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lispy-python.py
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lispy-python.py
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# lispy-python.py --- lispy support for Python.
# Copyright (C) 2016-2019 Oleh Krehel
# This file is not part of GNU Emacs
# This file is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3, or (at your option)
# any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# For a full copy of the GNU General Public License
# see <http://www.gnu.org/licenses/>.
#* Imports
import ast
import collections
import importlib
import inspect
import io
import json
import os
import pprint as pp
import re
import shlex
import subprocess
import sys
from ast import AST
from contextlib import redirect_stdout
from typing import List, Dict, Any, Union, Tuple, Optional, TypedDict, Callable, cast
from types import TracebackType, MethodType, FunctionType, ModuleType, FrameType
def sh(cmd: str) -> str:
r = subprocess.run(
shlex.split(cmd),
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
encoding="utf-8",
check=True)
return r.stdout.strip()
try:
import reprlib
repr1 = reprlib.Repr()
repr1.maxlist = 10
repr1.maxstring = 200
except:
pass
try:
import jedi
except:
try:
pyenv_version = sh("pyenv global")
pyversion = ".".join(pyenv_version.split(".")[:-1])
site_packages = os.path.expanduser(f"~/.pyenv/versions/{pyenv_version}/lib/python{pyversion}/site-packages/")
sys.path.append(site_packages)
import jedi
except:
print("Failed to load jedi. Some features won't work")
#* Classes
class Stack:
line_numbers: Dict[Tuple[str, str], int] = {}
def __init__(self, tb: Optional[TracebackType]):
self.stack = []
self.stack_idx = 0
while tb:
name = tb.tb_frame.f_code.co_name
fname = tb.tb_frame.f_code.co_filename
if (fname, name) in Stack.line_numbers:
lineno = Stack.line_numbers[(fname, name)]
else:
lineno = tb.tb_frame.f_lineno
self.stack.append((fname, lineno, tb.tb_frame))
tb = tb.tb_next
self.stack_top = len(self.stack) - 1
if self.stack_top >= 0:
self.set_frame(self.stack_top)
def frame_string(self, i: int) -> str:
(fname, line, f) = self.stack[i]
res = " File \"%s\", line %d, Frame [%d/%d] (%s):" % (
f.f_code.co_filename, line, i, self.stack_top, f.f_code.co_name)
return res
def __repr__(self) -> str:
frames = []
for i in range(self.stack_top + 1):
s = self.frame_string(i)
if i == self.stack_idx:
s += "*"
frames.append(s)
return "\n".join(frames)
def set_frame(self, i: int) -> None:
if i >= 0:
f = self.stack[i][2]
self.stack_idx = i
tf = top_level()
tf.f_globals["lnames"] = f.f_locals.keys()
for (k, v) in f.f_locals.items():
tf.f_globals[k] = v
for (k, v) in f.f_globals.items():
tf.f_globals[k] = v
print(self.frame_string(self.stack_idx))
def up(self, delta: int = 1) -> None:
if self.stack_idx <= 0:
if self.stack:
print(self.frame_string(self.stack_idx))
else:
self.stack_idx = max(self.stack_idx - delta, 0)
self.set_frame(self.stack_idx)
def down(self, delta: int = 1) -> None:
if self.stack_idx >= self.stack_top:
if self.stack:
print(self.frame_string(self.stack_idx))
else:
self.stack_idx = min(self.stack_idx + delta, self.stack_top)
self.set_frame(self.stack_idx)
class Autocall:
def __init__(self, f: Callable):
self.f = f
def __call__(self, n: Any) -> None:
self.f(n)
def __repr__(self) -> str:
try:
self.f()
except:
pass
return ""
#* Functions
def get_import_name(fname: str) -> str:
for p in sys.path:
if p == "":
continue
if fname.startswith(p):
return fname[len(p) + 1:].partition(".")[0].replace("/", ".")
return os.path.splitext(os.path.basename(fname))[0]
def chfile(f: str) -> None:
tf = top_level()
tf.f_globals["__file__"] = f
name = get_import_name(f)
tf.f_globals["__name__"] = name
d = os.path.dirname(f)
try:
os.chdir(d)
if "sys" not in tf.f_globals:
tf.f_globals["sys"] = importlib.import_module("sys")
if name not in tf.f_globals["sys"].modules:
try:
mod = importlib.import_module(name)
tf.f_globals["sys"].modules[name] = mod
except:
pass
except:
raise
def arglist(sym: Callable) -> List[str]:
def format_arg(arg_pair: Tuple[str, Optional[str]]) -> str:
name, default_value = arg_pair
if default_value:
return name + " = " + default_value
else:
return name
arg_info = inspect.getfullargspec(sym)
if "self" in arg_info.args:
arg_info.args.remove("self")
if arg_info.defaults:
defaults: List[Optional[str]] = [None] * (len(arg_info.args) - len(arg_info.defaults))
defaults += [repr(x) for x in arg_info.defaults]
args = [format_arg(x) for x in zip(arg_info.args, defaults)]
else:
args = arg_info.args
if arg_info.varargs:
args += arg_info.varargs
keywords = arg_info.kwonlydefaults
if keywords:
for k, v in keywords.items():
args.append(f"{k} = {v}")
return args
def print_elisp(obj: Any, end: str = "\n") -> None:
if hasattr(obj, "_asdict") and obj._asdict is not None:
if hasattr(type(obj), "__repr__"):
print('"' + str(obj).replace('"', '') + '"')
return
# namedtuple
try:
print_elisp(obj._asdict(), end)
except:
print('"' + str(obj) + '"')
elif hasattr(obj, "__array__"):
# something that converts to a numpy array
print_elisp(list(obj.__array__()))
elif isinstance(obj, enumerate):
print("(")
for (i, v) in list(obj):
print("(", end="")
print_elisp(v, end="")
print(")")
print(")")
elif isinstance(obj, set):
print("(")
for v in obj:
print_elisp(v, end=" ")
print(")")
elif isinstance(obj, dict):
print("(")
for (k, v) in obj.items():
print(" :" + k, end=" ")
print_elisp(v, end="\n")
print(")")
elif isinstance(obj, collections.abc.ItemsView):
print("(")
for (k, v) in obj:
print_elisp((k, v), end="\n")
print(")")
elif isinstance(obj, collections.abc.KeysView):
print_elisp(list(obj))
elif isinstance(obj, int):
print(obj)
elif isinstance(obj, list) or isinstance(obj, tuple):
print("(", end="")
for x in obj:
print_elisp(x)
print(")")
else:
if obj is not None:
if type(obj) is str:
# quote strings?
# print("\"'" + re.sub("\"", "\\\"", obj) + "'\"", end=" ")
print('"' + re.sub("\"", "\\\"", obj) + '"', end=" ")
elif hasattr(obj, "to_dict"):
print_elisp(obj.to_dict())
else:
print('"' + repr(obj) + '"', end=" ")
else:
print('nil', end=end)
def argspec(sym):
arg_info = inspect.getfullargspec(sym)
if arg_info:
di = arg_info._asdict()
fn = sym.__init__ if type(sym) is type else sym
try:
filename = fn.__code__.co_filename
di["filename"] = filename
if hasattr(sym, "__self__"):
# bound method
qname = sym.__self__.__class__.__name__ + "." + sym.__name__
else:
qname = sym.__qualname__
tu = (filename, qname)
if tu in Stack.line_numbers:
di["line"] = Stack.line_numbers[tu]
else:
di["line"] = fn.__code__.co_firstlineno
except AttributeError:
m = sys.modules[sym.__module__]
filename = m.__file__
nodes = ast.parse(open(filename).read()).body
for node in nodes:
if (type(node) in [ast.ClassDef, ast.FunctionDef] and
node.name == sym.__name__):
di["filename"] = filename
di["line"] = node.lineno
print_elisp(di)
else:
print("nil")
def arglist_jedi(line, column, filename):
script = jedi.Script(path=filename)
defs = script.get_signatures(line, column)
if defs:
return [x.name for x in defs[0].params]
else:
return []
def jedi_completions(line):
script = jedi.Script(code=line)
return [x.name for x in script.complete()]
def jedi_file_completions(fname, line, column):
script = jedi.Script(path=fname)
return [x.name for x in script.complete(line, column)]
def is_assignment(code):
ops = ast.parse(code).body
return len(ops) == 1 and type(ops[0]) is ast.Assign
def top_level():
"""Return the topmost frame."""
f = sys._getframe()
while f.f_back:
f = f.f_back
if f.f_code.co_filename == "<console>":
return f
return f
def list_step(varname, lst):
f_globals = top_level().f_globals
try:
val = f_globals[varname]
i = (lst.index(val) + 1) % len(lst)
except:
i = 0
val = lst[i]
print("[{}/{}]".format(i + 1, len(lst)))
f_globals[varname] = val
return val
def argv(cmd: str) -> None:
sys.argv = shlex.split(cmd)
def find_global_vars(class_name):
"""Find global variables of type CLASS_NAME."""
return [(k, v) for (k, v) in top_level().f_globals.items() if v.__class__.__name__ == class_name]
def rebind(method, fname=None, line=None):
"""Rebind METHOD named like Class.function in all top level instances of Class.
Modifying a method is two-step:
1. eval the method as if it's a free top-level function,
2. modify all instances of the class with an adapter to this top-level function.
"""
qname = method.__qualname__
(cls_name, fun_name) = qname.split(".")
for (n, v) in find_global_vars(cls_name):
print("rebind:", n)
top_level().f_globals[n].__dict__[fun_name] = MethodType(top_level().f_globals[fun_name], v)
if fname and line:
Stack.line_numbers[(fname, qname)] = line
def pm() -> None:
"""Post mortem: recover the locals and globals from the last traceback."""
if hasattr(sys, 'last_traceback'):
stack = Stack(sys.last_traceback)
else:
stack = Stack(sys.exc_info()[2])
tl = top_level()
tl.f_globals["up"] = Autocall(stack.up)
tl.f_globals["dn"] = Autocall(stack.down)
globals()["stack"] = stack
def pprint(x: Any) -> None:
r1 = repr(x)
if len(r1) > 1000 and repr1:
print(repr1.repr(x))
else:
if type(x) == collections.OrderedDict:
print("{" + ",\n ".join([str(k) + ": " + str(v) for (k, v) in x.items()]) + "}")
else:
pp.PrettyPrinter(width=200).pprint(x)
def to_str(x: Any) -> str:
with io.StringIO() as buf, redirect_stdout(buf):
pprint(x)
return buf.getvalue().strip()
def step_in(fn, *args):
spec = inspect.getfullargspec(fn)
f_globals = top_level().f_globals
for (arg_name, arg_val) in zip(spec.args, args):
f_globals[arg_name] = arg_val
def step_into_module_maybe(module):
if isinstance(module, FunctionType):
try:
module = sys.modules[module.__module__]
except:
pass
elif getattr(module, "__module__", None):
if module.__module__ == "__repl__":
return
module = sys.modules[module.__module__]
if inspect.ismodule(module):
tf = top_level()
for (k, v) in module.__dict__.items():
if not re.match("^__", k):
print(k)
tf.f_globals[k] = v
def slurp(fname: str) -> str:
"""Return `fname' contents as text."""
with open(fname, "r", encoding="utf-8") as fh:
return fh.read()
def definitions(path):
(_, ext) = os.path.splitext(path)
if ext == ".yml":
return yaml_definitions(path)
script = jedi.Script(slurp(path), path=path)
res = []
for x in script.get_names():
if (x.get_definition_start_position()[0] == x.get_definition_end_position()[0]
and "import" in x.get_line_code()):
continue
if x.type == "function":
try:
desc = x.description + "(" + ", ".join(p.name for p in x.params) + ")"
except:
desc = x.description
res.append([desc, x.line])
elif x.type == "module":
res.append(["import " + x.name, x.line])
elif x.type == "class":
res.append([x.description, x.line])
try:
members = x.defined_names()
except:
members = []
for m in members:
res.append([x.name + "." + m.name, m.line])
else:
res.append([x.description, x.line])
return res
def yaml_definitions(path):
res = []
ls = slurp(path).strip().splitlines()
prev = ""
symbol = "(\\w|[-_])+"
for (i, line) in enumerate(ls, 1):
if m := re.match(f"^({symbol})", line):
res.append([m.group(1), i])
prev = m.group(1) + "."
elif m := re.match(f"^ ({symbol})", line):
res.append([prev + m.group(1), i])
return res
def get_completions_readline(text):
completions = []
completer = None
try:
import readline
# pylint: disable=unused-import
import rlcompleter
completer = readline.get_completer()
if getattr(completer, 'PYTHON_EL_WRAPPED', False):
completer.print_mode = False
i = 0
while True:
completion = completer(text, i)
if not completion:
break
i += 1
if not re.match("[0-9]__", completion):
completions.append(completion)
except:
pass
finally:
if getattr(completer, 'PYTHON_EL_WRAPPED', False):
completer.print_mode = True
return [re.sub("__t__.", "", c) for c in completions]
def get_completions(text):
completions = get_completions_readline(text)
if completions:
return sorted(completions)
m = re.match(r"([^.]+)\.(.*)", text)
if m:
(obj, part) = m.groups()
regex = re.compile("^" + part)
o = top_level().f_globals[obj]
items = list(o.__dict__.keys()) if hasattr(o, "__dict__") else []
items += list(type(o).__dict__.keys()) if hasattr(type(o), "__dict__") else []
for x in set(items):
if re.match(regex, x):
if not x.startswith("_") or part.startswith("_"):
completions.append(x)
return sorted(completions)
else:
return []
def __PYTHON_EL_native_completion_setup():
import readline
try:
import __builtin__
except ImportError:
# Python 3
import builtins as __builtin__
builtins = dir(__builtin__)
is_ipython = ('__IPYTHON__' in builtins or
'__IPYTHON__active' in builtins)
class __PYTHON_EL_Completer:
'''Completer wrapper that prints candidates to stdout.
It wraps an existing completer function and changes its behavior so
that the user input is unchanged and real candidates are printed to
stdout.
Returned candidates are '0__dummy_completion__' and
'1__dummy_completion__' in that order ('0__dummy_completion__' is
returned repeatedly until all possible candidates are consumed).
The real candidates are printed to stdout so that they can be
easily retrieved through comint output redirect trickery.
'''
PYTHON_EL_WRAPPED = True
def __init__(self, completer):
self.completer = completer
self.last_completion = None
self.print_mode = True
def __call__(self, text, state):
if state == 0:
# Set the first dummy completion.
self.last_completion = None
completion = '0__dummy_completion__'
else:
completion = self.completer(text, state - 1)
if not completion:
if self.last_completion != '1__dummy_completion__':
# When no more completions are available, returning a
# dummy with non-sharing prefix allow ensuring output
# while preventing changes to current input.
# Coincidentally it's also the end of output.
completion = '1__dummy_completion__'
elif completion.endswith('('):
# Remove parens on callables as it breaks completion on
# arguments (e.g. str(Ari<tab>)).
completion = completion[:-1]
self.last_completion = completion
if completion in (
'0__dummy_completion__', '1__dummy_completion__'):
return completion
elif completion:
# For every non-dummy completion, return a repeated dummy
# one and print the real candidate so it can be retrieved
# by comint output filters.
if self.print_mode:
print(completion)
return '0__dummy_completion__'
else:
return completion
else:
return completion
completer = readline.get_completer()
if not completer:
# Used as last resort to avoid breaking customizations.
# pylint: disable=unused-import
import rlcompleter
completer = readline.get_completer()
if completer and not getattr(completer, 'PYTHON_EL_WRAPPED', False):
# Wrap the existing completer function only once.
new_completer = __PYTHON_EL_Completer(completer)
if not is_ipython:
readline.set_completer(new_completer)
else:
# Try both initializations to cope with all IPython versions.
# This works fine for IPython 3.x but not for earlier:
readline.set_completer(new_completer)
# IPython<3 hacks readline such that `readline.set_completer`
# won't work. This workaround injects the new completer
# function into the existing instance directly:
instance = getattr(completer, 'im_self', completer.__self__)
instance.rlcomplete = new_completer
if readline.__doc__ and 'libedit' in readline.__doc__:
raise Exception('''libedit based readline is known not to work,
see etc/PROBLEMS under \"In Inferior Python mode, input is echoed\".''')
readline.parse_and_bind('tab: complete')
# Require just one tab to send output.
readline.parse_and_bind('set show-all-if-ambiguous on')
__PYTHON_EL_native_completion_setup()
def setup(init_file=None):
sys.modules['__repl__'] = sys.modules[__name__]
tl = top_level()
tl.f_globals["__name__"] = "__repl__"
tl.f_globals["pm"] = Autocall(pm)
if init_file and os.path.exists(init_file):
try:
exec(open(init_file).read(), tl.f_globals)
except:
pass
def reload():
import importlib.util
spec = importlib.util.spec_from_file_location('lispy-python', __file__)
mod = importlib.util.module_from_spec(spec)
spec.loader.exec_module(mod)
top_level().f_globals["lp"] = mod
sys._getframe().f_back.f_globals["lp"] = mod
sys._getframe().f_back.f_locals["lp"] = mod
return mod
def reload_module(fname):
to_reload = []
for (name, module) in sys.modules.copy().items():
try:
if module.__dict__.get("__file__") == fname and name != "__main__":
to_reload.append((name, module))
except:
pass
for (name, module) in to_reload:
try:
importlib.reload(module)
except:
pass
def goto_definition(fname: str, line: int, column: int) -> None:
d = jedi.Script(path=fname).goto(line, column)
if d:
print_elisp((str(d[0].module_path), d[0].line, d[0].column))
def goto_link_definition(c: str) -> None:
module = c.split(".")[0]
d = jedi.Script(code=f"import {module}\n{c}").goto(2, len(c) - 2, follow_imports=True)
if d:
print_elisp((str(d[0].module_path), d[0].line, d[0].column))
def ast_pp(code: str) -> str:
parsed = ast.parse(code, mode="exec")
return ast.dump(parsed.body[0], indent=4)
Expr = Union[List[ast.stmt], ast.stmt, Any]
def has_return(p: Expr) -> bool:
if isinstance(p, list):
return any(has_return(x) for x in p)
if isinstance(p, ast.Return):
return True
elif isinstance(p, ast.If):
return has_return(p.body) or has_return(p.orelse)
else:
return False
def tr_returns(p: Expr) -> Expr:
if isinstance(p, list):
return [tr_returns(x) for x in p]
if isinstance(p, ast.Return) and p.value:
return ast.parse("return locals() | {'__return__': " + ast.unparse(p.value) + "}").body[0]
elif isinstance(p, ast.If):
return ast.If(
test=p.test,
body=tr_returns(p.body),
orelse=tr_returns(p.orelse))
else:
return p
def ast_call(func: Union[str, AST], args: List[Any] = [], keywords: List[Any] = []):
if isinstance(func, str):
func = ast.Name(func)
return ast.Call(func=func, args=args, keywords=keywords)
def wrap_return(parsed: List[ast.stmt]) -> Expr:
return [
ast.FunctionDef(
name="__res__",
body=[*parsed, *ast.parse("return {'__return__': None}").body],
decorator_list=[],
args=[],
lineno=0,
col_offset=0),
ast.Expr(
ast_call(
ast.Attribute(value=ast_call("locals"), attr="update"),
args=[ast_call("__res__")])),
ast.Expr(value=ast.Name("__return__"))
]
def try_in_expr(p: Expr) -> Optional[Tuple[ast.expr, ast.expr]]:
if not isinstance(p, list):
return None
if pytest_mark := try_pytest_mark(p):
return pytest_mark
p0 = p[0]
if not isinstance(p0, ast.Expr):
return None
if not isinstance(p0.value, ast.Compare):
return None
if not isinstance(p0.value.ops[0], ast.In):
return None
return (p0.value.left, p0.value.comparators[0])
def select_item(code: str, idx: int, _f: Optional[FrameType] = None) -> Any:
_f = _f or sys._getframe().f_back
parsed = ast.parse(code, mode="exec").body
in_expr = try_in_expr(parsed)
assert in_expr
(left, right) = in_expr
l = ast.unparse(left)
r = ast.unparse(right)
locals_1 = locals()
locals_2 = locals_1.copy()
# pylint: disable=exec-used
exec(f"{l} = list({r})[{idx}]", _f.f_locals | _f.f_globals, locals_2)
for bind in [k for k in locals_2.keys() if k not in locals_1.keys()]:
_f.f_globals[bind] = locals_2[bind]
# pylint: disable=eval-used
return eval(l, locals_2)
def ast_match(p: Expr, expr: Any) -> bool:
if isinstance(p, ast.Attribute):
if expr[0] != ".":
return False
return (
expr[2] == p.attr
and ast_match(p.value, expr[1]))
elif isinstance(p, ast.Name):
return p.id == expr
elif isinstance(p, str):
return p == expr
else:
raise RuntimeError(f"Can't compare: {p} == {expr}")
def try_pytest_mark(p: Expr) -> Optional[Expr]:
if not isinstance(p, list):
return None
if not len(p) == 1:
return None
p0 = p[0]
if not isinstance(p0, ast.FunctionDef):
return None
if not len(p0.decorator_list) == 1:
return None
decorator = p0.decorator_list[0]
if ast_match(decorator.func, (".", (".", "pytest", "mark"), "parametrize")):
assert len(decorator.args) == 2
return [ast.Name(decorator.args[0].value), decorator.args[1]]
return None
def to_elisp(code: str, _f: Optional[FrameType] = None) -> str:
_f = _f or top_level()
with io.StringIO() as buf, redirect_stdout(buf):
# pylint: disable=eval-used
print_elisp(eval(code, _f.f_locals | _f.f_globals))
return buf.getvalue().strip()
def translate(code: str, _f: Optional[FrameType] = None, use_in_expr: bool = False) -> Any:
_f = _f or sys._getframe().f_back
parsed = ast.parse(code, mode="exec").body
in_expr = try_in_expr(parsed)
if use_in_expr and in_expr:
(left, right) = in_expr
out = to_elisp(ast.unparse(right), _f)
nc = f"print('''{out}''')\n'select'"
return ast.parse(nc).body
elif has_return(parsed):
r = tr_returns(parsed)
assert isinstance(r, list)
return wrap_return(r)
else:
return parsed
class EvalResult(TypedDict):
res: str
binds: Dict[str, str]
out: str
err: Optional[str]
def eval_code(_code: str, _env: Dict[str, Any] = {}) -> EvalResult:
_res = "unset"
binds = {}
out = ""
err: Optional[str] = None
_f = _env.get("frame", sys._getframe().f_back)
if "fname" in _env:
_f.f_globals["__file__"] = _env["fname"]
try:
_code = _code or slurp(_env["code"])
new_code = translate(_code, _f, _env.get("use-in-expr", False))
(*butlast, last) = new_code
_locals = {}
locals_1 = _locals
locals_2 = locals_1.copy()
locals_globals = _f.f_locals | _f.f_globals
if "debug" in _env:
print(f"{ast.unparse(last)=}")
with io.StringIO() as buf, redirect_stdout(buf):
if butlast:
# pylint: disable=exec-used
exec(ast.unparse(butlast), locals_globals, locals_2)
for bind in [k for k in locals_2.keys() if k not in locals_1.keys()]:
_f.f_globals[bind] = locals_2[bind]
try:
# pylint: disable=eval-used
_res = eval(ast.unparse(last), locals_globals, locals_2)
except SyntaxError:
locals_1 = _locals
locals_2 = locals_1.copy()
exec(ast.unparse(last), locals_globals, locals_2)
out = buf.getvalue().strip()
binds1 = [k for k in locals_2.keys() if k not in locals_1.keys()]
for bind in binds1:
_f.f_globals[bind] = locals_2[bind]
binds2 = [bind for bind in binds1 if bind not in ["__res__", "__return__"]]
print_fn = cast(Callable[..., str], to_str if _env.get("echo") else str)
binds = {bind: print_fn(locals_2[bind]) for bind in binds2}
# except RuntimeError as e:
# if str(e) == "break":
# pm()
# else:
# raise
# pylint: disable=broad-except
except Exception as e:
err = f"{e.__class__.__name__}: {e}\n{e.__dict__}"
_f.f_globals["e"] = e
locs = e.__traceback__.tb_frame.f_locals.get("locals_2", {})
for bind in locs:
_f.f_globals[bind] = locs[bind]
return {
"res": to_str(_res) if _env.get("echo") else repr(_res),
"binds": binds,
"out": out,
"err": err
}
def eval_to_json(code: str, env: Dict[str, Any] = {}) -> None:
try:
env["frame"] = sys._getframe().f_back
s = json.dumps(eval_code(code, env))
print(s)
# pylint: disable=broad-except
except Exception as e:
print(json.dumps({
"res": None,
"binds": {},
"out": "",
"err": str(e)}))
def find_module(fname: str) -> Optional[ModuleType]:
for (name, module) in sys.modules.items():
if getattr(module, "__file__", None) == fname:
return module
return None
def generate_import(code_fname: str, buffer_fname: str) -> None:
code = slurp(code_fname)
parsed = ast.parse(code).body[0]
if isinstance(parsed, ast.FunctionDef):
name = parsed.name
module = find_module(buffer_fname)
assert module
print(f"from {module.__name__} import {name}")