/usr/lib/python3/dist-packages/hy/macros.py is in python3-hy 0.12.1-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.
from inspect import getargspec, formatargspec
from hy.models import replace_hy_obj, wrap_value
from hy.models.expression import HyExpression
from hy.models.string import HyString
from hy.errors import HyTypeError, HyMacroExpansionError
from collections import defaultdict
CORE_MACROS = [
"hy.core.bootstrap",
]
EXTRA_MACROS = [
"hy.core.macros",
]
_hy_macros = defaultdict(dict)
_hy_reader = defaultdict(dict)
def macro(name):
"""Decorator to define a macro called `name`.
This stores the macro `name` in the namespace for the module where it is
defined.
If the module where it is defined is in `hy.core`, then the macro is stored
in the default `None` namespace.
This function is called from the `defmacro` special form in the compiler.
"""
def _(fn):
try:
argspec = getargspec(fn)
fn._hy_macro_pass_compiler = argspec.keywords is not None
except Exception:
# An exception might be raised if fn has arguments with
# names that are invalid in Python.
fn._hy_macro_pass_compiler = False
module_name = fn.__module__
if module_name.startswith("hy.core"):
module_name = None
_hy_macros[module_name][name] = fn
return fn
return _
def reader(name):
"""Decorator to define a reader macro called `name`.
This stores the macro `name` in the namespace for the module where it is
defined.
If the module where it is defined is in `hy.core`, then the macro is stored
in the default `None` namespace.
This function is called from the `defreader` special form in the compiler.
"""
def _(fn):
module_name = fn.__module__
if module_name.startswith("hy.core"):
module_name = None
_hy_reader[module_name][name] = fn
return fn
return _
def require(source_module, target_module,
all_macros=False, assignments={}, prefix=""):
"""Load macros from `source_module` in the namespace of
`target_module`. `assignments` maps old names to new names, but is
ignored if `all_macros` is true. If `prefix` is nonempty, it is
prepended to the name of each imported macro. (This means you get
macros named things like "mymacromodule.mymacro", which looks like
an attribute of a module, although it's actually just a symbol
with a period in its name.)
This function is called from the `require` special form in the compiler.
"""
seen_names = set()
if prefix:
prefix += "."
for d in _hy_macros, _hy_reader:
for name, macro in d[source_module].items():
seen_names.add(name)
if all_macros:
d[target_module][prefix + name] = macro
elif name in assignments:
d[target_module][prefix + assignments[name]] = macro
if not all_macros:
unseen = frozenset(assignments.keys()).difference(seen_names)
if unseen:
raise ImportError("cannot require names: " + repr(list(unseen)))
def load_macros(module_name):
"""Load the hy builtin macros for module `module_name`.
Modules from `hy.core` can only use the macros from CORE_MACROS.
Other modules get the macros from CORE_MACROS and EXTRA_MACROS.
"""
def _import(module, module_name=module_name):
"__import__ a module, avoiding recursions"
if module != module_name:
__import__(module)
for module in CORE_MACROS:
_import(module)
if module_name.startswith("hy.core"):
return
for module in EXTRA_MACROS:
_import(module)
def make_empty_fn_copy(fn):
try:
# This might fail if fn has parameters with funny names, like o!n. In
# such a case, we return a generic function that ensures the program
# can continue running. Unfortunately, the error message that might get
# raised later on while expanding a macro might not make sense at all.
argspec = getargspec(fn)
formatted_args = formatargspec(*argspec)
fn_str = 'lambda {}: None'.format(
formatted_args.lstrip('(').rstrip(')'))
empty_fn = eval(fn_str)
except Exception:
def empty_fn(*args, **kwargs):
None
return empty_fn
def macroexpand(tree, compiler):
"""Expand the toplevel macros for the `tree`.
Load the macros from the given `module_name`, then expand the (top-level)
macros in `tree` until it stops changing.
"""
load_macros(compiler.module_name)
old = None
while old != tree:
old = tree
tree = macroexpand_1(tree, compiler)
return tree
def macroexpand_1(tree, compiler):
"""Expand the toplevel macro from `tree` once, in the context of
`module_name`."""
if isinstance(tree, HyExpression):
if tree == []:
return tree
fn = tree[0]
if fn in ("quote", "quasiquote"):
return tree
ntree = HyExpression(tree[:])
ntree.replace(tree)
opts = {}
if isinstance(fn, HyString):
m = _hy_macros[compiler.module_name].get(fn)
if m is None:
m = _hy_macros[None].get(fn)
if m is not None:
if m._hy_macro_pass_compiler:
opts['compiler'] = compiler
try:
m_copy = make_empty_fn_copy(m)
m_copy(*ntree[1:], **opts)
except TypeError as e:
msg = "expanding `" + str(tree[0]) + "': "
msg += str(e).replace("<lambda>()", "", 1).strip()
raise HyMacroExpansionError(tree, msg)
try:
obj = wrap_value(m(*ntree[1:], **opts))
except HyTypeError as e:
if e.expression is None:
e.expression = tree
raise
except Exception as e:
msg = "expanding `" + str(tree[0]) + "': " + repr(e)
raise HyMacroExpansionError(tree, msg)
replace_hy_obj(obj, tree)
return obj
return ntree
return tree
def reader_macroexpand(char, tree, compiler):
"""Expand the reader macro "char" with argument `tree`."""
load_macros(compiler.module_name)
reader_macro = _hy_reader[compiler.module_name].get(char)
if reader_macro is None:
try:
reader_macro = _hy_reader[None][char]
except KeyError:
raise HyTypeError(
char,
"`{0}' is not a defined reader macro.".format(char)
)
expr = reader_macro(tree)
return replace_hy_obj(wrap_value(expr), tree)
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