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Bump cherrypy from 18.8.0 to 18.9.0 (#2266)

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* Bump cherrypy from 18.8.0 to 18.9.0

Bumps [cherrypy](https://github.com/cherrypy/cherrypy) from 18.8.0 to 18.9.0.
- [Changelog](https://github.com/cherrypy/cherrypy/blob/main/CHANGES.rst)
- [Commits](https://github.com/cherrypy/cherrypy/compare/v18.8.0...v18.9.0)

---
updated-dependencies:
- dependency-name: cherrypy
  dependency-type: direct:production
  update-type: version-update:semver-minor
...

Signed-off-by: dependabot[bot] <support@github.com>

* Update cherrypy==18.9.0

---------

Signed-off-by: dependabot[bot] <support@github.com>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
Co-authored-by: JonnyWong16 <9099342+JonnyWong16@users.noreply.github.com>

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1
lib/win32com/makegw/__init__.py Normal file
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# indicates a python package.

560
lib/win32com/makegw/makegw.py Normal file
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"""Utility functions for writing out gateway C++ files
This module will generate a C++/Python binding for a specific COM
interface.
At this stage, no command line interface exists. You must start Python,
import this module, change to the directory where the generated code should
be written, and run the public function.
This module is capable of generating both 'Interfaces' (ie, Python
client side support for the interface) and 'Gateways' (ie, Python
server side support for the interface). Many COM interfaces are useful
both as Client and Server. Other interfaces, however, really only make
sense to implement one side or the other. For example, it would be pointless
for Python to implement Server side for 'IRunningObjectTable', unless we were
implementing core COM for an operating system in Python (hey - now there's an idea!)
Most COM interface code is totally boiler-plate - it consists of
converting arguments, dispatching the call to Python, and processing
any result values.
This module automates the generation of such code. It has the ability to
parse a .H file generated by the MIDL tool (ie, almost all COM .h files)
and build almost totally complete C++ code.
The module understands some of the well known data types, and how to
convert them. There are only a couple of places where hand-editing is
necessary, as detailed below:
unsupported types -- If a type is not known, the generator will
pretty much ignore it, but write a comment to the generated code. You
may want to add custom support for this type. In some cases, C++ compile errors
will result. These are intentional - generating code to remove these errors would
imply a false sense of security that the generator has done the right thing.
other return policies -- By default, Python never sees the return SCODE from
a COM function. The interface usually returns None if OK, else a COM exception
if "FAILED(scode)" is TRUE. You may need to change this if:
* EXCEPINFO is passed to the COM function. This is not detected and handled
* For some reason Python should always see the result SCODE, even if it
did fail or succeed. For example, some functions return a BOOLEAN result
in the SCODE, meaning Python should always see it.
* FAILED(scode) for the interface still has valid data to return (by default,
the code generated does not process the return values, and raise an exception
to Python/COM
"""
import re
from . import makegwparse
def make_framework_support(
header_file_name, interface_name, bMakeInterface=1, bMakeGateway=1
):
"""Generate C++ code for a Python Interface and Gateway
header_file_name -- The full path to the .H file which defines the interface.
interface_name -- The name of the interface to search for, and to generate.
bMakeInterface = 1 -- Should interface (ie, client) support be generated.
bMakeGatewayInterface = 1 -- Should gateway (ie, server) support be generated.
This method will write a .cpp and .h file into the current directory,
(using the name of the interface to build the file name.
"""
fin = open(header_file_name)
try:
interface = makegwparse.parse_interface_info(interface_name, fin)
finally:
fin.close()
if bMakeInterface and bMakeGateway:
desc = "Interface and Gateway"
elif bMakeInterface and not bMakeGateway:
desc = "Interface"
else:
desc = "Gateway"
if interface.name[:5] == "IEnum": # IEnum - use my really simple template-based one
import win32com.makegw.makegwenum
ifc_cpp_writer = win32com.makegw.makegwenum._write_enumifc_cpp
gw_cpp_writer = win32com.makegw.makegwenum._write_enumgw_cpp
else: # Use my harder working ones.
ifc_cpp_writer = _write_ifc_cpp
gw_cpp_writer = _write_gw_cpp
fout = open("Py%s.cpp" % interface.name, "w")
try:
fout.write(
"""\
// This file implements the %s %s for Python.
// Generated by makegw.py
#include "shell_pch.h"
"""
% (interface.name, desc)
)
# if bMakeGateway:
# fout.write('#include "PythonCOMServer.h"\n')
# if interface.base not in ["IUnknown", "IDispatch"]:
# fout.write('#include "Py%s.h"\n' % interface.base)
fout.write(
'#include "Py%s.h"\n\n// @doc - This file contains autoduck documentation\n'
% interface.name
)
if bMakeInterface:
ifc_cpp_writer(fout, interface)
if bMakeGateway:
gw_cpp_writer(fout, interface)
finally:
fout.close()
fout = open("Py%s.h" % interface.name, "w")
try:
fout.write(
"""\
// This file declares the %s %s for Python.
// Generated by makegw.py
"""
% (interface.name, desc)
)
if bMakeInterface:
_write_ifc_h(fout, interface)
if bMakeGateway:
_write_gw_h(fout, interface)
finally:
fout.close()
###########################################################################
#
# INTERNAL FUNCTIONS
#
#
def _write_ifc_h(f, interface):
f.write(
"""\
// ---------------------------------------------------
//
// Interface Declaration
class Py%s : public Py%s
{
public:
MAKE_PYCOM_CTOR(Py%s);
static %s *GetI(PyObject *self);
static PyComTypeObject type;
// The Python methods
"""
% (interface.name, interface.base, interface.name, interface.name)
)
for method in interface.methods:
f.write(
"\tstatic PyObject *%s(PyObject *self, PyObject *args);\n" % method.name
)
f.write(
"""\
protected:
Py%s(IUnknown *pdisp);
~Py%s();
};
"""
% (interface.name, interface.name)
)
def _write_ifc_cpp(f, interface):
name = interface.name
f.write(
"""\
// ---------------------------------------------------
//
// Interface Implementation
Py%(name)s::Py%(name)s(IUnknown *pdisp):
Py%(base)s(pdisp)
{
ob_type = &type;
}
Py%(name)s::~Py%(name)s()
{
}
/* static */ %(name)s *Py%(name)s::GetI(PyObject *self)
{
return (%(name)s *)Py%(base)s::GetI(self);
}
"""
% (interface.__dict__)
)
ptr = re.sub("[a-z]", "", interface.name)
strdict = {"interfacename": interface.name, "ptr": ptr}
for method in interface.methods:
strdict["method"] = method.name
f.write(
"""\
// @pymethod |Py%(interfacename)s|%(method)s|Description of %(method)s.
PyObject *Py%(interfacename)s::%(method)s(PyObject *self, PyObject *args)
{
%(interfacename)s *p%(ptr)s = GetI(self);
if ( p%(ptr)s == NULL )
return NULL;
"""
% strdict
)
argsParseTuple = (
argsCOM
) = (
formatChars
) = codePost = codePobjects = codeCobjects = cleanup = cleanup_gil = ""
needConversion = 0
# if method.name=="Stat": import win32dbg;win32dbg.brk()
for arg in method.args:
try:
argCvt = makegwparse.make_arg_converter(arg)
if arg.HasAttribute("in"):
val = argCvt.GetFormatChar()
if val:
f.write("\t" + argCvt.GetAutoduckString() + "\n")
formatChars = formatChars + val
argsParseTuple = (
argsParseTuple + ", " + argCvt.GetParseTupleArg()
)
codePobjects = (
codePobjects + argCvt.DeclareParseArgTupleInputConverter()
)
codePost = codePost + argCvt.GetParsePostCode()
needConversion = needConversion or argCvt.NeedUSES_CONVERSION()
cleanup = cleanup + argCvt.GetInterfaceArgCleanup()
cleanup_gil = cleanup_gil + argCvt.GetInterfaceArgCleanupGIL()
comArgName, comArgDeclString = argCvt.GetInterfaceCppObjectInfo()
if comArgDeclString: # If we should declare a variable
codeCobjects = codeCobjects + "\t%s;\n" % (comArgDeclString)
argsCOM = argsCOM + ", " + comArgName
except makegwparse.error_not_supported as why:
f.write(
'// *** The input argument %s of type "%s" was not processed ***\n// Please check the conversion function is appropriate and exists!\n'
% (arg.name, arg.raw_type)
)
f.write(
"\t%s %s;\n\tPyObject *ob%s;\n" % (arg.type, arg.name, arg.name)
)
f.write(
"\t// @pyparm <o Py%s>|%s||Description for %s\n"
% (arg.type, arg.name, arg.name)
)
codePost = (
codePost
+ "\tif (bPythonIsHappy && !PyObject_As%s( ob%s, &%s )) bPythonIsHappy = FALSE;\n"
% (arg.type, arg.name, arg.name)
)
formatChars = formatChars + "O"
argsParseTuple = argsParseTuple + ", &ob%s" % (arg.name)
argsCOM = argsCOM + ", " + arg.name
cleanup = cleanup + "\tPyObject_Free%s(%s);\n" % (arg.type, arg.name)
if needConversion:
f.write("\tUSES_CONVERSION;\n")
f.write(codePobjects)
f.write(codeCobjects)
f.write(
'\tif ( !PyArg_ParseTuple(args, "%s:%s"%s) )\n\t\treturn NULL;\n'
% (formatChars, method.name, argsParseTuple)
)
if codePost:
f.write("\tBOOL bPythonIsHappy = TRUE;\n")
f.write(codePost)
f.write("\tif (!bPythonIsHappy) return NULL;\n")
strdict["argsCOM"] = argsCOM[1:]
strdict["cleanup"] = cleanup
strdict["cleanup_gil"] = cleanup_gil
f.write(
""" HRESULT hr;
PY_INTERFACE_PRECALL;
hr = p%(ptr)s->%(method)s(%(argsCOM)s );
%(cleanup)s
PY_INTERFACE_POSTCALL;
%(cleanup_gil)s
if ( FAILED(hr) )
return PyCom_BuildPyException(hr, p%(ptr)s, IID_%(interfacename)s );
"""
% strdict
)
codePre = codePost = formatChars = codeVarsPass = codeDecl = ""
for arg in method.args:
if not arg.HasAttribute("out"):
continue
try:
argCvt = makegwparse.make_arg_converter(arg)
formatChar = argCvt.GetFormatChar()
if formatChar:
formatChars = formatChars + formatChar
codePre = codePre + argCvt.GetBuildForInterfacePreCode()
codePost = codePost + argCvt.GetBuildForInterfacePostCode()
codeVarsPass = codeVarsPass + ", " + argCvt.GetBuildValueArg()
codeDecl = codeDecl + argCvt.DeclareParseArgTupleInputConverter()
except makegwparse.error_not_supported as why:
f.write(
'// *** The output argument %s of type "%s" was not processed ***\n// %s\n'
% (arg.name, arg.raw_type, why)
)
continue
if formatChars:
f.write(
'%s\n%s\tPyObject *pyretval = Py_BuildValue("%s"%s);\n%s\treturn pyretval;'
% (codeDecl, codePre, formatChars, codeVarsPass, codePost)
)
else:
f.write("\tPy_INCREF(Py_None);\n\treturn Py_None;\n")
f.write("\n}\n\n")
f.write("// @object Py%s|Description of the interface\n" % (name))
f.write("static struct PyMethodDef Py%s_methods[] =\n{\n" % name)
for method in interface.methods:
f.write(
'\t{ "%s", Py%s::%s, 1 }, // @pymeth %s|Description of %s\n'
% (method.name, interface.name, method.name, method.name, method.name)
)
interfacebase = interface.base
f.write(
"""\
{ NULL }
};
PyComTypeObject Py%(name)s::type("Py%(name)s",
&Py%(interfacebase)s::type,
sizeof(Py%(name)s),
Py%(name)s_methods,
GET_PYCOM_CTOR(Py%(name)s));
"""
% locals()
)
def _write_gw_h(f, interface):
if interface.name[0] == "I":
gname = "PyG" + interface.name[1:]
else:
gname = "PyG" + interface.name
name = interface.name
if interface.base == "IUnknown" or interface.base == "IDispatch":
base_name = "PyGatewayBase"
else:
if interface.base[0] == "I":
base_name = "PyG" + interface.base[1:]
else:
base_name = "PyG" + interface.base
f.write(
"""\
// ---------------------------------------------------
//
// Gateway Declaration
class %s : public %s, public %s
{
protected:
%s(PyObject *instance) : %s(instance) { ; }
PYGATEWAY_MAKE_SUPPORT2(%s, %s, IID_%s, %s)
"""
% (gname, base_name, name, gname, base_name, gname, name, name, base_name)
)
if interface.base != "IUnknown":
f.write(
"\t// %s\n\t// *** Manually add %s method decls here\n\n"
% (interface.base, interface.base)
)
else:
f.write("\n\n")
f.write("\t// %s\n" % name)
for method in interface.methods:
f.write("\tSTDMETHOD(%s)(\n" % method.name)
if method.args:
for arg in method.args[:-1]:
f.write("\t\t%s,\n" % (arg.GetRawDeclaration()))
arg = method.args[-1]
f.write("\t\t%s);\n\n" % (arg.GetRawDeclaration()))
else:
f.write("\t\tvoid);\n\n")
f.write("};\n")
f.close()
def _write_gw_cpp(f, interface):
if interface.name[0] == "I":
gname = "PyG" + interface.name[1:]
else:
gname = "PyG" + interface.name
name = interface.name
if interface.base == "IUnknown" or interface.base == "IDispatch":
base_name = "PyGatewayBase"
else:
if interface.base[0] == "I":
base_name = "PyG" + interface.base[1:]
else:
base_name = "PyG" + interface.base
f.write(
"""\
// ---------------------------------------------------
//
// Gateway Implementation
"""
% {"name": name, "gname": gname, "base_name": base_name}
)
for method in interface.methods:
f.write(
"""\
STDMETHODIMP %s::%s(
"""
% (gname, method.name)
)
if method.args:
for arg in method.args[:-1]:
inoutstr = "][".join(arg.inout)
f.write("\t\t/* [%s] */ %s,\n" % (inoutstr, arg.GetRawDeclaration()))
arg = method.args[-1]
inoutstr = "][".join(arg.inout)
f.write("\t\t/* [%s] */ %s)\n" % (inoutstr, arg.GetRawDeclaration()))
else:
f.write("\t\tvoid)\n")
f.write("{\n\tPY_GATEWAY_METHOD;\n")
cout = 0
codePre = codePost = codeVars = ""
argStr = ""
needConversion = 0
formatChars = ""
if method.args:
for arg in method.args:
if arg.HasAttribute("out"):
cout = cout + 1
if arg.indirectionLevel == 2:
f.write("\tif (%s==NULL) return E_POINTER;\n" % arg.name)
if arg.HasAttribute("in"):
try:
argCvt = makegwparse.make_arg_converter(arg)
argCvt.SetGatewayMode()
formatchar = argCvt.GetFormatChar()
needConversion = needConversion or argCvt.NeedUSES_CONVERSION()
if formatchar:
formatChars = formatChars + formatchar
codeVars = (
codeVars + argCvt.DeclareParseArgTupleInputConverter()
)
argStr = argStr + ", " + argCvt.GetBuildValueArg()
codePre = codePre + argCvt.GetBuildForGatewayPreCode()
codePost = codePost + argCvt.GetBuildForGatewayPostCode()
except makegwparse.error_not_supported as why:
f.write(
'// *** The input argument %s of type "%s" was not processed ***\n// - Please ensure this conversion function exists, and is appropriate\n// - %s\n'
% (arg.name, arg.raw_type, why)
)
f.write(
"\tPyObject *ob%s = PyObject_From%s(%s);\n"
% (arg.name, arg.type, arg.name)
)
f.write(
'\tif (ob%s==NULL) return MAKE_PYCOM_GATEWAY_FAILURE_CODE("%s");\n'
% (arg.name, method.name)
)
codePost = codePost + "\tPy_DECREF(ob%s);\n" % arg.name
formatChars = formatChars + "O"
argStr = argStr + ", ob%s" % (arg.name)
if needConversion:
f.write("\tUSES_CONVERSION;\n")
f.write(codeVars)
f.write(codePre)
if cout:
f.write("\tPyObject *result;\n")
resStr = "&result"
else:
resStr = "NULL"
if formatChars:
fullArgStr = '%s, "%s"%s' % (resStr, formatChars, argStr)
else:
fullArgStr = resStr
f.write('\tHRESULT hr=InvokeViaPolicy("%s", %s);\n' % (method.name, fullArgStr))
f.write(codePost)
if cout:
f.write("\tif (FAILED(hr)) return hr;\n")
f.write(
"\t// Process the Python results, and convert back to the real params\n"
)
# process the output arguments.
formatChars = codePobjects = codePost = argsParseTuple = ""
needConversion = 0
for arg in method.args:
if not arg.HasAttribute("out"):
continue
try:
argCvt = makegwparse.make_arg_converter(arg)
argCvt.SetGatewayMode()
val = argCvt.GetFormatChar()
if val:
formatChars = formatChars + val
argsParseTuple = (
argsParseTuple + ", " + argCvt.GetParseTupleArg()
)
codePobjects = (
codePobjects + argCvt.DeclareParseArgTupleInputConverter()
)
codePost = codePost + argCvt.GetParsePostCode()
needConversion = needConversion or argCvt.NeedUSES_CONVERSION()
except makegwparse.error_not_supported as why:
f.write(
'// *** The output argument %s of type "%s" was not processed ***\n// %s\n'
% (arg.name, arg.raw_type, why)
)
if formatChars: # If I have any to actually process.
if len(formatChars) == 1:
parseFn = "PyArg_Parse"
else:
parseFn = "PyArg_ParseTuple"
if codePobjects:
f.write(codePobjects)
f.write(
'\tif (!%s(result, "%s" %s))\n\t\treturn MAKE_PYCOM_GATEWAY_FAILURE_CODE("%s");\n'
% (parseFn, formatChars, argsParseTuple, method.name)
)
if codePost:
f.write("\tBOOL bPythonIsHappy = TRUE;\n")
f.write(codePost)
f.write(
'\tif (!bPythonIsHappy) hr = MAKE_PYCOM_GATEWAY_FAILURE_CODE("%s");\n'
% method.name
)
f.write("\tPy_DECREF(result);\n")
f.write("\treturn hr;\n}\n\n")
def test():
# make_framework_support("d:\\msdev\\include\\objidl.h", "ILockBytes")
make_framework_support("d:\\msdev\\include\\objidl.h", "IStorage")
# make_framework_support("d:\\msdev\\include\\objidl.h", "IEnumSTATSTG")

331
lib/win32com/makegw/makegwenum.py Normal file
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"""Utility file for generating PyIEnum support.
This is almost a 'template' file. It simplay contains almost full
C++ source code for PyIEnum* support, and the Python code simply
substitutes the appropriate interface name.
This module is notmally not used directly - the @makegw@ module
automatically calls this.
"""
#
# INTERNAL FUNCTIONS
#
#
import string
def is_interface_enum(enumtype):
return not (enumtype[0] in string.uppercase and enumtype[2] in string.uppercase)
def _write_enumifc_cpp(f, interface):
enumtype = interface.name[5:]
if is_interface_enum(enumtype):
# Assume an interface.
enum_interface = "I" + enumtype[:-1]
converter = (
"PyObject *ob = PyCom_PyObjectFromIUnknown(rgVar[i], IID_%(enum_interface)s, FALSE);"
% locals()
)
arraydeclare = (
"%(enum_interface)s **rgVar = new %(enum_interface)s *[celt];" % locals()
)
else:
# Enum of a simple structure
converter = (
"PyObject *ob = PyCom_PyObjectFrom%(enumtype)s(&rgVar[i]);" % locals()
)
arraydeclare = "%(enumtype)s *rgVar = new %(enumtype)s[celt];" % locals()
f.write(
"""
// ---------------------------------------------------
//
// Interface Implementation
PyIEnum%(enumtype)s::PyIEnum%(enumtype)s(IUnknown *pdisp):
PyIUnknown(pdisp)
{
ob_type = &type;
}
PyIEnum%(enumtype)s::~PyIEnum%(enumtype)s()
{
}
/* static */ IEnum%(enumtype)s *PyIEnum%(enumtype)s::GetI(PyObject *self)
{
return (IEnum%(enumtype)s *)PyIUnknown::GetI(self);
}
// @pymethod object|PyIEnum%(enumtype)s|Next|Retrieves a specified number of items in the enumeration sequence.
PyObject *PyIEnum%(enumtype)s::Next(PyObject *self, PyObject *args)
{
long celt = 1;
// @pyparm int|num|1|Number of items to retrieve.
if ( !PyArg_ParseTuple(args, "|l:Next", &celt) )
return NULL;
IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self);
if ( pIE%(enumtype)s == NULL )
return NULL;
%(arraydeclare)s
if ( rgVar == NULL ) {
PyErr_SetString(PyExc_MemoryError, "allocating result %(enumtype)ss");
return NULL;
}
int i;
/* for ( i = celt; i--; )
// *** possibly init each structure element???
*/
ULONG celtFetched = 0;
PY_INTERFACE_PRECALL;
HRESULT hr = pIE%(enumtype)s->Next(celt, rgVar, &celtFetched);
PY_INTERFACE_POSTCALL;
if ( HRESULT_CODE(hr) != ERROR_NO_MORE_ITEMS && FAILED(hr) )
{
delete [] rgVar;
return PyCom_BuildPyException(hr,pIE%(enumtype)s, IID_IE%(enumtype)s);
}
PyObject *result = PyTuple_New(celtFetched);
if ( result != NULL )
{
for ( i = celtFetched; i--; )
{
%(converter)s
if ( ob == NULL )
{
Py_DECREF(result);
result = NULL;
break;
}
PyTuple_SET_ITEM(result, i, ob);
}
}
/* for ( i = celtFetched; i--; )
// *** possibly cleanup each structure element???
*/
delete [] rgVar;
return result;
}
// @pymethod |PyIEnum%(enumtype)s|Skip|Skips over the next specified elementes.
PyObject *PyIEnum%(enumtype)s::Skip(PyObject *self, PyObject *args)
{
long celt;
if ( !PyArg_ParseTuple(args, "l:Skip", &celt) )
return NULL;
IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self);
if ( pIE%(enumtype)s == NULL )
return NULL;
PY_INTERFACE_PRECALL;
HRESULT hr = pIE%(enumtype)s->Skip(celt);
PY_INTERFACE_POSTCALL;
if ( FAILED(hr) )
return PyCom_BuildPyException(hr, pIE%(enumtype)s, IID_IE%(enumtype)s);
Py_INCREF(Py_None);
return Py_None;
}
// @pymethod |PyIEnum%(enumtype)s|Reset|Resets the enumeration sequence to the beginning.
PyObject *PyIEnum%(enumtype)s::Reset(PyObject *self, PyObject *args)
{
if ( !PyArg_ParseTuple(args, ":Reset") )
return NULL;
IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self);
if ( pIE%(enumtype)s == NULL )
return NULL;
PY_INTERFACE_PRECALL;
HRESULT hr = pIE%(enumtype)s->Reset();
PY_INTERFACE_POSTCALL;
if ( FAILED(hr) )
return PyCom_BuildPyException(hr, pIE%(enumtype)s, IID_IE%(enumtype)s);
Py_INCREF(Py_None);
return Py_None;
}
// @pymethod <o PyIEnum%(enumtype)s>|PyIEnum%(enumtype)s|Clone|Creates another enumerator that contains the same enumeration state as the current one
PyObject *PyIEnum%(enumtype)s::Clone(PyObject *self, PyObject *args)
{
if ( !PyArg_ParseTuple(args, ":Clone") )
return NULL;
IEnum%(enumtype)s *pIE%(enumtype)s = GetI(self);
if ( pIE%(enumtype)s == NULL )
return NULL;
IEnum%(enumtype)s *pClone;
PY_INTERFACE_PRECALL;
HRESULT hr = pIE%(enumtype)s->Clone(&pClone);
PY_INTERFACE_POSTCALL;
if ( FAILED(hr) )
return PyCom_BuildPyException(hr, pIE%(enumtype)s, IID_IE%(enumtype)s);
return PyCom_PyObjectFromIUnknown(pClone, IID_IEnum%(enumtype)s, FALSE);
}
// @object PyIEnum%(enumtype)s|A Python interface to IEnum%(enumtype)s
static struct PyMethodDef PyIEnum%(enumtype)s_methods[] =
{
{ "Next", PyIEnum%(enumtype)s::Next, 1 }, // @pymeth Next|Retrieves a specified number of items in the enumeration sequence.
{ "Skip", PyIEnum%(enumtype)s::Skip, 1 }, // @pymeth Skip|Skips over the next specified elementes.
{ "Reset", PyIEnum%(enumtype)s::Reset, 1 }, // @pymeth Reset|Resets the enumeration sequence to the beginning.
{ "Clone", PyIEnum%(enumtype)s::Clone, 1 }, // @pymeth Clone|Creates another enumerator that contains the same enumeration state as the current one.
{ NULL }
};
PyComEnumTypeObject PyIEnum%(enumtype)s::type("PyIEnum%(enumtype)s",
&PyIUnknown::type,
sizeof(PyIEnum%(enumtype)s),
PyIEnum%(enumtype)s_methods,
GET_PYCOM_CTOR(PyIEnum%(enumtype)s));
"""
% locals()
)
def _write_enumgw_cpp(f, interface):
enumtype = interface.name[5:]
if is_interface_enum(enumtype):
# Assume an interface.
enum_interface = "I" + enumtype[:-1]
converter = (
"if ( !PyCom_InterfaceFromPyObject(ob, IID_%(enum_interface)s, (void **)&rgVar[i], FALSE) )"
% locals()
)
argdeclare = "%(enum_interface)s __RPC_FAR * __RPC_FAR *rgVar" % locals()
else:
argdeclare = "%(enumtype)s __RPC_FAR *rgVar" % locals()
converter = "if ( !PyCom_PyObjectAs%(enumtype)s(ob, &rgVar[i]) )" % locals()
f.write(
"""
// ---------------------------------------------------
//
// Gateway Implementation
// Std delegation
STDMETHODIMP_(ULONG) PyGEnum%(enumtype)s::AddRef(void) {return PyGatewayBase::AddRef();}
STDMETHODIMP_(ULONG) PyGEnum%(enumtype)s::Release(void) {return PyGatewayBase::Release();}
STDMETHODIMP PyGEnum%(enumtype)s::QueryInterface(REFIID iid, void ** obj) {return PyGatewayBase::QueryInterface(iid, obj);}
STDMETHODIMP PyGEnum%(enumtype)s::GetTypeInfoCount(UINT FAR* pctInfo) {return PyGatewayBase::GetTypeInfoCount(pctInfo);}
STDMETHODIMP PyGEnum%(enumtype)s::GetTypeInfo(UINT itinfo, LCID lcid, ITypeInfo FAR* FAR* pptInfo) {return PyGatewayBase::GetTypeInfo(itinfo, lcid, pptInfo);}
STDMETHODIMP PyGEnum%(enumtype)s::GetIDsOfNames(REFIID refiid, OLECHAR FAR* FAR* rgszNames, UINT cNames, LCID lcid, DISPID FAR* rgdispid) {return PyGatewayBase::GetIDsOfNames( refiid, rgszNames, cNames, lcid, rgdispid);}
STDMETHODIMP PyGEnum%(enumtype)s::Invoke(DISPID dispid, REFIID riid, LCID lcid, WORD wFlags, DISPPARAMS FAR* params, VARIANT FAR* pVarResult, EXCEPINFO FAR* pexcepinfo, UINT FAR* puArgErr) {return PyGatewayBase::Invoke( dispid, riid, lcid, wFlags, params, pVarResult, pexcepinfo, puArgErr);}
STDMETHODIMP PyGEnum%(enumtype)s::Next(
/* [in] */ ULONG celt,
/* [length_is][size_is][out] */ %(argdeclare)s,
/* [out] */ ULONG __RPC_FAR *pCeltFetched)
{
PY_GATEWAY_METHOD;
PyObject *result;
HRESULT hr = InvokeViaPolicy("Next", &result, "i", celt);
if ( FAILED(hr) )
return hr;
if ( !PySequence_Check(result) )
goto error;
int len;
len = PyObject_Length(result);
if ( len == -1 )
goto error;
if ( len > (int)celt)
len = celt;
if ( pCeltFetched )
*pCeltFetched = len;
int i;
for ( i = 0; i < len; ++i )
{
PyObject *ob = PySequence_GetItem(result, i);
if ( ob == NULL )
goto error;
%(converter)s
{
Py_DECREF(result);
return PyCom_SetCOMErrorFromPyException(IID_IEnum%(enumtype)s);
}
}
Py_DECREF(result);
return len < (int)celt ? S_FALSE : S_OK;
error:
PyErr_Clear(); // just in case
Py_DECREF(result);
return PyCom_HandleIEnumNoSequence(IID_IEnum%(enumtype)s);
}
STDMETHODIMP PyGEnum%(enumtype)s::Skip(
/* [in] */ ULONG celt)
{
PY_GATEWAY_METHOD;
return InvokeViaPolicy("Skip", NULL, "i", celt);
}
STDMETHODIMP PyGEnum%(enumtype)s::Reset(void)
{
PY_GATEWAY_METHOD;
return InvokeViaPolicy("Reset");
}
STDMETHODIMP PyGEnum%(enumtype)s::Clone(
/* [out] */ IEnum%(enumtype)s __RPC_FAR *__RPC_FAR *ppEnum)
{
PY_GATEWAY_METHOD;
PyObject * result;
HRESULT hr = InvokeViaPolicy("Clone", &result);
if ( FAILED(hr) )
return hr;
/*
** Make sure we have the right kind of object: we should have some kind
** of IUnknown subclass wrapped into a PyIUnknown instance.
*/
if ( !PyIBase::is_object(result, &PyIUnknown::type) )
{
/* the wrong kind of object was returned to us */
Py_DECREF(result);
return PyCom_SetCOMErrorFromSimple(E_FAIL, IID_IEnum%(enumtype)s);
}
/*
** Get the IUnknown out of the thing. note that the Python ob maintains
** a reference, so we don't have to explicitly AddRef() here.
*/
IUnknown *punk = ((PyIUnknown *)result)->m_obj;
if ( !punk )
{
/* damn. the object was released. */
Py_DECREF(result);
return PyCom_SetCOMErrorFromSimple(E_FAIL, IID_IEnum%(enumtype)s);
}
/*
** Get the interface we want. note it is returned with a refcount.
** This QI is actually going to instantiate a PyGEnum%(enumtype)s.
*/
hr = punk->QueryInterface(IID_IEnum%(enumtype)s, (LPVOID *)ppEnum);
/* done with the result; this DECREF is also for <punk> */
Py_DECREF(result);
return PyCom_CheckIEnumNextResult(hr, IID_IEnum%(enumtype)s);
}
"""
% locals()
)

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lib/win32com/makegw/makegwparse.py Normal file
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