Python Module.def_ примеры использования

Пример #1

def gen() -> Module:
    m = Module()
    with m.def_("foo", "x", "y", return_type="int"):
        m.stmt("pass")

    with m.def_("bar", "x", return_type="int"):
        m.stmt("pass")
    return m

Пример #2

Файл: 00printable.py Проект: podhmo/individual-sandbox

    def parse_args(self, *args, **kwargs):
        self.history.append({"name": "parse_args", "args": args, "kwargs": kwargs})
        from prestring.python import Module, LazyArgumentsAndKeywords

        def _make_args(history, default=""):
            name = history["name"]
            if name == "__init__":
                name = default
            kwargs = {k: repr(v) for k, v in history["kwargs"].items()}
            args = [repr(v) for v in history["args"]]
            return f"{name}({LazyArgumentsAndKeywords(args, kwargs)})"

        m = Module()
        with m.def_("Main"):
            m.import_("argparse")
            m.stmt(f"parser = argparse.ArgumentParser{_make_args(self.history[0])}")
            for x in self.history[1:-1]:
                m.stmt(f"parser.{_make_args(x)}")
            m.stmt(f"args = parser.{_make_args(self.history[-1])}")
            m.stmt("main(**vars(args))")

        with m.if_("__name__ == '__main__'"):
            m.stmt("Main()")

        print(m)
        sys.exit(0)

Пример #3

    def parse_args(self, *args, **kwargs):
        self.history.append({"name": "parse_args", "args": args, "kwargs": kwargs})
        from prestring.python import Module, LazyArgumentsAndKeywords

        def _make_call_stmt(history, default=""):
            name = history["name"]
            if name == "__init__":
                name = default
            kwargs = {k: repr(v) for k, v in history["kwargs"].items()}
            args = [repr(v) for v in history["args"]]
            return f"{name}({LazyArgumentsAndKeywords(args, kwargs)})"

        m = Module()
        m.sep()
        with m.def_("main"):
            m.import_("argparse")
            m.stmt(f"parser = argparse.ArgumentParser{_make_call_stmt(self.history[0])}")
            m.stmt("parser.print_usage = parser.print_help")
            for x in self.history[1:-1]:
                m.stmt(f"parser.{_make_call_stmt(x)}")
            m.stmt(f"args = parser.{_make_call_stmt(self.history[-1])}")
            m.stmt(f"{self.fn.__name__}(**vars(args))")

        with m.if_("__name__ == '__main__'"):
            m.stmt("main()")

        with open(inspect.getsourcefile(self.fn)) as rf:
            source = rf.read()
        rx = re.compile("(?:@([\S]+\.)?as_command.*|^.*import ascommand.*)\n", re.MULTILINE)
        exposed = rx.sub("", "".join(source))
        print(exposed)
        print(m)
        sys.exit(0)

Пример #4

    def parse_args(self, *args, **kwargs):
        self.history.append({
            "name": "parse_args",
            "args": args,
            "kwargs": kwargs
        })
        from prestring.python import Module, LazyArgumentsAndKeywords

        def _make_args(history, default=""):
            name = history["name"]
            if name == "__init__":
                name = default
            kwargs = {k: repr(v) for k, v in history["kwargs"].items()}
            args = [repr(v) for v in history["args"]]
            return f"{name}({LazyArgumentsAndKeywords(args, kwargs)})"

        m = Module()
        with m.def_("Main"):
            m.import_("argparse")
            m.stmt(
                f"parser = argparse.ArgumentParser{_make_args(self.history[0])}"
            )
            for x in self.history[1:-1]:
                m.stmt(f"parser.{_make_args(x)}")
            m.stmt(f"args = parser.{_make_args(self.history[-1])}")
            m.stmt("main(**vars(args))")

        with m.if_("__name__ == '__main__'"):
            m.stmt("Main()")

        print(m)
        sys.exit(0)

Пример #5

def run(*, path: str, disable_docstring) -> None:
    d = loading.loadfile(path)
    m = Module()
    a = Accessor(d, m, disable_docstring=disable_docstring)

    m.import_("typing", as_="t")
    m.sep()
    m.stmt("AnyService = t.Any  # TODO")
    m.stmt("AnyResource = t.Any  # TODO")
    m.sep()
    for rname, resource in a.resources.items():
        with m.class_(titleize(rname), ""):

            with m.method("__init__", "resource: AnyResource"):
                m.stmt("self.internal = resource")

            m.stmt("# methods")
            for mname, method, params in a.iterate_methods(resource):
                with m.method(mname, params):
                    a.emit_docstring(method["description"])
                    m.stmt(
                        f"""# {method["httpMethod"]}: {method["flatPath"]}""")
                    m.stmt(f"""# id: {method["id"]}""")
                    m.stmt(f"return self.internal.{mname}({params})")

            m.stmt("# nested resources")
            for srname, subresource in a.iterate_nested_resources(resource):
                with m.method(srname):
                    m.stmt(f"return self.internal.{srname}({params})")

            # m.stmt("# nested resources")
            # for mname, subresource in resource.get("resources", {}).items():
            #     params = LParams()
            #     for is_positional, (pname, parameter) in itertools.zip_longest(subresource.get("parameterOrder", []), subresource.get("parameters", {}).items()):
            #         if is_positional:
            #             params.append(pname)  # TODO type:
            #         else:
            #             params[pname] = None  # TODO type:
            #     with m.method(mname, params):
            #         docstring(subresource["description"])
            #         m.stmt(f"""# id: {subresource["id"]}""")
            #         m.stmt(f"return self.{mname}({params})")

    with m.class_("Service"):
        with m.method("__init__", "service: AnyService"):
            m.stmt("self.internal = service")

        for rname in a.resources.keys():
            with m.method(rname, return_type=titleize(rname)):
                m.stmt(f"return {titleize(rname)}(self.internal.{rname}())")

    with m.def_("build", "*args", "**kwargs", return_type="Service"):
        m.stmt("# TODO: use the signature of googleapiclient.discovery.build")
        m.submodule().from_("googleapiclient.discovery", "build")
        m.stmt(
            f"return Service(build({a.name!r}, {a.version!r}, *args, **kwargs))"
        )

    print(m)

Пример #6

from prestring.python import Module

m = Module()

with m.def_("main"):
    m.stmt("print('hello world')")

with m.if_("__name__ == '__main__'"):
    m.stmt("main()")

print(m)

Пример #7

from prestring.python import Module

m = Module()
with m.def_("foo"):
    m.return_("'foo'")
print(m)

Пример #8

from prestring.python import Module
from prestring.utils import LazyFormat, LazyArgumentsAndKeywords
from typestr import typestr


class Hello:
    name: str
    age: int
    nickname: t.Optional[str] = None


m = Module()
w = get_walker([Hello])
for cls in w.walk():
    name = w.resolver.resolve_typename(cls)
    args = []
    for fieldname, info, metadata in w.for_type(cls).walk():
        # todo: default
        if "default" in metadata:
            args.append(
                LazyFormat(
                    "{}: {} = {}", fieldname, typestr(info.raw), metadata["default"]
                )
            )
        else:
            args.append(LazyFormat("{}: {}", fieldname, typestr(info.raw)))

    with m.def_(name, LazyArgumentsAndKeywords(args)):
        m.stmt("...")
print(m)

Пример #9

from prestring.python import Module

m = Module()
m.import_("math")
m.sep()

with m.def_('rmse', 'xs', 'ys'):
    m.stmt('acc = 0')
    m.stmt('assert len(xs) == len(ys)')
    with m.for_('x, y', 'zip(xs, ys)'):
        m.stmt('acc += (x - y) ** 2')
    m.return_('math.sqrt(acc / len(xs))')

# m.stmt('xs = [92, 95, 110, 114, 100, 98, 93]')
# m.stmt('ys = [95, 93, 100, 114, 105, 100, 96]')
print(m)

Пример #10

"""
operations:
  <name>:
    name: <>
    input: {"shapee": <>}
    output: {"shape": <>,  "resultWrapper": <>}
    errors: {}
    documentation
"""

m = Module()
m.from_("__future__").import_("annotations")
m.sep()
m.stmt("# operations")
with m.class_("SQS"):
    for name, sd in d["operations"].items():
        with m.def_(
                name,
                f"input: {sd['input']['shape']}",
                return_type=sd["output"]["shape"] if "output" in sd else None,
        ):
            m.stmt("...")
m.stmt("# shapes")
with m.class_("SQS"):
    for name, sd in d["shapes"].items():
        with m.class_(name):
            # structure, type
            m.stmt("pass")

print(m)

Пример #11

def emit_foo(m: Module, name: str, *, sep: str):
    with m.def_(name, "message: str"):
        m.return_(f"f'foo{sep}{{message}}'")
    return m

Пример #12

def print_name(m: Module):
    with m.def_("print_name", "p: Person", return_type="None"):
        m.stmt("print(p.name)")

Пример #13

from prestring.python import Module

# 何が嫌だったのかを整理してみるか。

m = Module()

# こういう感じでクラス定義をするんだけれど。このクラスを利用する関数を書きづらい。
with m.class_("Person"):
    m.stmt("name: str")

# ここで "Person" って何？ importされているの？と感じてしまう。
with m.def_("print_name", "p: Person"):
    m.stmt("print(p.name)")

# そしてここで定義したprint_name()も利用できない。何がおきているかと言うと。
#
# - "Person"というクラス定義を生成する記述は値ではないので持ち運べない
# - "print_name"という関数定義を生成する記述は値ではないので持ち運べない
#
# どれも値として扱えないことが問題？ 例えば以下の様に関数で包むのはどうだろう。


def Person(m: Module) -> None:
    with m.class_("Person"):
        m.stmt("name: str")


# 何が嫌なのかと言えば、関数名とクラス名を二度書かないといけないと感じる点。
# ただ今度は値として持つことができる。
# 次にやりたいことはなんだろう？その値を使ってのコードとはなんのことだろう？
#

Пример #14

from prestring.python import Module

m = Module()
with m.def_("hello"):
    m.stmt("""print("hello")""")
print(m)

Пример #15

from prestring.python import Module
m = Module()  # noqa
m.sep()


with m.def_('hello', 'name', '*', 'message: str =  "hello world"'):
    m.docstring('greeting message')
    m.stmt('print(f"{name}: {message}")')


print(m)

Пример #16

import inspect
from yaml.constructor import Constructor
from prestring.python import Module

m = Module()
m.from_("yaml.constructor", "Constructor")
m.sep()
with m.class_("WrappedConstructor", "Constructor"):
    with m.def_("wrap", "self", "path", "name", "node", "r"):
        with m.if_("r is None"):
            m.stmt("return r")
        m.stmt('# print("@", id(r), repr(r))')
        m.stmt("mem[id(r)] = node")
        m.stmt("return r")

    seen = set()
    for cls in Constructor.mro():
        for name, attr in cls.__dict__.items():
            if name in seen:
                continue
            seen.add(name)
            if name.startswith("construct_") and callable(attr):
                sigs = inspect.signature(attr)
                m.stmt("def {}{}:", name, sigs)
                with m.scope():
                    args = []
                    for v in sigs.parameters.values():
                        if v.name == "self":
                            continue
                        if v.default is inspect._empty:
                            args.append(str(v))

Пример #17

Файл: _x.py Проект: podhmo/individual-sandbox

__mod__
__rmod__
__pos__
__neg__
__call__

__getitem__
__lt__
__le__
__gt__
__ge__
__int__

__float__
__complex__
__pow__
__rpow__
__sub__
__rsub__
"""

from prestring.python import Module
m = Module()
with m.scope():
    for x in xs.strip().split("\n"):
        if not x.strip():
            continue
        with m.def_(x, "self", "*args", "**kwargs"):
            m.stmt(f'return self.__getattr__({x!r})(*args, **kwargs)')
print(m)

Пример #18

from prestring.python import Module

m = Module()
with m.def_("hello", "name") as hello:
    m.stmt("print('hello')")

m.stmt(hello("foo"))
m.stmt(hello("bar"))

print(m)