Mercurial > hg
view hgdemandimport/demandimportpy2.py @ 37295:45b39c69fae0
wireproto: separate commands tables for version 1 and 2 commands
We can't easily reuse existing command handlers for version 2
commands because the response types will be different. e.g. many
commands return nodes encoded as hex. Our new wire protocol is
binary safe, so we'll wish to encode nodes as binary.
We /could/ teach each command handler to look at the protocol
handler and change behavior based on the version in use. However,
this would make logic a bit unwieldy over time and would make
it harder to design a unified protocol handler interface. I think
it's better to create a clean break between version 1 and version 2
of commands on the server.
What I imagine happening is we will have separate @wireprotocommand
functions for each protocol generation. Those functions will parse the
request, dispatch to a common function to process it, then generate
the response in its own, transport-specific manner.
This commit establishes a separate table for tracking version 1
commands from version 2 commands. The HTTP server pieces have been
updated to use this new table.
Most commands are marked as both version 1 and version 2, so there is
little practical impact to this change.
A side-effect of this change is we now rely on transport registration
in wireprototypes.TRANSPORTS and certain properties of the protocol
interface. So a test had to be updated to conform.
Differential Revision: https://phab.mercurial-scm.org/D2982
| author | Gregory Szorc <gregory.szorc@gmail.com> |
|---|---|
| date | Wed, 28 Mar 2018 10:40:41 -0700 |
| parents | 8fb5212652ec |
| children | 670eb4fa1b86 |
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# demandimport.py - global demand-loading of modules for Mercurial # # Copyright 2006, 2007 Matt Mackall <mpm@selenic.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. ''' demandimport - automatic demandloading of modules To enable this module, do: import demandimport; demandimport.enable() Imports of the following forms will be demand-loaded: import a, b.c import a.b as c from a import b,c # a will be loaded immediately These imports will not be delayed: from a import * b = __import__(a) ''' from __future__ import absolute_import import __builtin__ as builtins import contextlib import sys contextmanager = contextlib.contextmanager _origimport = __import__ nothing = object() def _hgextimport(importfunc, name, globals, *args, **kwargs): try: return importfunc(name, globals, *args, **kwargs) except ImportError: if not globals: raise # extensions are loaded with "hgext_" prefix hgextname = 'hgext_%s' % name nameroot = hgextname.split('.', 1)[0] contextroot = globals.get('__name__', '').split('.', 1)[0] if nameroot != contextroot: raise # retry to import with "hgext_" prefix return importfunc(hgextname, globals, *args, **kwargs) class _demandmod(object): """module demand-loader and proxy Specify 1 as 'level' argument at construction, to import module relatively. """ def __init__(self, name, globals, locals, level): if '.' in name: head, rest = name.split('.', 1) after = [rest] else: head = name after = [] object.__setattr__(self, r"_data", (head, globals, locals, after, level, set())) object.__setattr__(self, r"_module", None) def _extend(self, name): """add to the list of submodules to load""" self._data[3].append(name) def _addref(self, name): """Record that the named module ``name`` imports this module. References to this proxy class having the name of this module will be replaced at module load time. We assume the symbol inside the importing module is identical to the "head" name of this module. We don't actually know if "as X" syntax is being used to change the symbol name because this information isn't exposed to __import__. """ self._data[5].add(name) def _load(self): if not self._module: head, globals, locals, after, level, modrefs = self._data mod = _hgextimport(_origimport, head, globals, locals, None, level) if mod is self: # In this case, _hgextimport() above should imply # _demandimport(). Otherwise, _hgextimport() never # returns _demandmod. This isn't intentional behavior, # in fact. (see also issue5304 for detail) # # If self._module is already bound at this point, self # should be already _load()-ed while _hgextimport(). # Otherwise, there is no way to import actual module # as expected, because (re-)invoking _hgextimport() # should cause same result. # This is reason why _load() returns without any more # setup but assumes self to be already bound. mod = self._module assert mod and mod is not self, "%s, %s" % (self, mod) return # load submodules def subload(mod, p): h, t = p, None if '.' in p: h, t = p.split('.', 1) if getattr(mod, h, nothing) is nothing: setattr(mod, h, _demandmod(p, mod.__dict__, mod.__dict__, level=1)) elif t: subload(getattr(mod, h), t) for x in after: subload(mod, x) # Replace references to this proxy instance with the actual module. if locals: if locals.get(head) is self: locals[head] = mod elif locals.get(head + r'mod') is self: locals[head + r'mod'] = mod for modname in modrefs: modref = sys.modules.get(modname, None) if modref and getattr(modref, head, None) is self: setattr(modref, head, mod) object.__setattr__(self, r"_module", mod) def __repr__(self): if self._module: return "<proxied module '%s'>" % self._data[0] return "<unloaded module '%s'>" % self._data[0] def __call__(self, *args, **kwargs): raise TypeError("%s object is not callable" % repr(self)) def __getattr__(self, attr): self._load() return getattr(self._module, attr) def __setattr__(self, attr, val): self._load() setattr(self._module, attr, val) @property def __dict__(self): self._load() return self._module.__dict__ @property def __doc__(self): self._load() return self._module.__doc__ _pypy = '__pypy__' in sys.builtin_module_names def _demandimport(name, globals=None, locals=None, fromlist=None, level=-1): if locals is None or name in ignore or fromlist == ('*',): # these cases we can't really delay return _hgextimport(_origimport, name, globals, locals, fromlist, level) elif not fromlist: # import a [as b] if '.' in name: # a.b base, rest = name.split('.', 1) # email.__init__ loading email.mime if globals and globals.get('__name__', None) == base: return _origimport(name, globals, locals, fromlist, level) # if a is already demand-loaded, add b to its submodule list if base in locals: if isinstance(locals[base], _demandmod): locals[base]._extend(rest) return locals[base] return _demandmod(name, globals, locals, level) else: # There is a fromlist. # from a import b,c,d # from . import b,c,d # from .a import b,c,d # level == -1: relative and absolute attempted (Python 2 only). # level >= 0: absolute only (Python 2 w/ absolute_import and Python 3). # The modern Mercurial convention is to use absolute_import everywhere, # so modern Mercurial code will have level >= 0. # The name of the module the import statement is located in. globalname = globals.get('__name__') def processfromitem(mod, attr): """Process an imported symbol in the import statement. If the symbol doesn't exist in the parent module, and if the parent module is a package, it must be a module. We set missing modules up as _demandmod instances. """ symbol = getattr(mod, attr, nothing) nonpkg = getattr(mod, '__path__', nothing) is nothing if symbol is nothing: if nonpkg: # do not try relative import, which would raise ValueError, # and leave unknown attribute as the default __import__() # would do. the missing attribute will be detected later # while processing the import statement. return mn = '%s.%s' % (mod.__name__, attr) if mn in ignore: importfunc = _origimport else: importfunc = _demandmod symbol = importfunc(attr, mod.__dict__, locals, level=1) setattr(mod, attr, symbol) # Record the importing module references this symbol so we can # replace the symbol with the actual module instance at load # time. if globalname and isinstance(symbol, _demandmod): symbol._addref(globalname) def chainmodules(rootmod, modname): # recurse down the module chain, and return the leaf module mod = rootmod for comp in modname.split('.')[1:]: obj = getattr(mod, comp, nothing) if obj is nothing: obj = _demandmod(comp, mod.__dict__, mod.__dict__, level=1) setattr(mod, comp, obj) elif mod.__name__ + '.' + comp in sys.modules: # prefer loaded module over attribute (issue5617) obj = sys.modules[mod.__name__ + '.' + comp] mod = obj return mod if level >= 0: if name: # "from a import b" or "from .a import b" style rootmod = _hgextimport(_origimport, name, globals, locals, level=level) mod = chainmodules(rootmod, name) elif _pypy: # PyPy's __import__ throws an exception if invoked # with an empty name and no fromlist. Recreate the # desired behaviour by hand. mn = globalname mod = sys.modules[mn] if getattr(mod, '__path__', nothing) is nothing: mn = mn.rsplit('.', 1)[0] mod = sys.modules[mn] if level > 1: mn = mn.rsplit('.', level - 1)[0] mod = sys.modules[mn] else: mod = _hgextimport(_origimport, name, globals, locals, level=level) for x in fromlist: processfromitem(mod, x) return mod # But, we still need to support lazy loading of standard library and 3rd # party modules. So handle level == -1. mod = _hgextimport(_origimport, name, globals, locals) mod = chainmodules(mod, name) for x in fromlist: processfromitem(mod, x) return mod ignore = [] def init(ignorelist): global ignore ignore = ignorelist def isenabled(): return builtins.__import__ == _demandimport def enable(): "enable global demand-loading of modules" builtins.__import__ = _demandimport def disable(): "disable global demand-loading of modules" builtins.__import__ = _origimport @contextmanager def deactivated(): "context manager for disabling demandimport in 'with' blocks" demandenabled = isenabled() if demandenabled: disable() try: yield finally: if demandenabled: enable()