Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/win32com/universal.py

# Code that packs and unpacks the Univgw structures.

# See if we have a special directory for the binaries (for developers)
import types
import pythoncom
from win32com.client import gencache

com_error = pythoncom.com_error
_univgw = pythoncom._univgw

def RegisterInterfaces(typelibGUID, lcid, major, minor, interface_names = None):
    ret = [] # return a list of (dispid, funcname for our policy's benefit
    # First see if we have makepy support.  If so, we can probably satisfy the request without loading the typelib.
    try:
        mod = gencache.GetModuleForTypelib(typelibGUID, lcid, major, minor)
    except ImportError:
        mod = None
    if mod is None:
        import win32com.client.build
        # Load up the typelib and build (but don't cache) it now
        tlb = pythoncom.LoadRegTypeLib(typelibGUID, major, minor, lcid)
        typecomp_lib = tlb.GetTypeComp()
        if interface_names is None:
          interface_names = []
          for i in range(tlb.GetTypeInfoCount()):
            info = tlb.GetTypeInfo(i)
            doc = tlb.GetDocumentation(i)
            attr = info.GetTypeAttr()
            if attr.typekind == pythoncom.TKIND_INTERFACE or \
               (attr.typekind == pythoncom.TKIND_DISPATCH and attr.wTypeFlags & pythoncom.TYPEFLAG_FDUAL):
                interface_names.append(doc[0])
        for name in interface_names:
            type_info, type_comp = typecomp_lib.BindType(name, )
            # Not sure why we don't get an exception here - BindType's C
            # impl looks correct..
            if type_info is None:
                raise ValueError("The interface '%s' can not be located" % (name,))
            # If we got back a Dispatch interface, convert to the real interface.
            attr = type_info.GetTypeAttr()
            if attr.typekind == pythoncom.TKIND_DISPATCH:
                refhtype = type_info.GetRefTypeOfImplType(-1)
                type_info = type_info.GetRefTypeInfo(refhtype)
                attr = type_info.GetTypeAttr()
            item = win32com.client.build.VTableItem(type_info, attr, type_info.GetDocumentation(-1))
            _doCreateVTable(item.clsid, item.python_name, item.bIsDispatch, item.vtableFuncs)
            for info in item.vtableFuncs:
                names, dispid, desc = info
                invkind = desc[4]
                ret.append((dispid, invkind, names[0]))
    else:
        # Cool - can used cached info.
        if not interface_names:
            interface_names = list(mod.VTablesToClassMap.values())
        for name in interface_names:
            try:
                iid = mod.NamesToIIDMap[name]
            except KeyError:
                raise ValueError("Interface '%s' does not exist in this cached typelib" % (name,))
#            print "Processing interface", name
            sub_mod = gencache.GetModuleForCLSID(iid)
            is_dispatch = getattr(sub_mod, name + "_vtables_dispatch_", None)
            method_defs = getattr(sub_mod, name + "_vtables_", None)
            if is_dispatch is None or method_defs is None:
                raise ValueError("Interface '%s' is IDispatch only" % (name,))

            # And create the univgw defn
            _doCreateVTable(iid, name, is_dispatch, method_defs)
            for info in method_defs:
                names, dispid, desc = info
                invkind = desc[4]
                ret.append((dispid, invkind, names[0]))
    return ret

def _doCreateVTable(iid, interface_name, is_dispatch, method_defs):
    defn = Definition(iid, is_dispatch, method_defs)
    vtbl = _univgw.CreateVTable(defn, is_dispatch)
    _univgw.RegisterVTable(vtbl, iid, interface_name)

def _CalcTypeSize(typeTuple):
    t = typeTuple[0]
    if t & (pythoncom.VT_BYREF | pythoncom.VT_ARRAY):
        # Its a pointer.
        cb = _univgw.SizeOfVT(pythoncom.VT_PTR)[1]
    elif t == pythoncom.VT_RECORD:
        # Just because a type library uses records doesn't mean the user
        # is trying to.  We need to better place to warn about this, but it
        # isn't here.
        #try:
        #    import warnings
        #    warnings.warn("warning: records are known to not work for vtable interfaces")
        #except ImportError:
        #    print "warning: records are known to not work for vtable interfaces"
        cb = _univgw.SizeOfVT(pythoncom.VT_PTR)[1]
        #cb = typeInfo.GetTypeAttr().cbSizeInstance
    else:
        cb = _univgw.SizeOfVT(t)[1]
    return cb

class Arg:
    def __init__(self, arg_info, name = None):
        self.name = name
        self.vt, self.inOut, self.default, self.clsid = arg_info
        self.size = _CalcTypeSize(arg_info)
        # Offset from the beginning of the arguments of the stack.
        self.offset = 0

class Method:
    def __init__(self, method_info, isEventSink=0):
        all_names, dispid, desc = method_info
        name = all_names[0]
        names = all_names[1:]
        invkind = desc[4]
        arg_defs = desc[2]
        ret_def = desc[8]
        
        self.dispid = dispid
        self.invkind = invkind
        # We dont use this ATM.
#        self.ret = Arg(ret_def)
        if isEventSink and name[:2] != "On":
            name = "On%s" % name
        self.name = name
        cbArgs = 0
        self.args = []
        for argDesc in arg_defs:
            arg = Arg(argDesc)
            arg.offset = cbArgs
            cbArgs = cbArgs + arg.size
            self.args.append(arg)
        self.cbArgs = cbArgs
        self._gw_in_args = self._GenerateInArgTuple()
        self._gw_out_args = self._GenerateOutArgTuple()

    def _GenerateInArgTuple(self):
        # Given a method, generate the in argument tuple
        l = []
        for arg in self.args:
            if arg.inOut & pythoncom.PARAMFLAG_FIN or \
                 arg.inOut == 0:
                l.append((arg.vt, arg.offset, arg.size))
        return tuple(l)

    def _GenerateOutArgTuple(self):
        # Given a method, generate the out argument tuple
        l = []
        for arg in self.args:
            if arg.inOut & pythoncom.PARAMFLAG_FOUT or \
               arg.inOut & pythoncom.PARAMFLAG_FRETVAL or \
               arg.inOut == 0:
                l.append((arg.vt, arg.offset, arg.size, arg.clsid))
        return tuple(l)

class Definition:
    def __init__(self, iid, is_dispatch, method_defs):
        self._iid = iid
        self._methods = []
        self._is_dispatch = is_dispatch
        for info in method_defs:
            entry = Method(info)
            self._methods.append(entry)
    def iid(self):
        return self._iid
    def vtbl_argsizes(self):
        return [m.cbArgs for m in self._methods]
    def vtbl_argcounts(self):
        return [len(m.args) for m in self._methods]
    def dispatch(self, ob, index, argPtr,
                 ReadFromInTuple=_univgw.ReadFromInTuple,
                 WriteFromOutTuple=_univgw.WriteFromOutTuple):
        "Dispatch a call to an interface method."
        meth = self._methods[index]
        # Infer S_OK if they don't return anything bizarre.
        hr = 0 
        args = ReadFromInTuple(meth._gw_in_args, argPtr)
        # If ob is a dispatcher, ensure a policy
        ob = getattr(ob, "policy", ob)
        # Ensure the correct dispid is setup
        ob._dispid_to_func_[meth.dispid] = meth.name
        retVal = ob._InvokeEx_(meth.dispid, 0, meth.invkind, args, None, None)
        # None is an allowed return value stating that
        # the code doesn't want to touch any output arguments.
        if type(retVal) == tuple: # Like pythoncom, we special case a tuple.
            # However, if they want to return a specific HRESULT,
            # then they have to return all of the out arguments
            # AND the HRESULT.
            if len(retVal) == len(meth._gw_out_args) + 1:
                hr = retVal[0]
                retVal = retVal[1:]
            else:
                raise TypeError("Expected %s return values, got: %s" % (len(meth._gw_out_args) + 1, len(retVal)))
        else:
            retVal = [retVal]
            retVal.extend([None] * (len(meth._gw_out_args)-1))
            retVal = tuple(retVal)
        WriteFromOutTuple(retVal, meth._gw_out_args, argPtr)
        return hr
Uploaded Test files 2020-11-12 16:05:57 +00:00			`# Code that packs and unpacks the Univgw structures.`

			`# See if we have a special directory for the binaries (for developers)`
			`import types`
			`import pythoncom`
			`from win32com.client import gencache`

			`com_error = pythoncom.com_error`
			`_univgw = pythoncom._univgw`

			`def RegisterInterfaces(typelibGUID, lcid, major, minor, interface_names = None):`
			`ret = [] # return a list of (dispid, funcname for our policy's benefit`
			`# First see if we have makepy support. If so, we can probably satisfy the request without loading the typelib.`
			`try:`
			`mod = gencache.GetModuleForTypelib(typelibGUID, lcid, major, minor)`
			`except ImportError:`
			`mod = None`
			`if mod is None:`
			`import win32com.client.build`
			`# Load up the typelib and build (but don't cache) it now`
			`tlb = pythoncom.LoadRegTypeLib(typelibGUID, major, minor, lcid)`
			`typecomp_lib = tlb.GetTypeComp()`
			`if interface_names is None:`
			`interface_names = []`
			`for i in range(tlb.GetTypeInfoCount()):`
			`info = tlb.GetTypeInfo(i)`
			`doc = tlb.GetDocumentation(i)`
			`attr = info.GetTypeAttr()`
			`if attr.typekind == pythoncom.TKIND_INTERFACE or \`
			`(attr.typekind == pythoncom.TKIND_DISPATCH and attr.wTypeFlags & pythoncom.TYPEFLAG_FDUAL):`
			`interface_names.append(doc[0])`
			`for name in interface_names:`
			`type_info, type_comp = typecomp_lib.BindType(name, )`
			`# Not sure why we don't get an exception here - BindType's C`
			`# impl looks correct..`
			`if type_info is None:`
			`raise ValueError("The interface '%s' can not be located" % (name,))`
			`# If we got back a Dispatch interface, convert to the real interface.`
			`attr = type_info.GetTypeAttr()`
			`if attr.typekind == pythoncom.TKIND_DISPATCH:`
			`refhtype = type_info.GetRefTypeOfImplType(-1)`
			`type_info = type_info.GetRefTypeInfo(refhtype)`
			`attr = type_info.GetTypeAttr()`
			`item = win32com.client.build.VTableItem(type_info, attr, type_info.GetDocumentation(-1))`
			`_doCreateVTable(item.clsid, item.python_name, item.bIsDispatch, item.vtableFuncs)`
			`for info in item.vtableFuncs:`
			`names, dispid, desc = info`
			`invkind = desc[4]`
			`ret.append((dispid, invkind, names[0]))`
			`else:`
			`# Cool - can used cached info.`
			`if not interface_names:`
			`interface_names = list(mod.VTablesToClassMap.values())`
			`for name in interface_names:`
			`try:`
			`iid = mod.NamesToIIDMap[name]`
			`except KeyError:`
			`raise ValueError("Interface '%s' does not exist in this cached typelib" % (name,))`
			`# print "Processing interface", name`
			`sub_mod = gencache.GetModuleForCLSID(iid)`
			`is_dispatch = getattr(sub_mod, name + "_vtables_dispatch_", None)`
			`method_defs = getattr(sub_mod, name + "_vtables_", None)`
			`if is_dispatch is None or method_defs is None:`
			`raise ValueError("Interface '%s' is IDispatch only" % (name,))`

			`# And create the univgw defn`
			`_doCreateVTable(iid, name, is_dispatch, method_defs)`
			`for info in method_defs:`
			`names, dispid, desc = info`
			`invkind = desc[4]`
			`ret.append((dispid, invkind, names[0]))`
			`return ret`

			`def _doCreateVTable(iid, interface_name, is_dispatch, method_defs):`
			`defn = Definition(iid, is_dispatch, method_defs)`
			`vtbl = _univgw.CreateVTable(defn, is_dispatch)`
			`_univgw.RegisterVTable(vtbl, iid, interface_name)`

			`def _CalcTypeSize(typeTuple):`
			`t = typeTuple[0]`
			`if t & (pythoncom.VT_BYREF \| pythoncom.VT_ARRAY):`
			`# Its a pointer.`
			`cb = _univgw.SizeOfVT(pythoncom.VT_PTR)[1]`
			`elif t == pythoncom.VT_RECORD:`
			`# Just because a type library uses records doesn't mean the user`
			`# is trying to. We need to better place to warn about this, but it`
			`# isn't here.`
			`#try:`
			`# import warnings`
			`# warnings.warn("warning: records are known to not work for vtable interfaces")`
			`#except ImportError:`
			`# print "warning: records are known to not work for vtable interfaces"`
			`cb = _univgw.SizeOfVT(pythoncom.VT_PTR)[1]`
			`#cb = typeInfo.GetTypeAttr().cbSizeInstance`
			`else:`
			`cb = _univgw.SizeOfVT(t)[1]`
			`return cb`

			`class Arg:`
			`def __init__(self, arg_info, name = None):`
			`self.name = name`
			`self.vt, self.inOut, self.default, self.clsid = arg_info`
			`self.size = _CalcTypeSize(arg_info)`
			`# Offset from the beginning of the arguments of the stack.`
			`self.offset = 0`

			`class Method:`
			`def __init__(self, method_info, isEventSink=0):`
			`all_names, dispid, desc = method_info`
			`name = all_names[0]`
			`names = all_names[1:]`
			`invkind = desc[4]`
			`arg_defs = desc[2]`
			`ret_def = desc[8]`

			`self.dispid = dispid`
			`self.invkind = invkind`
			`# We dont use this ATM.`
			`# self.ret = Arg(ret_def)`
			`if isEventSink and name[:2] != "On":`
			`name = "On%s" % name`
			`self.name = name`
			`cbArgs = 0`
			`self.args = []`
			`for argDesc in arg_defs:`
			`arg = Arg(argDesc)`
			`arg.offset = cbArgs`
			`cbArgs = cbArgs + arg.size`
			`self.args.append(arg)`
			`self.cbArgs = cbArgs`
			`self._gw_in_args = self._GenerateInArgTuple()`
			`self._gw_out_args = self._GenerateOutArgTuple()`

			`def _GenerateInArgTuple(self):`
			`# Given a method, generate the in argument tuple`
			`l = []`
			`for arg in self.args:`
			`if arg.inOut & pythoncom.PARAMFLAG_FIN or \`
			`arg.inOut == 0:`
			`l.append((arg.vt, arg.offset, arg.size))`
			`return tuple(l)`

			`def _GenerateOutArgTuple(self):`
			`# Given a method, generate the out argument tuple`
			`l = []`
			`for arg in self.args:`
			`if arg.inOut & pythoncom.PARAMFLAG_FOUT or \`
			`arg.inOut & pythoncom.PARAMFLAG_FRETVAL or \`
			`arg.inOut == 0:`
			`l.append((arg.vt, arg.offset, arg.size, arg.clsid))`
			`return tuple(l)`

			`class Definition:`
			`def __init__(self, iid, is_dispatch, method_defs):`
			`self._iid = iid`
			`self._methods = []`
			`self._is_dispatch = is_dispatch`
			`for info in method_defs:`
			`entry = Method(info)`
			`self._methods.append(entry)`
			`def iid(self):`
			`return self._iid`
			`def vtbl_argsizes(self):`
			`return [m.cbArgs for m in self._methods]`
			`def vtbl_argcounts(self):`
			`return [len(m.args) for m in self._methods]`
			`def dispatch(self, ob, index, argPtr,`
			`ReadFromInTuple=_univgw.ReadFromInTuple,`
			`WriteFromOutTuple=_univgw.WriteFromOutTuple):`
			`"Dispatch a call to an interface method."`
			`meth = self._methods[index]`
			`# Infer S_OK if they don't return anything bizarre.`
			`hr = 0`
			`args = ReadFromInTuple(meth._gw_in_args, argPtr)`
			`# If ob is a dispatcher, ensure a policy`
			`ob = getattr(ob, "policy", ob)`
			`# Ensure the correct dispid is setup`
			`ob._dispid_to_func_[meth.dispid] = meth.name`
			`retVal = ob._InvokeEx_(meth.dispid, 0, meth.invkind, args, None, None)`
			`# None is an allowed return value stating that`
			`# the code doesn't want to touch any output arguments.`
			`if type(retVal) == tuple: # Like pythoncom, we special case a tuple.`
			`# However, if they want to return a specific HRESULT,`
			`# then they have to return all of the out arguments`
			`# AND the HRESULT.`
			`if len(retVal) == len(meth._gw_out_args) + 1:`
			`hr = retVal[0]`
			`retVal = retVal[1:]`
			`else:`
			`raise TypeError("Expected %s return values, got: %s" % (len(meth._gw_out_args) + 1, len(retVal)))`
			`else:`
			`retVal = [retVal]`
			`retVal.extend([None] * (len(meth._gw_out_args)-1))`
			`retVal = tuple(retVal)`
			`WriteFromOutTuple(retVal, meth._gw_out_args, argPtr)`
			`return hr`