwargs):
				if self.debug:
				print(args, *kwargs)

				def __init__(self, predicate=None):
				if predicate is None:
				predicate = lambda name: name.startswith("___")
				self.predicate = predicate

				def visit_Name(self, node):
				if self.predicate(node.id):
				self.log("Mangling", node.id)
				# Once in the ast we do not need
				# names to be valid identifiers.
				node.id = "mangle-" + node.id
				else:
				self.log("Not mangling", node.id)
				return node

				def visit_FunctionDef(self, node):
				if self.predicate(node.name):
				self.log("Mangling", node.name)
				node.name = "mangle-" + node.name
				else:
				self.log("Not mangling", node.name)

				for arg in node.args.args:
				if self.predicate(arg.arg):
				self.log("Mangling function arg", arg.arg)
				arg.arg = "mangle-" + arg.arg
				else:
				self.log("Not mangling function arg", arg.arg)
				return self.generic_visit(node)

				def visit_ImportFrom(self, node):
				return self._visit_Import_and_ImportFrom(node)

				def visit_Import(self, node):
				return self._visit_Import_and_ImportFrom(node)

				def _visit_Import_and_ImportFrom(self, node):
				for alias in node.names:
				asname = alias.name if alias.asname is None else alias.asname
				if self.predicate(asname):
				new_name: str = "mangle-" + asname
				self.log("Mangling Alias", new_name)
				alias.asname = new_name
				else:
				self.log("Not mangling Alias", alias.asname)
				return node


				class ReplaceCodeTransformer(NodeTransformer):
				enabled: bool = True
				debug: bool = False
				mangler: Mangler

				def __init__(
				self, template: Module, mapping: Optional[Dict] = None, mangling_predicate=None
				):
				assert isinstance(mapping, (dict, type(None)))
				assert isinstance(mangling_predicate, (type(None), type(lambda: None)))
				assert isinstance(template, ast.Module)
				self.template = template
				self.mangler = Mangler(predicate=mangling_predicate)
				if mapping is None:
				mapping = {}
				self.mapping = mapping

				@classmethod
				def from_string(
				cls, template: str, mapping: Optional[Dict] = None, mangling_predicate=None
				):
				return cls(
				ast.parse(template), mapping=mapping, mangling_predicate=mangling_predicate
				)

				def visit_Module(self, code):
				if not self.enabled:
				return code
				# if not isinstance(code, ast.Module):
				# recursively called...
				# return generic_visit(self, code)
				last = code.body[-1]
				if isinstance(last, Expr):
				code.body.pop()
				code.body.append(Assign([Name("ret-tmp", ctx=Store())], value=last.value))
				ast.fix_missing_locations(code)
				ret = Expr(value=Name("ret-tmp", ctx=Load()))
				ret = ast.fix_missing_locations(ret)
				self.mapping["__ret__"] = ret
				else:
				self.mapping["__ret__"] = ast.parse("None").body[0]
				self.mapping["__code__"] = code.body
				tpl = ast.fix_missing_locations(self.template)

				tx = copy.deepcopy(tpl)
				tx = self.mangler.visit(tx)
				node = self.generic_visit(tx)
				node_2 = ast.fix_missing_locations(node)
				if self.debug:
				print("---- Transformed code ----")
				print(ast.unparse(node_2))
				print("---- ---------------- ----")
				return node_2

				# this does not work as the name might be in a list and one might want to extend the list.
				# def visit_Name(self, name):
				# if name.id in self.mapping and name.id == "__ret__":
				# print(name, "in mapping")
				# if isinstance(name.ctx, ast.Store):
				# return Name("tmp", ctx=Store())
				# else:
				# return copy.deepcopy(self.mapping[name.id])
				# return name

				def visit_Expr(self, expr):
				if isinstance(expr.value, Name) and expr.value.id in self.mapping:
				if self.mapping[expr.value.id] is not None:
				return copy.deepcopy(self.mapping[expr.value.id])
				return self.generic_visit(expr)