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#############################################################################
##
## Copyright (C) 2019 The Qt Company Ltd.
## Contact: https://www.qt.io/licensing/
##
## This file is part of Qt for Python.
##
## $QT_BEGIN_LICENSE:LGPL$
## Commercial License Usage
## Licensees holding valid commercial Qt licenses may use this file in
## accordance with the commercial license agreement provided with the
## Software or, alternatively, in accordance with the terms contained in
## a written agreement between you and The Qt Company. For licensing terms
## and conditions see https://www.qt.io/terms-conditions. For further
## information use the contact form at https://www.qt.io/contact-us.
##
## GNU Lesser General Public License Usage
## Alternatively, this file may be used under the terms of the GNU Lesser
## General Public License version 3 as published by the Free Software
## Foundation and appearing in the file LICENSE.LGPL3 included in the
## packaging of this file. Please review the following information to
## ensure the GNU Lesser General Public License version 3 requirements
## will be met: https://www.gnu.org/licenses/lgpl-3.0.html.
##
## GNU General Public License Usage
## Alternatively, this file may be used under the terms of the GNU
## General Public License version 2.0 or (at your option) the GNU General
## Public license version 3 or any later version approved by the KDE Free
## Qt Foundation. The licenses are as published by the Free Software
## Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3
## included in the packaging of this file. Please review the following
## information to ensure the GNU General Public License requirements will
## be met: https://www.gnu.org/licenses/gpl-2.0.html and
## https://www.gnu.org/licenses/gpl-3.0.html.
##
## $QT_END_LICENSE$
##
#############################################################################
from __future__ import print_function, absolute_import
import sys
import re
import warnings
import types
import keyword
import functools
from shibokensupport.signature.mapping import (type_map, update_mapping,
namespace, typing, _NotCalled)
from shibokensupport.signature.lib.tool import (SimpleNamespace,
build_brace_pattern)
_DEBUG = False
LIST_KEYWORDS = False
"""
parser.py
This module parses the signature text and creates properties for the
signature objects.
PySide has a new function 'CppGenerator::writeSignatureInfo()'
that extracts the gathered information about the function arguments
and defaults as good as it can. But what PySide generates is still
very C-ish and has many constants that Python doesn't understand.
The function 'try_to_guess()' below understands a lot of PySide's
peculiar way to assume local context. If it is able to do the guess,
then the result is inserted into the dict, so the search happens
not again. For everything that is not covered by these automatic
guesses, we provide an entry in 'type_map' that resolves it.
In effect, 'type_map' maps text to real Python objects.
"""
def dprint(*args, **kw):
if _DEBUG:
import pprint
for arg in args:
pprint.pprint(arg)
sys.stdout.flush()
_cache = {}
def _parse_arglist(argstr):
# The following is a split re. The string is broken into pieces which are
# between the recognized strings. Because the re has groups, both the
# strings and the separators are returned, where the strings are not
# interesting at all: They are just the commata.
key = "_parse_arglist"
if key not in _cache:
regex = build_brace_pattern(level=3, separators=",")
_cache[key] = re.compile(regex, flags=re.VERBOSE)
split = _cache[key].split
# Note: this list is interspersed with "," and surrounded by ""
return [x.strip() for x in split(argstr) if x.strip() not in ("", ",")]
def _parse_line(line):
line_re = r"""
((?P<multi> ([0-9]+)) : )? # the optional multi-index
(?P<funcname> \w+(\.\w+)*) # the function name
\( (?P<arglist> .*?) \) # the argument list
( -> (?P<returntype> .*) )? # the optional return type
$
"""
ret = SimpleNamespace(**re.match(line_re, line, re.VERBOSE).groupdict())
argstr = ret.arglist
arglist = _parse_arglist(argstr)
args = []
for arg in arglist:
name, ann = arg.split(":")
if name in keyword.kwlist:
if LIST_KEYWORDS:
print("KEYWORD", ret)
name = name + "_"
if "=" in ann:
ann, default = ann.split("=")
tup = name, ann, default
else:
tup = name, ann
args.append(tup)
ret.arglist = args
multi = ret.multi
if multi is not None:
ret.multi = int(multi)
funcname = ret.funcname
parts = funcname.split(".")
if parts[-1] in keyword.kwlist:
ret.funcname = funcname + "_"
return vars(ret)
def make_good_value(thing, valtype):
try:
if thing.endswith("()"):
thing = 'Default("{}")'.format(thing[:-2])
else:
ret = eval(thing, namespace)
if valtype and repr(ret).startswith("<"):
thing = 'Instance("{}")'.format(thing)
return eval(thing, namespace)
except Exception:
pass
def try_to_guess(thing, valtype):
if "." not in thing and "(" not in thing:
text = "{}.{}".format(valtype, thing)
ret = make_good_value(text, valtype)
if ret is not None:
return ret
typewords = valtype.split(".")
valwords = thing.split(".")
braceless = valwords[0] # Yes, not -1. Relevant is the overlapped word.
if "(" in braceless:
braceless = braceless[:braceless.index("(")]
for idx, w in enumerate(typewords):
if w == braceless:
text = ".".join(typewords[:idx] + valwords)
ret = make_good_value(text, valtype)
if ret is not None:
return ret
return None
def _resolve_value(thing, valtype, line):
if thing in ("0", "None") and valtype:
if valtype.startswith("PySide2."):
return None
name = type_map[valtype].__name__
thing = "zero({})".format(name)
if thing in type_map:
return type_map[thing]
res = make_good_value(thing, valtype)
if res is not None:
type_map[thing] = res
return res
res = try_to_guess(thing, valtype) if valtype else None
if res is not None:
type_map[thing] = res
return res
warnings.warn("""pyside_type_init:
UNRECOGNIZED: {!r}
OFFENDING LINE: {!r}
""".format(thing, line), RuntimeWarning)
return thing
def _resolve_arraytype(thing, line):
search = re.search(r"\[(\d*)\]$", thing)
thing = thing[:search.start()]
if thing.endswith("]"):
thing = _resolve_arraytype(thing, line)
if search.group(1):
# concrete array, use a tuple
nelem = int(search.group(1))
thing = ", ".join([thing] * nelem)
thing = "Tuple[" + thing + "]"
else:
thing = "QList[" + thing + "]"
return thing
def to_string(thing):
if isinstance(thing, str):
return thing
if hasattr(thing, "__name__"):
dot = "." in str(thing)
return thing.__module__ + "." + thing.__name__ if dot else thing.__name__
# Note: This captures things from the typing module:
return str(thing)
matrix_pattern = "PySide2.QtGui.QGenericMatrix"
# The matrix patch is borrowed from the future (extracted).
# It will work when the parser recognizes matrices.
def handle_matrix(arg):
n, m, typstr = tuple(map(lambda x:x.strip(), arg.split(",")))
assert typstr == "float"
result = "PySide2.QtGui.QMatrix{n}x{m}".format(**locals())
return eval(result, namespace)
debugging_aid = """
from inspect import currentframe
def lno(level):
lineno = currentframe().f_back.f_lineno
spaces = level * " "
return "{lineno}{spaces}".format(**locals())
"""
def _resolve_type(thing, line, level):
# Capture total replacements, first. Happens in
# "PySide2.QtCore.QCborStreamReader.StringResult[PySide2.QtCore.QByteArray]"
if thing in type_map:
return type_map[thing]
# Now the nested structures are handled.
if "[" in thing:
# handle primitive arrays
if re.search(r"\[\d*\]$", thing):
thing = _resolve_arraytype(thing, line)
# Handle a container return type. (see PYSIDE-921 in cppgenerator.cpp)
contr, thing = re.match(r"(.*?)\[(.*?)\]$", thing).groups()
# Special case: Handle the generic matrices.
if contr == matrix_pattern:
return handle_matrix(thing)
contr = _resolve_type(contr, line, level+1)
if isinstance(contr, _NotCalled):
raise SystemError("Container types must exist:", repr(contr))
contr = to_string(contr)
pieces = []
for part in _parse_arglist(thing):
part = _resolve_type(part, line, level+1)
if isinstance(part, _NotCalled):
# fix the tag (i.e. "Missing") by repr
part = repr(part)
pieces.append(to_string(part))
thing = ", ".join(pieces)
result = "{contr}[{thing}]".format(**locals())
return eval(result, namespace)
return _resolve_value(thing, None, line)
def calculate_props(line):
parsed = SimpleNamespace(**_parse_line(line.strip()))
arglist = parsed.arglist
annotations = {}
_defaults = []
for idx, tup in enumerate(arglist):
name, ann = tup[:2]
if ann == "...":
name = "*args"
# copy the fields back :()
ann = 'NULL' # maps to None
tup = name, ann
arglist[idx] = tup
annotations[name] = _resolve_type(ann, line, 0)
if len(tup) == 3:
default = _resolve_value(tup[2], ann, line)
_defaults.append(default)
defaults = tuple(_defaults)
returntype = parsed.returntype
if returntype is not None:
annotations["return"] = _resolve_type(returntype, line, 0)
props = SimpleNamespace()
props.defaults = defaults
props.kwdefaults = {}
props.annotations = annotations
props.varnames = varnames = tuple(tup[0] for tup in arglist)
funcname = parsed.funcname
props.fullname = funcname
shortname = funcname[funcname.rindex(".")+1:]
props.name = shortname
props.multi = parsed.multi
return vars(props)
def fixup_multilines(lines):
"""
Multilines can collapse when certain distinctions between C++ types
vanish after mapping to Python.
This function fixes this by re-computing multiline-ness.
"""
res = []
multi_lines = []
for line in lines:
multi = re.match(r"([0-9]+):", line)
if multi:
idx, rest = int(multi.group(1)), line[multi.end():]
multi_lines.append(rest)
if idx > 0:
continue
# remove duplicates
multi_lines = sorted(set(multi_lines))
# renumber or return a single line
nmulti = len(multi_lines)
if nmulti > 1:
for idx, line in enumerate(multi_lines):
res.append("{}:{}".format(nmulti-idx-1, line))
else:
res.append(multi_lines[0])
multi_lines = []
else:
res.append(line)
return res
def pyside_type_init(type_key, sig_strings):
dprint()
dprint("Initialization of type key '{}'".format(type_key))
update_mapping()
lines = fixup_multilines(sig_strings)
ret = {}
multi_props = []
for line in lines:
props = calculate_props(line)
shortname = props["name"]
multi = props["multi"]
if multi is None:
ret[shortname] = props
dprint(props)
else:
multi_props.append(props)
if multi > 0:
continue
fullname = props.pop("fullname")
multi_props = {"multi": multi_props, "fullname": fullname}
ret[shortname] = multi_props
dprint(multi_props)
multi_props = []
return ret
# end of file
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