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KiBot/kibot/mcpyrate/unparser.py

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# -*- coding: utf-8; -*-
"""Back-convert a Python AST into source code. Original formatting is disregarded."""
__all__ = ["UnparserError", "unparse", "unparse_with_fallbacks"]
import ast
import builtins
from contextlib import contextmanager
import io
import sys
from .astdumper import dump # fallback
from .colorizer import setcolor, colorize, ColorScheme
from . import markers
# Large float and imaginary literals get turned into infinities in the AST.
# We unparse those infinities to INFSTR.
INFSTR = "1e" + repr(sys.float_info.max_10_exp + 1)
# for syntax highlighting
_all_public_builtins = {x for x in dir(builtins) if not x.startswith("_")}
builtin_exceptions = {x for x in _all_public_builtins if x.endswith("Error")}
builtin_warnings = {x for x in _all_public_builtins if x.endswith("Warning")}
builtin_exceptions_and_warnings = builtin_exceptions | builtin_warnings
builtin_others = _all_public_builtins - builtin_exceptions_and_warnings
class UnparserError(SyntaxError):
"""Failed to unparse the given AST."""
def interleave(inter, f, seq):
"""Call f on each item in seq, calling inter() in between."""
seq = iter(seq)
try:
f(next(seq))
except StopIteration:
pass
else:
for x in seq:
inter()
f(x)
class Unparser:
"""Convert an AST into source code.
Methods in this class recursively traverse an AST and output source code
for the abstract syntax. Original formatting is disregarded.
"""
def __init__(self, tree, *, file=sys.stdout,
debug=False, color=False, expander=None):
"""Print the source for `tree` to `file`.
`tree`: an AST, or a `list` of ASTs.
If a `list`, each element is processed separately,
preserving ordering. This can be used e.g. to look at
the source code corresponding to a statement suite in
an AST.
`file`: where to send the unparsed source code. Must have `write`
and `flush` methods. Typically something like `sys.stdout`,
or an `io.StringIO` instance.
`debug`: bool, print invisible nodes (`Module`, `Expr`).
For statement nodes, print also line numbers (`lineno`
attribute from the AST node).
The output is then not valid Python, but may better show
the problem when code produced by a macro mysteriously
fails to compile (even though a non-debug unparse looks ok).
`color`: bool, whether to use syntax highlighting. For terminal output.
`expander`: optional `BaseMacroExpander` instance. If provided,
used for syntax highlighting macro names.
"""
self.debug = debug
self.color = color
self._color_override = False # for syntax highlighting of decorators
self.expander = expander
self.f = file
self._indent = 0
if isinstance(tree, list): # statement suite (for unparsing those directly)
for elt in tree:
self.dispatch(elt)
else:
self.dispatch(tree)
print("", file=self.f)
self.f.flush()
# --------------------------------------------------------------------------------
def maybe_colorize(self, text, *colors):
"Colorize text if color is enabled."
if self._color_override:
return text
if not self.color:
return text
return colorize(text, *colors)
def maybe_colorize_python_keyword(self, text):
"Shorthand to colorize a language keyword such as `def`, `for`, ..."
return self.maybe_colorize(text, ColorScheme.LANGUAGEKEYWORD)
def nocolor(self):
"""Context manager. Temporarily prevent coloring.
Useful for syntax highlighting decorators (so that the method rendering
the decorator may force a particular color, instead of allowing
auto-coloring based on the AST data).
"""
@contextmanager
def _nocolor():
old_color_override = self._color_override
self._color_override = True
try:
yield
finally:
self._color_override = old_color_override
return _nocolor()
# --------------------------------------------------------------------------------
def fill(self, text="", *, lineno_node=None):
"""Begin a new line, indent to the current level, then write `text`.
If in debug mode, then from `lineno_node`, get the `lineno` attribute
for printing the line number. Print `----` if `lineno` missing.
"""
self.write("\n")
if self.debug and isinstance(lineno_node, ast.AST):
lineno = lineno_node.lineno if hasattr(lineno_node, "lineno") else None
# `mcpyrate.debug.step_expansion` may strip leading space, so
# it's better to use something else to always have fixed width.
#
# Assume line numbers usually have at most 4 digits, but
# degrade gracefully for those crazy 5-digit source files.
self.write(self.maybe_colorize(f"L{lineno:5d} " if lineno else "L ---- ",
ColorScheme.LINENUMBER))
self.write(" " * self._indent + text)
def write(self, text):
"Append a piece of text to the current line."
self.f.write(text)
def enter(self):
"Print ':', and increase the indentation level."
self.write(":")
self._indent += 1
def leave(self):
"Decrease the indentation level."
self._indent -= 1
def dispatch(self, tree):
"Dispatcher. Dispatch tree type `T` to method `_T`."
if isinstance(tree, list):
for t in tree:
self.dispatch(t)
return
if isinstance(tree, markers.ASTMarker): # mcpyrate and macro communication internal
self.astmarker(tree)
return
methodname = "_" + tree.__class__.__name__
if not hasattr(self, methodname):
raise UnparserError(f"Don't know how to unparse AST node type {tree.__class__.__name__}")
method = getattr(self, methodname)
method(tree)
# --------------------------------------------------------------------------------
# Unparsing methods
#
# Beside `astmarker`, which is a macro expander data-driven communication
# thing, there should be one method per concrete grammar type. Constructors
# should be grouped by sum type. Ideally, this would follow the order in
# the grammar, but currently doesn't.
#
# https://docs.python.org/3/library/ast.html#abstract-grammar
# https://greentreesnakes.readthedocs.io/en/latest/nodes.html
def astmarker(self, tree):
def write_astmarker_field_value(v):
if isinstance(v, ast.AST):
self.dispatch(v)
else:
self.write(repr(v))
# Print like a statement or like an expression, depending on the
# content. The marker itself is neither. Prefix by a "$" to indicate
# that "source code" containing AST markers cannot be eval'd.
# If you need to get rid of them, see `mcpyrate.markers.delete_markers`.
header = self.maybe_colorize(f"$ASTMarker", ColorScheme.ASTMARKER)
if isinstance(tree.body, ast.stmt):
print_mode = "stmt"
self.fill(header, lineno_node=tree)
else:
print_mode = "expr"
self.write("(")
self.write(header)
clsname = self.maybe_colorize(tree.__class__.__name__,
ColorScheme.ASTMARKERCLASS)
self.write(f"<{clsname}>")
self.enter()
self.write(" ")
if len(tree._fields) == 1 and tree._fields[0] == "body":
# If there is just a single "body" field, don't bother with field names.
write_astmarker_field_value(tree.body)
else:
# The following is just a notation. There's no particular reason to
# use "k: v" syntax in statement mode and "k=v" in expression mode,
# except that it meshes well with the indentation rules and looks
# somewhat pythonic.
#
# In statement mode, a field may contain a statement; dispatching
# to a statement will begin a new line.
if print_mode == "stmt":
for k, v in ast.iter_fields(tree):
self.fill(k, lineno_node=tree)
self.enter()
self.write(" ")
write_astmarker_field_value(v)
self.leave()
else: # "expr"
first = True
for k, v in ast.iter_fields(tree):
if first:
first = False
else:
self.write(", ")
self.write(f"{k}=")
self.write("(")
write_astmarker_field_value(v)
self.write(")")
self.leave()
if print_mode == "expr":
self.write(")")
# top level nodes
def _Module(self, t): # ast.parse(..., mode="exec")
self.toplevelnode(t)
def _Interactive(self, t): # ast.parse(..., mode="single")
self.toplevelnode(t)
def _Expression(self, t): # ast.parse(..., mode="eval")
self.toplevelnode(t)
def toplevelnode(self, t):
# TODO: Python 3.8 type_ignores. Since we don't store the source text, maybe ignore that?
if self.debug:
label = f"${t.__class__.__name__}"
self.fill(self.maybe_colorize(label, ColorScheme.INVISIBLENODE),
lineno_node=t)
self.enter()
for stmt in t.body:
self.dispatch(stmt)
self.leave()
else:
for stmt in t.body:
self.dispatch(stmt)
# stmt
def _Expr(self, t):
if self.debug:
self.fill(self.maybe_colorize("$Expr", ColorScheme.INVISIBLENODE),
lineno_node=t)
self.enter()
self.write(" ")
self.dispatch(t.value)
self.leave()
else:
self.fill()
self.dispatch(t.value)
def _Import(self, t):
self.fill(self.maybe_colorize_python_keyword("import "), lineno_node=t)
interleave(lambda: self.write(", "), self.dispatch, t.names)
def _ImportFrom(self, t):
self.fill(self.maybe_colorize_python_keyword("from "), lineno_node=t)
self.write("." * t.level)
if t.module:
self.write(t.module)
self.write(self.maybe_colorize_python_keyword(" import "))
interleave(lambda: self.write(", "), self.dispatch, t.names)
def _Assign(self, t):
self.fill(lineno_node=t)
for target in t.targets:
self.dispatch(target)
self.write(" = ")
self.dispatch(t.value)
def _AnnAssign(self, t):
self.fill(lineno_node=t)
if not t.simple:
self.write("(")
self.dispatch(t.target)
if not t.simple:
self.write(")")
self.write(": ")
self.dispatch(t.annotation)
if t.value:
self.write(" = ")
self.dispatch(t.value)
# TODO: Python 3.8 type_comment, ignore it?
def _AugAssign(self, t):
self.fill(lineno_node=t)
self.dispatch(t.target)
self.write(" " + self.binop[t.op.__class__.__name__] + "= ")
self.dispatch(t.value)
def _Return(self, t):
self.fill(self.maybe_colorize_python_keyword("return"), lineno_node=t)
if t.value:
self.write(" ")
self.dispatch(t.value)
def _Pass(self, t):
self.fill(self.maybe_colorize_python_keyword("pass"), lineno_node=t)
def _Break(self, t):
self.fill(self.maybe_colorize_python_keyword("break"), lineno_node=t)
def _Continue(self, t):
self.fill(self.maybe_colorize_python_keyword("continue"), lineno_node=t)
def _Delete(self, t):
self.fill(self.maybe_colorize_python_keyword("del "), lineno_node=t)
interleave(lambda: self.write(", "), self.dispatch, t.targets)
def _Assert(self, t):
self.fill(self.maybe_colorize_python_keyword("assert "), lineno_node=t)
self.dispatch(t.test)
if t.msg:
self.write(", ")
self.dispatch(t.msg)
def _Global(self, t):
self.fill(self.maybe_colorize_python_keyword("global "), lineno_node=t)
interleave(lambda: self.write(", "), self.write, t.names)
def _Nonlocal(self, t):
self.fill(self.maybe_colorize_python_keyword("nonlocal "), lineno_node=t)
interleave(lambda: self.write(", "), self.write, t.names)
def _Await(self, t): # expr
self.write("(")
self.write(self.maybe_colorize_python_keyword("await"))
if t.value:
self.write(" ")
self.dispatch(t.value)
self.write(")")
def _Yield(self, t): # expr
self.write("(")
self.write(self.maybe_colorize_python_keyword("yield"))
if t.value:
self.write(" ")
self.dispatch(t.value)
self.write(")")
def _YieldFrom(self, t): # expr
self.write("(")
self.write(self.maybe_colorize_python_keyword("yield from"))
if t.value:
self.write(" ")
self.dispatch(t.value)
self.write(")")
def _Raise(self, t):
self.fill(self.maybe_colorize_python_keyword("raise"), lineno_node=t)
if not t.exc:
assert not t.cause
return
self.write(" ")
self.dispatch(t.exc)
if t.cause:
self.write(self.maybe_colorize_python_keyword(" from "))
self.dispatch(t.cause)
def _Try(self, t):
self.fill(self.maybe_colorize_python_keyword("try"), lineno_node=t)
self.enter()
self.dispatch(t.body)
self.leave()
for ex in t.handlers:
self.dispatch(ex)
if t.orelse:
self.fill(self.maybe_colorize_python_keyword("else"), lineno_node=t)
self.enter()
self.dispatch(t.orelse)
self.leave()
if t.finalbody:
self.fill(self.maybe_colorize_python_keyword("finally"), lineno_node=t)
self.enter()
self.dispatch(t.finalbody)
self.leave()
def _ExceptHandler(self, t):
self.fill(self.maybe_colorize_python_keyword("except"), lineno_node=t)
if t.type:
self.write(" ")
self.dispatch(t.type)
if t.name:
self.write(self.maybe_colorize_python_keyword(" as "))
self.write(t.name)
self.enter()
self.dispatch(t.body)
self.leave()
def _ClassDef(self, t):
self.write("\n")
for deco in t.decorator_list:
self.fill(self.maybe_colorize("@", ColorScheme.DECORATOR),
lineno_node=deco)
if self.color:
self.write(setcolor(ColorScheme.DECORATOR))
try:
with self.nocolor():
self.dispatch(deco)
finally:
if self.color:
self.write(setcolor())
class_str = (self.maybe_colorize_python_keyword("class ") +
self.maybe_colorize(t.name, ColorScheme.DEFNAME))
self.fill(class_str, lineno_node=t)
self.write("(")
comma = False
for e in t.bases:
if comma:
self.write(", ")
else:
comma = True
self.dispatch(e)
for e in t.keywords:
if comma:
self.write(", ")
else:
comma = True
self.dispatch(e)
self.write(")")
self.enter()
self.dispatch(t.body)
self.leave()
def _FunctionDef(self, t):
self.__FunctionDef_helper(t, "def")
def _AsyncFunctionDef(self, t):
self.__FunctionDef_helper(t, "async def")
def __FunctionDef_helper(self, t, fill_suffix):
self.write("\n")
for deco in t.decorator_list:
self.fill(self.maybe_colorize("@", ColorScheme.DECORATOR),
lineno_node=deco)
if self.color:
self.write(setcolor(ColorScheme.DECORATOR))
try:
with self.nocolor():
self.dispatch(deco)
finally:
if self.color:
self.write(setcolor())
def_str = (self.maybe_colorize_python_keyword(fill_suffix) +
" " + self.maybe_colorize(t.name, ColorScheme.DEFNAME) + "(")
self.fill(def_str, lineno_node=t)
self.dispatch(t.args)
self.write(")")
if t.returns:
self.write(" -> ")
self.dispatch(t.returns)
self.enter()
self.dispatch(t.body)
self.leave()
# TODO: Python 3.8 type_comment, ignore it?
def _For(self, t):
self.__For_helper(self.maybe_colorize_python_keyword("for "), t)
def _AsyncFor(self, t):
self.__For_helper(self.maybe_colorize_python_keyword("async for "), t)
def __For_helper(self, fill, t):
self.fill(fill, lineno_node=t)
self.dispatch(t.target)
self.write(self.maybe_colorize_python_keyword(" in "))
self.dispatch(t.iter)
self.enter()
self.dispatch(t.body)
self.leave()
if t.orelse:
self.fill(self.maybe_colorize_python_keyword("else"), lineno_node=t)
self.enter()
self.dispatch(t.orelse)
self.leave()
# TODO: Python 3.8 type_comment, ignore it?
def _If(self, t):
self.fill(self.maybe_colorize_python_keyword("if "), lineno_node=t)
self.dispatch(t.test)
self.enter()
self.dispatch(t.body)
self.leave()
# collapse nested ifs into equivalent elifs.
while (t.orelse and len(t.orelse) == 1 and
isinstance(t.orelse[0], ast.If)):
t = t.orelse[0]
self.fill(self.maybe_colorize_python_keyword("elif "), lineno_node=t)
self.dispatch(t.test)
self.enter()
self.dispatch(t.body)
self.leave()
# final else
if t.orelse:
self.fill(self.maybe_colorize_python_keyword("else"), lineno_node=t)
self.enter()
self.dispatch(t.orelse)
self.leave()
def _While(self, t):
self.fill(self.maybe_colorize_python_keyword("while "), lineno_node=t)
self.dispatch(t.test)
self.enter()
self.dispatch(t.body)
self.leave()
if t.orelse:
self.fill(self.maybe_colorize_python_keyword("else"), lineno_node=t)
self.enter()
self.dispatch(t.orelse)
self.leave()
def _With(self, t):
self.fill(self.maybe_colorize_python_keyword("with "), lineno_node=t)
interleave(lambda: self.write(", "), self.dispatch, t.items)
self.enter()
self.dispatch(t.body)
self.leave()
# TODO: Python 3.8 type_comment, ignore it?
def _AsyncWith(self, t):
self.fill(self.maybe_colorize_python_keyword("async with "), lineno_node=t)
interleave(lambda: self.write(", "), self.dispatch, t.items)
self.enter()
self.dispatch(t.body)
self.leave()
# expr
def _NamedExpr(self, t): # Python 3.8+
self.write("(")
self.dispatch(t.target)
self.write(" := ")
self.dispatch(t.value)
self.write(")")
def _Constant(self, t): # Python 3.8+
# Actually added in 3.6, but Python's parser only produces them starting with 3.8.
# Replaces the node types Bytes, Str, Num, NameConstant, and Ellipsis.
if hasattr(t, "kind") and t.kind == "u": # 3.8+: u"..." vs. "..."
self.write("u")
if type(t.value) in (int, float, complex):
# Represent AST infinity as an overflowing decimal literal.
v = repr(t.value).replace("inf", INFSTR)
v = self.maybe_colorize(v, ColorScheme.NUMBER)
elif t.value is Ellipsis:
v = "..."
else:
v = repr(t.value)
if t.value in (True, False, None):
v = self.maybe_colorize(v, ColorScheme.NAMECONSTANT)
elif type(t.value) in (str, bytes):
v = self.maybe_colorize(v, ColorScheme.STRING)
self.write(v)
def _Bytes(self, t): # up to Python 3.7
self.write(self.maybe_colorize(repr(t.s), ColorScheme.STRING))
def _Str(self, tree): # up to Python 3.7
self.write(self.maybe_colorize(repr(tree.s), ColorScheme.STRING))
def _Name(self, t):
v = t.id
if v in builtin_exceptions_and_warnings:
v = self.maybe_colorize(v, ColorScheme.BUILTINEXCEPTION)
elif v in builtin_others:
v = self.maybe_colorize(v, ColorScheme.BUILTINOTHER)
elif self.expander and self.expander.isbound(v):
v = self.maybe_colorize(v, ColorScheme.MACRONAME)
self.write(v)
def _NameConstant(self, t): # up to Python 3.7
self.write(self.maybe_colorize(repr(t.value), ColorScheme.NAMECONSTANT))
def _Num(self, t): # up to Python 3.7
# Represent AST infinity as an overflowing decimal literal.
v = repr(t.n).replace("inf", INFSTR)
self.write(self.maybe_colorize(v, ColorScheme.NUMBER))
def _List(self, t):
self.write("[")
interleave(lambda: self.write(", "), self.dispatch, t.elts)
self.write("]")
def _ListComp(self, t):
self.write("[")
self.dispatch(t.elt)
for gen in t.generators:
self.dispatch(gen)
self.write("]")
def _GeneratorExp(self, t):
self.write("(")
self.dispatch(t.elt)
for gen in t.generators:
self.dispatch(gen)
self.write(")")
def _SetComp(self, t):
self.write("{")
self.dispatch(t.elt)
for gen in t.generators:
self.dispatch(gen)
self.write("}")
def _DictComp(self, t):
self.write("{")
self.dispatch(t.key)
self.write(": ")
self.dispatch(t.value)
for gen in t.generators:
self.dispatch(gen)
self.write("}")
def _comprehension(self, t):
if t.is_async:
self.write(self.maybe_colorize_python_keyword(" async"))
self.write(self.maybe_colorize_python_keyword(" for "))
self.dispatch(t.target)
self.write(self.maybe_colorize_python_keyword(" in "))
self.dispatch(t.iter)
for if_clause in t.ifs:
self.write(self.maybe_colorize_python_keyword(" if "))
self.dispatch(if_clause)
def _IfExp(self, t):
self.write("(")
self.dispatch(t.body)
self.write(self.maybe_colorize_python_keyword(" if "))
self.dispatch(t.test)
self.write(self.maybe_colorize_python_keyword(" else "))
self.dispatch(t.orelse)
self.write(")")
def _Set(self, t):
assert(t.elts) # should be at least one element
self.write("{")
interleave(lambda: self.write(", "), self.dispatch, t.elts)
self.write("}")
def _Dict(self, t):
self.write("{")
def write_pair(pair):
(k, v) = pair
self.dispatch(k)
self.write(": ")
self.dispatch(v)
interleave(lambda: self.write(", "), write_pair, zip(t.keys, t.values))
self.write("}")
def _Tuple(self, t):
self.write("(")
if len(t.elts) == 1:
(elt,) = t.elts
self.dispatch(elt)
self.write(",")
else:
interleave(lambda: self.write(", "), self.dispatch, t.elts)
self.write(")")
unop = {"Invert": "~", "Not": "not", "UAdd": "+", "USub": "-"}
def _UnaryOp(self, t):
self.write("(")
# if it's an English keyword, highlight it.
if t.op.__class__.__name__ == "Not":
self.write(self.maybe_colorize_python_keyword(self.unop[t.op.__class__.__name__]))
else:
self.write(self.unop[t.op.__class__.__name__])
self.write(" ")
self.dispatch(t.operand)
self.write(")")
binop = {"Add": "+", "Sub": "-", "Mult": "*", "MatMult": "@", "Div": "/", "Mod": "%",
"LShift": "<<", "RShift": ">>", "BitOr": "|", "BitXor": "^", "BitAnd": "&",
"FloorDiv": "//", "Pow": "**"}
def _BinOp(self, t):
self.write("(")
self.dispatch(t.left)
self.write(" " + self.binop[t.op.__class__.__name__] + " ")
self.dispatch(t.right)
self.write(")")
cmpops = {"Eq": "==", "NotEq": "!=", "Lt": "<", "LtE": "<=", "Gt": ">", "GtE": ">=",
"Is": "is", "IsNot": "is not", "In": "in", "NotIn": "not in"}
def _Compare(self, t):
self.write("(")
self.dispatch(t.left)
for o, e in zip(t.ops, t.comparators):
# if it's an English keyword, highlight it.
if o.__class__.__name__ in ("Is", "IsNot", "In", "NotIn"):
self.write(" " + self.maybe_colorize_python_keyword(self.cmpops[o.__class__.__name__]) + " ")
else:
self.write(" " + self.cmpops[o.__class__.__name__] + " ")
self.dispatch(e)
self.write(")")
boolops = {ast.And: "and", ast.Or: "or"}
def _BoolOp(self, t):
self.write("(")
s = self.maybe_colorize_python_keyword(self.boolops[t.op.__class__])
s = f" {s} "
interleave(lambda: self.write(s), self.dispatch, t.values)
self.write(")")
def _Attribute(self, t):
v = t.value
self.dispatch(v)
# Special case: 3.__abs__() is a syntax error, so if t.value
# is an integer literal then we need to either parenthesize
# it or add an extra space to get 3 .__abs__().
if ((isinstance(v, ast.Constant) and isinstance(v.value, int)) or
(isinstance(v, ast.Num) and isinstance(v.n, int))):
self.write(" ")
self.write(".")
self.write(t.attr)
def _Call(self, t):
self.dispatch(t.func)
self.write("(")
comma = False
for e in t.args:
if comma:
self.write(", ")
else:
comma = True
self.dispatch(e)
for e in t.keywords:
if comma:
self.write(", ")
else:
comma = True
self.dispatch(e)
self.write(")")
def _FormattedValue(self, t):
# Node representing a single formatting field in an f-string. If the
# string contains a single formatting field and nothing else the node
# can be isolated otherwise it appears in `JoinedStr`.
self.write("f'")
self._FormattedValue_helper(t)
self.write("'")
def _FormattedValue_helper(self, t):
def c(text):
return self.maybe_colorize(text, ColorScheme.STRING)
self.write(c("{"))
self.dispatch(t.value)
if t.conversion == 115:
self.write(c("!s"))
elif t.conversion == 114:
self.write(c("!r"))
elif t.conversion == 97:
self.write(c("!a"))
elif t.conversion == -1: # no formatting
pass
else:
raise ValueError(f"Don't know how to unparse conversion code {t.conversion}")
if t.format_spec:
self.write(c(":"))
self._JoinedStr_helper(t.format_spec)
self.write(c("}"))
def _JoinedStr(self, t):
self.write("f" + self.maybe_colorize("'", ColorScheme.STRING))
self._JoinedStr_helper(t)
self.write(self.maybe_colorize("'", ColorScheme.STRING))
def _JoinedStr_helper(self, t):
def escape(s):
return s.replace("'", r"\'").replace("\n", r"\n")
for v in t.values:
# Omit the surrounding quotes in string snippets
if type(v) is ast.Constant:
self.write(self.maybe_colorize(escape(v.value), ColorScheme.STRING))
elif type(v) is ast.Str: # up to Python 3.7
self.write(self.maybe_colorize(escape(v.s), ColorScheme.STRING))
elif type(v) is ast.FormattedValue:
self._FormattedValue_helper(v)
else:
raise ValueError(f"Don't know how to unparse {t!r} inside an f-string")
def _Subscript(self, t):
self.dispatch(t.value)
self.write("[")
self.dispatch(t.slice)
self.write("]")
def _Starred(self, t):
self.write("*")
self.dispatch(t.value)
# slice
def _Ellipsis(self, t): # up to Python 3.7
self.write("...")
def _Index(self, t):
self.dispatch(t.value)
def _Slice(self, t):
if t.lower:
self.dispatch(t.lower)
self.write(":")
if t.upper:
self.dispatch(t.upper)
if t.step:
self.write(":")
self.dispatch(t.step)
def _ExtSlice(self, t):
interleave(lambda: self.write(", "), self.dispatch, t.dims)
# argument
def _arg(self, t):
self.write(t.arg)
if hasattr(t, "annotation") and t.annotation: # macro-generated nodes might not have it
self.write(": ")
self.dispatch(t.annotation)
# others
def _arguments(self, t):
first = True
# positional-only, and positional-or-keyword arguments
nposargs = len(t.args)
if hasattr(t, "posonlyargs"):
nposonlyargs = len(t.posonlyargs)
nposargs += nposonlyargs
defaults = [None] * (nposargs - len(t.defaults)) + t.defaults
if hasattr(t, "posonlyargs"):
args_sets = [t.posonlyargs, t.args]
defaults_sets = [defaults[:nposonlyargs], defaults[nposonlyargs:]]
else:
args_sets = [t.args]
defaults_sets = [defaults]
def write_arg_default_pairs(data):
nonlocal first
args, defaults = data
for a, d in zip(args, defaults):
if first:
first = False
else:
self.write(", ")
self.dispatch(a)
if d:
self.write("=")
self.dispatch(d)
def maybe_separate_positional_only_args():
if not first:
self.write(", /")
interleave(maybe_separate_positional_only_args,
write_arg_default_pairs,
zip(args_sets, defaults_sets))
# varargs, or bare "*" if no varargs but keyword-only arguments present
if t.vararg or t.kwonlyargs:
if first:
first = False
else:
self.write(", ")
self.write("*")
if t.vararg:
self.write(t.vararg.arg)
if hasattr(t.vararg, "annotation") and t.vararg.annotation:
self.write(": ")
self.dispatch(t.vararg.annotation)
# keyword-only arguments
if t.kwonlyargs:
for a, d in zip(t.kwonlyargs, t.kw_defaults):
if first:
first = False
else:
self.write(", ")
self.dispatch(a),
if d:
self.write("=")
self.dispatch(d)
# kwargs
if t.kwarg:
if first:
first = False
else:
self.write(", ")
self.write("**" + t.kwarg.arg)
if hasattr(t.kwarg, "annotation") and t.kwarg.annotation:
self.write(": ")
self.dispatch(t.kwarg.annotation)
def _keyword(self, t):
if t.arg is None:
self.write("**")
else:
self.write(t.arg)
self.write("=")
self.dispatch(t.value)
def _Lambda(self, t):
self.write("(")
self.write(self.maybe_colorize_python_keyword("lambda"))
def takes_arguments(lam):
a = lam.args
if hasattr(a, "posonlyargs") and a.posonlyargs:
return True
return a.args or a.vararg or a.kwonlyargs or a.kwarg
if takes_arguments(t):
self.write(" ")
self.dispatch(t.args)
self.write(": ")
self.dispatch(t.body)
self.write(")")
def _alias(self, t):
self.write(t.name)
if t.asname:
self.write(self.maybe_colorize_python_keyword(" as ") + t.asname)
def _withitem(self, t):
self.dispatch(t.context_expr)
if t.optional_vars:
self.write(self.maybe_colorize_python_keyword(" as "))
self.dispatch(t.optional_vars)
def unparse(tree, *, debug=False, color=False, expander=None):
"""Convert the AST `tree` into source code. Return the code as a string.
`debug`: bool, print invisible nodes (`Module`, `Expr`).
The output is then not valid Python, but may better show
the problem when code produced by a macro mysteriously
fails to compile (even though a non-debug unparse looks ok).
Upon invalid input, raises `UnparserError`.
"""
try:
with io.StringIO() as output:
Unparser(tree, file=output, debug=debug, color=color, expander=expander)
code = output.getvalue().strip()
return code
except UnparserError as err: # fall back to an AST dump
try:
astdump = dump(tree, multiline=True, color=color)
sep = " " if "\n" not in astdump else "\n"
msg = f"unparse failed, likely invalid AST; here's an AST dump instead:{sep}{astdump}"
raise UnparserError(msg) from err
except TypeError: # fall back to repr
representation = repr(tree)
sep = " " if "\n" not in representation else "\n"
msg = f"unparse failed, fallback AST dump failed, likely not an AST; here's the type and repr instead:{sep}{type(tree)}{sep}{representation}"
raise UnparserError(msg) from err
def unparse_with_fallbacks(tree, *, debug=False, color=False, expander=None):
"""Like `unparse`, but upon error, don't raise; return the error message.
Usually you'll want the exception to be raised. This is mainly useful to
compactly express "just give me something to work with" (e.g. for including
source code into an error message) without having to care about exceptions
at the receiving end.
"""
try:
text = unparse(tree, debug=debug, color=color, expander=expander)
except UnparserError as err:
text = str(err)
except Exception as err:
# This can only happen if there is a bug in the unparser, but we don't
# want to lose the macro use site filename and line number if this
# occurs during macro expansion, because having that information makes
# it much easier to create a minimal example for filing a bug report.
# TODO: maybe use `traceback.format_exception` here?
text = f"Internal error in unparser: {type(err)}: {str(err)}"
return text
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