977 lines
32 KiB
Python
977 lines
32 KiB
Python
# flake8: noqa: all
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# Python AST interpreter written in Python
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#
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# This module is part of the Pycopy https://github.com/pfalcon/pycopy
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# project.
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#
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# Copyright (c) 2019 Paul Sokolovsky
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#
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# The MIT License
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#
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# Permission is hereby granted, free of charge, to any person obtaining a copy
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# of this software and associated documentation files (the "Software"), to deal
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# in the Software without restriction, including without limitation the rights
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# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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# copies of the Software, and to permit persons to whom the Software is
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# furnished to do so, subject to the following conditions:
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#
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# The above copyright notice and this permission notice shall be included in
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# all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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# THE SOFTWARE.
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#
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# Modified by Reid D. 'ardem' Mckenzie in 2021 to be a bit more fully-featured
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# and usable for running 'real' code as part of an experiment in implementing a
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# durable Python interpreter atop the original pycopy substrate.
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import ast
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import logging
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import os
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import sys
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if sys.version_info < (3, 0, 0):
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builtins = __builtins__
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else:
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import builtins
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log = logging.getLogger(__name__)
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class StrictNodeVisitor(ast.NodeVisitor):
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def generic_visit(self, node):
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n = node.__class__.__name__
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raise NotImplementedError("Visitor for node {} not implemented".format(n))
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class ANamespace:
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def __init__(self, node):
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self.d = {}
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self.parent = None
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# Cross-link namespace to AST node. Note that we can't do the
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# opposite, because for one node, there can be different namespaces.
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self.node = node
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def __getitem__(self, k):
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return self.d[k]
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def get(self, k, default=None):
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return self.d.get(k, default)
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def __setitem__(self, k, v):
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self.d[k] = v
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def __delitem__(self, k):
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del self.d[k]
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def __contains__(self, k):
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return k in self.d
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def __str__(self):
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return "<{} {}>".format(self.__class__.__name__, self.d)
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class ModuleNS(ANamespace):
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pass
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class FunctionNS(ANamespace):
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pass
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class ClassNS(ANamespace):
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pass
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# Pycopy by default doesn't support direct slice construction, use helper
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# object to construct it.
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class SliceGetter:
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def __getitem__(self, idx):
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return idx
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slice_getter = SliceGetter()
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def arg_name(arg):
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if sys.version_info < (3, 0, 0):
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return arg.id
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else:
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return arg.arg
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def kwarg_defaults(args):
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if sys.version_info < (3, 0, 0):
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return args.defaults
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else:
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return args.kw_defaults
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class TargetNonlocalFlow(Exception):
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"""Base exception class to simulate non-local control flow transfers in
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a target application."""
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class TargetBreak(TargetNonlocalFlow):
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pass
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class TargetContinue(TargetNonlocalFlow):
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pass
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class TargetReturn(TargetNonlocalFlow):
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pass
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class VarScopeSentinel:
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def __init__(self, name):
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self.name = name
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NO_VAR = VarScopeSentinel("no_var")
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GLOBAL = VarScopeSentinel("global")
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NONLOCAL = VarScopeSentinel("nonlocal")
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class InterpFuncWrap:
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"Callable wrapper for AST functions (FunctionDef nodes)."
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def __init__(self, node, interp):
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self.node = node
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self.interp = interp
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self.lexical_scope = interp.ns
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def __call__(self, *args, **kwargs):
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return self.interp.call_func(self.node, self, *args, **kwargs)
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# Python don't fully treat objects, even those defining __call__() special method, as a true callable. For example, such
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# objects aren't automatically converted to bound methods if looked up as another object's attributes. As we want our
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# "interpreted functions" to behave as close as possible to real functions, we just wrap function object with a real
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# function. An alternative might have been to perform needed checks and explicitly bind a method using
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# types.MethodType() in visit_Attribute (but then maybe there would be still other cases of "callable object" vs
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# "function" discrepancies).
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def InterpFunc(fun):
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def func(*args, **kwargs):
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return fun.__call__(*args, **kwargs)
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return func
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class InterpWith:
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def __init__(self, ctx):
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self.ctx = ctx
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def __enter__(self):
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return self.ctx.__enter__()
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def __exit__(self, tp, exc, tb):
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# Don't leak meta-level exceptions into target
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if isinstance(exc, TargetNonlocalFlow):
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tp = exc = tb = None
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return self.ctx.__exit__(tp, exc, tb)
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class InterpModule:
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def __init__(self, ns):
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self.ns = ns
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def __getattr__(self, name):
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try:
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return self.ns[name]
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except KeyError:
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raise AttributeError
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def __dir__(self):
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return list(self.ns.d.keys())
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class ModuleInterpreter(StrictNodeVisitor):
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"""An interpreter specific to a single module."""
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def __init__(self, system, fname, node):
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self.system = system
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self.fname = fname
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self.ns = self.module_ns = ModuleNS(node)
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# Call stack (in terms of function AST nodes).
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self.call_stack = []
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# To implement "store" operation, we need to arguments: location and value to store. The operation itself is
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# handled by a node visitor (e.g. visit_Name), and location is represented by AST node, but there's no support
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# to pass additional arguments to a visitor (likely, because it would be a burden to explicit pass such
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# additional arguments thru the chain of visitors). So instead, we store this value as field. As interpretation
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# happens sequentially, there's no risk that it will be overwritten "concurrently".
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self.store_val = None
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# Current active exception, for bare "raise", which doesn't work across function boundaries (and that's how we
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# have it - exception would be caught in visit_Try, while re-rasing would happen in visit_Raise).
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self.cur_exc = []
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def push_ns(self, new_ns):
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new_ns.parent = self.ns
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self.ns = new_ns
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def pop_ns(self):
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self.ns = self.ns.parent
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def stmt_list_visit(self, lst):
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res = None
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for s in lst:
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res = self.visit(s)
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return res
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def wrap_decorators(self, obj, node):
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for deco_n in reversed(list(node.decorator_list)):
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deco = self.visit(deco_n)
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obj = deco(obj)
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return obj
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def visit(self, node):
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val = super(StrictNodeVisitor, self).visit(node)
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return val
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def visit_Module(self, node):
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self.stmt_list_visit(node.body)
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def visit_Expression(self, node):
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return self.visit(node.body)
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def visit_ClassDef(self, node):
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self.push_ns(ClassNS(node))
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try:
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self.stmt_list_visit(node.body)
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except Exception:
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self.pop_ns()
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raise
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ns = self.ns
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self.pop_ns()
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cls = type(node.name, tuple([self.visit(b) for b in node.bases]), ns.d)
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cls = self.wrap_decorators(cls, node)
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self.ns[node.name] = cls
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# Store reference to class object in the namespace object
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ns.cls = cls
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def visit_Lambda(self, node):
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node.name = "<lambda>"
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return self.prepare_func(node)
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def visit_FunctionDef(self, node):
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# Defaults are evaluated at function definition time, so we
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# need to do that now.
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func = self.prepare_func(node)
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func = self.wrap_decorators(func, node)
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self.ns[node.name] = func
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def prepare_func(self, node):
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"""Prepare function AST node for future interpretation: pre-calculate
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and cache useful information, etc."""
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func = InterpFuncWrap(node, self)
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args = node.args or node.posonlyargs
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num_required = len(args.args) - len(args.defaults)
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all_args = set()
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d = {}
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for i, a in enumerate(args.args):
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all_args.add(arg_name(a))
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if i >= num_required:
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d[arg_name(a)] = self.visit(args.defaults[i - num_required])
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for a, v in zip(getattr(args, "kwonlyargs", ()), kwarg_defaults(args)):
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all_args.add(arg_name(a))
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if v is not None:
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d[arg_name(a)] = self.visit(v)
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# We can store cached argument names of a function in its node -
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# it's static.
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node.args.all_args = all_args
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# We can't store the values of default arguments - they're dynamic,
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# may depend on the lexical scope.
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func.defaults_dict = d
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return InterpFunc(func)
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def prepare_func_args(self, node, interp_func, *args, **kwargs):
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def arg_num_mismatch():
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raise TypeError(
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"{}() takes {} positional arguments but {} were given".format(
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node.name, len(argspec.args), len(args)
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)
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)
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argspec = node.args
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# If there's vararg, either offload surplus of args to it, or init
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# it to empty tuple (all in one statement). If no vararg, error on
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# too many args.
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#
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# Note that we have to do the .posonlyargs dance
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if argspec.vararg:
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self.ns[argspec.vararg.arg] = args[len(argspec.args) :]
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else:
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if len(args) > len(argspec.args or getattr(argspec, "posonlyargs", ())):
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arg_num_mismatch()
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if argspec.args:
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for i in range(min(len(args), len(argspec.args))):
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self.ns[arg_name(argspec.args[i])] = args[i]
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elif getattr(argspec, "posonlyargs", ()):
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if len(args) != len(argspec.posonlyargs):
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arg_num_mismatch()
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for a, value in zip(argspec.posonlyargs, args):
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self.ns[arg_name(a)] = value
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# Process incoming keyword arguments, putting them in namespace if
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# actual arg exists by that name, or offload to function's kwarg
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# if any. All make needed checks and error out.
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func_kwarg = {}
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for k, v in kwargs.items():
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if k in argspec.all_args:
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if k in self.ns:
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raise TypeError(
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"{}() got multiple values for argument '{}'".format(
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node.name, k
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)
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)
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self.ns[k] = v
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elif argspec.kwarg:
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func_kwarg[k] = v
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else:
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raise TypeError(
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"{}() got an unexpected keyword argument '{}'".format(node.name, k)
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)
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if argspec.kwarg:
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self.ns[arg_name(argspec.kwarg)] = func_kwarg
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# Finally, overlay default values for arguments not yet initialized.
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# We need to do this last for "multiple values for the same arg"
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# check to work.
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for k, v in interp_func.defaults_dict.items():
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if k not in self.ns:
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self.ns[k] = v
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# And now go thru and check for any missing arguments.
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for a in argspec.args:
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if arg_name(a) not in self.ns:
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raise TypeError(
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"{}() missing required positional argument: '{}'".format(
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node.name, arg_name(a)
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)
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)
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for a in getattr(argspec, "kwonlyargs", ()):
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if a.arg not in self.ns:
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raise TypeError(
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"{}() missing required keyword-only argument: '{}'".format(
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node.name, arg_name(a)
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)
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)
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def call_func(self, node, interp_func, *args, **kwargs):
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self.call_stack.append(node)
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# We need to switch from dynamic execution scope to lexical scope
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# in which function was defined (then switch back on return).
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dyna_scope = self.ns
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self.ns = interp_func.lexical_scope
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self.push_ns(FunctionNS(node))
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try:
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self.prepare_func_args(node, interp_func, *args, **kwargs)
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if isinstance(node.body, list):
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res = self.stmt_list_visit(node.body)
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else:
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res = self.visit(node.body)
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except TargetReturn as e:
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res = e.args[0]
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finally:
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self.pop_ns()
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self.ns = dyna_scope
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self.call_stack.pop()
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return res
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def visit_Return(self, node):
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if not isinstance(self.ns, FunctionNS):
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raise SyntaxError("'return' outside function")
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raise TargetReturn(node.value and self.visit(node.value))
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def visit_With(self, node):
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assert len(node.items) == 1
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ctx = self.visit(node.items[0].context_expr)
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with InterpWith(ctx) as val:
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if node.items[0].optional_vars is not None:
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self.handle_assign(node.items[0].optional_vars, val)
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self.stmt_list_visit(node.body)
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def visit_Try(self, node):
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try:
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self.stmt_list_visit(node.body)
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except TargetNonlocalFlow:
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raise
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except Exception as e:
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self.cur_exc.append(e)
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try:
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for h in getattr(node, "handlers", ()):
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if h.type is None or isinstance(e, self.visit(h.type)):
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if h.name:
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self.ns[h.name] = e
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self.stmt_list_visit(h.body)
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if h.name:
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del self.ns[h.name]
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break
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else:
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raise
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finally:
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self.cur_exc.pop()
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else:
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self.stmt_list_visit(node.orelse)
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finally:
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if getattr(node, "finalbody", None):
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self.stmt_list_visit(node.finalbody)
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def visit_TryExcept(self, node):
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# Py2k only; py3k merged all this into one node type.
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return self.visit_Try(node)
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def visit_TryFinally(self, node):
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# Py2k only; py3k merged all this into one node type.
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return self.visit_Try(node)
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def visit_For(self, node):
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iter = self.visit(node.iter)
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for item in iter:
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self.handle_assign(node.target, item)
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try:
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self.stmt_list_visit(node.body)
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except TargetBreak:
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break
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except TargetContinue:
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continue
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else:
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self.stmt_list_visit(node.orelse)
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def visit_While(self, node):
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while self.visit(node.test):
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try:
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self.stmt_list_visit(node.body)
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except TargetBreak:
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break
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except TargetContinue:
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continue
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else:
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self.stmt_list_visit(node.orelse)
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def visit_Break(self, node):
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raise TargetBreak
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def visit_Continue(self, node):
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raise TargetContinue
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def visit_If(self, node):
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test = self.visit(node.test)
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if test:
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self.stmt_list_visit(node.body)
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else:
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self.stmt_list_visit(node.orelse)
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def visit_Import(self, node):
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for n in node.names:
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self.ns[n.asname or n.name] = self.system.handle_import(n.name)
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def visit_ImportFrom(self, node):
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mod = self.system.handle_import(
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node.module, None, None, [n.name for n in node.names], node.level
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)
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for n in node.names:
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if n.name == "*":
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# This is the special case of the wildcard import. Copy
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# everything over.
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for n in getattr(mod, "__all__", dir(mod)):
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self.ns[n] = getattr(mod, n)
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else:
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self.ns[n.asname or n.name] = getattr(mod, n.name)
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def visit_Raise(self, node):
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if node.exc is None:
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if not self.cur_exc:
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raise RuntimeError("No active exception to reraise")
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raise self.cur_exc[-1]
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elif node.cause is None:
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raise self.visit(node.exc)
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# else:
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# raise self.visit(node.exc) from self.visit(node.cause)
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def visit_AugAssign(self, node):
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assert isinstance(node.target.ctx, ast.Store)
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# Not functional style, oops. Node in AST has store context, but we
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# need to read its value first. To not construct a copy of the entire
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# node with load context, we temporarily patch it in-place.
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save_ctx = node.target.ctx
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node.target.ctx = ast.Load()
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var_val = self.visit(node.target)
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node.target.ctx = save_ctx
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rval = self.visit(node.value)
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# As augmented assignment is statement, not operator, we can't put them
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# all into map. We could instead directly lookup special inplace methods
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# (__iadd__ and friends) and use them, with a fallback to normal binary
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# operations, but from the point of view of this interpreter, presence
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# of such methods is an implementation detail of the object system, it's
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# not concerned with it.
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op = type(node.op)
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if op is ast.Add:
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var_val += rval
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elif op is ast.Sub:
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var_val -= rval
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elif op is ast.Mult:
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var_val *= rval
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elif op is ast.Div:
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|
var_val /= rval
|
|
elif op is ast.FloorDiv:
|
|
var_val //= rval
|
|
elif op is ast.Mod:
|
|
var_val %= rval
|
|
elif op is ast.Pow:
|
|
var_val **= rval
|
|
elif op is ast.LShift:
|
|
var_val <<= rval
|
|
elif op is ast.RShift:
|
|
var_val >>= rval
|
|
elif op is ast.BitAnd:
|
|
var_val &= rval
|
|
elif op is ast.BitOr:
|
|
var_val |= rval
|
|
elif op is ast.BitXor:
|
|
var_val ^= rval
|
|
else:
|
|
raise NotImplementedError
|
|
|
|
self.store_val = var_val
|
|
self.visit(node.target)
|
|
|
|
def visit_Assign(self, node):
|
|
val = self.visit(node.value)
|
|
for n in node.targets:
|
|
self.handle_assign(n, val)
|
|
|
|
def handle_assign(self, target, val):
|
|
if isinstance(target, ast.Tuple):
|
|
it = iter(val)
|
|
try:
|
|
for elt_idx, t in enumerate(target.elts):
|
|
if getattr(ast, "Starred", None) and isinstance(t, ast.Starred):
|
|
t = t.value
|
|
all_elts = list(it)
|
|
break_i = len(all_elts) - (len(target.elts) - elt_idx - 1)
|
|
self.store_val = all_elts[:break_i]
|
|
it = iter(all_elts[break_i:])
|
|
else:
|
|
self.store_val = next(it)
|
|
self.visit(t)
|
|
except StopIteration:
|
|
raise ValueError(
|
|
"not enough values to unpack (expected {})".format(len(target.elts))
|
|
)
|
|
|
|
try:
|
|
next(it)
|
|
raise ValueError(
|
|
"too many values to unpack (expected {})".format(len(target.elts))
|
|
)
|
|
except StopIteration:
|
|
# Expected
|
|
pass
|
|
else:
|
|
self.store_val = val
|
|
self.visit(target)
|
|
|
|
def visit_Delete(self, node):
|
|
for n in node.targets:
|
|
self.visit(n)
|
|
|
|
def visit_Pass(self, node):
|
|
pass
|
|
|
|
def visit_Assert(self, node):
|
|
if node.msg is None:
|
|
assert self.visit(node.test)
|
|
else:
|
|
assert self.visit(node.test), self.visit(node.msg)
|
|
|
|
def visit_Expr(self, node):
|
|
# Produced value is ignored
|
|
self.visit(node.value)
|
|
|
|
def enumerate_comps(self, iters):
|
|
"""Enumerate thru all possible values of comprehension clauses,
|
|
including multiple "for" clauses, each optionally associated
|
|
with multiple "if" clauses. Current result of the enumeration
|
|
is stored in the namespace."""
|
|
|
|
def eval_ifs(iter):
|
|
"""Evaluate all "if" clauses."""
|
|
for cond in iter.ifs:
|
|
if not self.visit(cond):
|
|
return False
|
|
return True
|
|
|
|
if not iters:
|
|
yield
|
|
return
|
|
for el in self.visit(iters[0].iter):
|
|
self.store_val = el
|
|
self.visit(iters[0].target)
|
|
for t in self.enumerate_comps(iters[1:]):
|
|
if eval_ifs(iters[0]):
|
|
yield
|
|
|
|
def visit_ListComp(self, node):
|
|
self.push_ns(FunctionNS(node))
|
|
try:
|
|
return [self.visit(node.elt) for _ in self.enumerate_comps(node.generators)]
|
|
finally:
|
|
self.pop_ns()
|
|
|
|
def visit_SetComp(self, node):
|
|
self.push_ns(FunctionNS(node))
|
|
try:
|
|
return {self.visit(node.elt) for _ in self.enumerate_comps(node.generators)}
|
|
finally:
|
|
self.pop_ns()
|
|
|
|
def visit_DictComp(self, node):
|
|
self.push_ns(FunctionNS(node))
|
|
try:
|
|
return {
|
|
self.visit(node.key): self.visit(node.value)
|
|
for _ in self.enumerate_comps(node.generators)
|
|
}
|
|
finally:
|
|
self.pop_ns()
|
|
|
|
def visit_IfExp(self, node):
|
|
if self.visit(node.test):
|
|
return self.visit(node.body)
|
|
else:
|
|
return self.visit(node.orelse)
|
|
|
|
def visit_Call(self, node):
|
|
func = self.visit(node.func)
|
|
|
|
args = []
|
|
for a in node.args:
|
|
if getattr(ast, "Starred", None) and isinstance(a, ast.Starred):
|
|
args.extend(self.visit(a.value))
|
|
else:
|
|
args.append(self.visit(a))
|
|
|
|
kwargs = {}
|
|
for kw in node.keywords:
|
|
val = self.visit(kw.value)
|
|
if kw.arg is None:
|
|
kwargs.update(val)
|
|
else:
|
|
kwargs[kw.arg] = val
|
|
|
|
if func is builtins.super and not args:
|
|
if not self.ns.parent or not isinstance(self.ns.parent, ClassNS):
|
|
raise RuntimeError("super(): no arguments")
|
|
# As we're creating methods dynamically outside of class, super() without argument won't work, as that
|
|
# requires __class__ cell. Creating that would be cumbersome (Pycopy definitely lacks enough introspection
|
|
# for that), so we substitute 2 implied args (which argumentless super() would take from cell and 1st arg to
|
|
# func). In our case, we take them from prepared bookkeeping info.
|
|
args = (self.ns.parent.cls, self.ns["self"])
|
|
|
|
return func(*args, **kwargs)
|
|
|
|
def visit_Compare(self, node):
|
|
cmpop_map = {
|
|
ast.Eq: lambda x, y: x == y,
|
|
ast.NotEq: lambda x, y: x != y,
|
|
ast.Lt: lambda x, y: x < y,
|
|
ast.LtE: lambda x, y: x <= y,
|
|
ast.Gt: lambda x, y: x > y,
|
|
ast.GtE: lambda x, y: x >= y,
|
|
ast.Is: lambda x, y: x is y,
|
|
ast.IsNot: lambda x, y: x is not y,
|
|
ast.In: lambda x, y: x in y,
|
|
ast.NotIn: lambda x, y: x not in y,
|
|
}
|
|
lv = self.visit(node.left)
|
|
for op, r in zip(node.ops, node.comparators):
|
|
rv = self.visit(r)
|
|
if not cmpop_map[type(op)](lv, rv):
|
|
return False
|
|
lv = rv
|
|
return True
|
|
|
|
def visit_BoolOp(self, node):
|
|
if isinstance(node.op, ast.And):
|
|
res = True
|
|
for v in node.values:
|
|
res = res and self.visit(v)
|
|
elif isinstance(node.op, ast.Or):
|
|
res = False
|
|
for v in node.values:
|
|
res = res or self.visit(v)
|
|
else:
|
|
raise NotImplementedError
|
|
return res
|
|
|
|
def visit_BinOp(self, node):
|
|
binop_map = {
|
|
ast.Add: lambda x, y: x + y,
|
|
ast.Sub: lambda x, y: x - y,
|
|
ast.Mult: lambda x, y: x * y,
|
|
ast.Div: lambda x, y: x / y,
|
|
ast.FloorDiv: lambda x, y: x // y,
|
|
ast.Mod: lambda x, y: x % y,
|
|
ast.Pow: lambda x, y: x ** y,
|
|
ast.LShift: lambda x, y: x << y,
|
|
ast.RShift: lambda x, y: x >> y,
|
|
ast.BitAnd: lambda x, y: x & y,
|
|
ast.BitOr: lambda x, y: x | y,
|
|
ast.BitXor: lambda x, y: x ^ y,
|
|
}
|
|
l = self.visit(node.left)
|
|
r = self.visit(node.right)
|
|
return binop_map[type(node.op)](l, r)
|
|
|
|
def visit_UnaryOp(self, node):
|
|
unop_map = {
|
|
ast.UAdd: lambda x: +x,
|
|
ast.USub: lambda x: -x,
|
|
ast.Invert: lambda x: ~x,
|
|
ast.Not: lambda x: not x,
|
|
}
|
|
val = self.visit(node.operand)
|
|
return unop_map[type(node.op)](val)
|
|
|
|
def visit_Subscript(self, node):
|
|
obj = self.visit(node.value)
|
|
idx = self.visit(node.slice)
|
|
if isinstance(node.ctx, ast.Load):
|
|
return obj[idx]
|
|
elif isinstance(node.ctx, ast.Store):
|
|
obj[idx] = self.store_val
|
|
elif isinstance(node.ctx, ast.Del):
|
|
del obj[idx]
|
|
else:
|
|
raise NotImplementedError
|
|
|
|
def visit_Index(self, node):
|
|
return self.visit(node.value)
|
|
|
|
def visit_Slice(self, node):
|
|
# Any of these can be None
|
|
lower = node.lower and self.visit(node.lower)
|
|
upper = node.upper and self.visit(node.upper)
|
|
step = node.step and self.visit(node.step)
|
|
slice = slice_getter[lower:upper:step]
|
|
return slice
|
|
|
|
def visit_Attribute(self, node):
|
|
obj = self.visit(node.value)
|
|
if isinstance(node.ctx, ast.Load):
|
|
return getattr(obj, node.attr)
|
|
elif isinstance(node.ctx, ast.Store):
|
|
setattr(obj, node.attr, self.store_val)
|
|
elif isinstance(node.ctx, ast.Del):
|
|
delattr(obj, node.attr)
|
|
else:
|
|
raise NotImplementedError
|
|
|
|
def visit_Global(self, node):
|
|
for n in node.names:
|
|
if n in self.ns and self.ns[n] is not GLOBAL:
|
|
raise SyntaxError(
|
|
"SyntaxError: name '{}' is assigned to before global declaration".format(
|
|
n
|
|
)
|
|
)
|
|
# Don't store GLOBAL in the top-level namespace
|
|
if self.ns.parent:
|
|
self.ns[n] = GLOBAL
|
|
|
|
def visit_Nonlocal(self, node):
|
|
if isinstance(self.ns, ModuleNS):
|
|
raise SyntaxError("nonlocal declaration not allowed at module level")
|
|
for n in node.names:
|
|
self.ns[n] = NONLOCAL
|
|
|
|
def resolve_nonlocal(self, id, ns):
|
|
while ns:
|
|
res = ns.get(id, NO_VAR)
|
|
if res is GLOBAL:
|
|
return self.module_ns
|
|
if res is not NO_VAR and res is not NONLOCAL:
|
|
if isinstance(ns, ModuleNS):
|
|
break
|
|
return ns
|
|
ns = ns.parent
|
|
raise SyntaxError("no binding for nonlocal '{}' found".format(id))
|
|
|
|
def visit_Name(self, node):
|
|
if isinstance(node.ctx, ast.Load):
|
|
res = NO_VAR
|
|
ns = self.ns
|
|
# We always lookup in the current namespace (on the first iteration), but afterwards we always skip class
|
|
# namespaces. Or put it another way, class code can look up in its own namespace, but that's the only case
|
|
# when the class namespace is consulted.
|
|
skip_classes = False
|
|
while ns:
|
|
if not (skip_classes and isinstance(ns, ClassNS)):
|
|
res = ns.get(node.id, NO_VAR)
|
|
if res is not NO_VAR:
|
|
break
|
|
ns = ns.parent
|
|
skip_classes = True
|
|
|
|
if res is NONLOCAL:
|
|
ns = self.resolve_nonlocal(node.id, ns.parent)
|
|
return ns[node.id]
|
|
|
|
if res is GLOBAL:
|
|
res = self.module_ns.get(node.id, NO_VAR)
|
|
|
|
if res is not NO_VAR:
|
|
return res
|
|
|
|
try:
|
|
return getattr(builtins, node.id)
|
|
except AttributeError:
|
|
raise NameError("name '{}' is not defined".format(node.id))
|
|
|
|
elif isinstance(node.ctx, ast.Store):
|
|
res = self.ns.get(node.id, NO_VAR)
|
|
if res is GLOBAL:
|
|
self.module_ns[node.id] = self.store_val
|
|
|
|
elif res is NONLOCAL:
|
|
ns = self.resolve_nonlocal(node.id, self.ns.parent)
|
|
ns[node.id] = self.store_val
|
|
|
|
else:
|
|
self.ns[node.id] = self.store_val
|
|
|
|
elif isinstance(node.ctx, ast.Del):
|
|
res = self.ns.get(node.id, NO_VAR)
|
|
if res is NO_VAR:
|
|
raise NameError("name '{}' is not defined".format(node.id))
|
|
|
|
elif res is GLOBAL:
|
|
del self.module_ns[node.id]
|
|
|
|
elif res is NONLOCAL:
|
|
ns = self.resolve_nonlocal(node.id, self.ns.parent)
|
|
del ns[node.id]
|
|
|
|
else:
|
|
del self.ns[node.id]
|
|
|
|
else:
|
|
raise NotImplementedError
|
|
|
|
def visit_Dict(self, node):
|
|
return {self.visit(p[0]): self.visit(p[1]) for p in zip(node.keys, node.values)}
|
|
|
|
def visit_Set(self, node):
|
|
return {self.visit(e) for e in node.elts}
|
|
|
|
def visit_List(self, node):
|
|
return [self.visit(e) for e in node.elts]
|
|
|
|
def visit_Tuple(self, node):
|
|
return tuple([self.visit(e) for e in node.elts])
|
|
|
|
def visit_NameConstant(self, node):
|
|
return node.value
|
|
|
|
def visit_Ellipsis(self, node):
|
|
# In Py3k only
|
|
from ast import Ellipsis
|
|
|
|
return Ellipsis
|
|
|
|
def visit_Print(self, node):
|
|
# In Py2k only
|
|
raise NotImplementedError("Absolutely not. Use __future__.")
|
|
|
|
def visit_Str(self, node):
|
|
return node.s
|
|
|
|
def visit_Bytes(self, node):
|
|
return node.s
|
|
|
|
def visit_Num(self, node):
|
|
return node.n
|
|
|
|
|
|
class InterpreterSystem(object):
|
|
"""A bag of shared state."""
|
|
|
|
def __init__(self, path=None):
|
|
self.modules = {}
|
|
self.path = path or sys.path
|
|
|
|
def handle_import(self, name, globals=None, locals=None, fromlist=(), level=0):
|
|
log.debug(" Attempting to import '{}'".format(name))
|
|
if name not in self.modules:
|
|
if name in sys.modules:
|
|
log.debug(" Short-circuited from bootstrap sys.modules")
|
|
self.modules[name] = sys.modules[name]
|
|
|
|
else:
|
|
name = name.replace(".", os.path.sep)
|
|
for e in self.path:
|
|
for ext in [
|
|
# ".flow",
|
|
".py",
|
|
]:
|
|
if os.path.isdir(e):
|
|
f = os.path.join(e, name + ext)
|
|
log.debug(" Checking {}".format(f))
|
|
if os.path.exists(f):
|
|
mod = self.load(f)
|
|
self.modules[name] = mod.ns
|
|
break
|
|
|
|
elif os.path.isfile(e):
|
|
# FIXME (arrdem 2021-05-31)
|
|
raise RuntimeError(
|
|
"Import from .zip/.whl/.egg archives aren't supported yet"
|
|
)
|
|
|
|
else:
|
|
self.modules[name] = __import__(
|
|
name, globals, locals, fromlist, level
|
|
)
|
|
|
|
return self.modules[name]
|
|
|
|
def load(self, fname):
|
|
with open(fname) as f:
|
|
tree = ast.parse(f.read())
|
|
interp = ModuleInterpreter(self, fname, tree)
|
|
interp.visit(tree)
|
|
return interp
|
|
|
|
def execute(self, fname):
|
|
with open(fname) as f:
|
|
tree = ast.parse(f.read())
|
|
interp = ModuleInterpreter(self, fname, tree)
|
|
interp.ns["__name__"] = "__main__"
|
|
self.modules["__main__"] = InterpModule(interp.ns)
|
|
interp.visit(tree)
|
|
return interp
|
|
|
|
|
|
if __name__ == "__main__":
|
|
logging.basicConfig(level=logging.DEBUG)
|
|
InterpreterSystem().execute(sys.argv[1])
|