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|
/* -*- Mode: C; c-basic-offset: 4 -*-
* vim: tabstop=4 shiftwidth=4 expandtab
*
* Copyright (C) 2005-2009 Johan Dahlin <johan@gnome.org>
* Copyright (C) 2011 John (J5) Palimier <johnp@redhat.com>
*
* pygi-invoke.c: main invocation function
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include <pyglib.h>
#include "pygi-invoke.h"
#include "pygi-marshal-cleanup.h"
#include "pygi-error.h"
static gboolean
_check_for_unexpected_kwargs (PyGICallableCache *cache,
GHashTable *arg_name_hash,
PyObject *py_kwargs)
{
PyObject *dict_key, *dict_value;
Py_ssize_t dict_iter_pos = 0;
while (PyDict_Next (py_kwargs, &dict_iter_pos, &dict_key, &dict_value)) {
PyObject *key;
#if PY_VERSION_HEX < 0x03000000
if (PyString_Check (dict_key)) {
Py_INCREF (dict_key);
key = dict_key;
} else
#endif
{
key = PyUnicode_AsUTF8String (dict_key);
if (key == NULL) {
return FALSE;
}
}
/* Use extended lookup because it returns whether or not the key actually
* exists in the hash table. g_hash_table_lookup returns NULL for keys not
* found which maps to index 0 for our hash lookup.
*/
if (!g_hash_table_lookup_extended (arg_name_hash, PyBytes_AsString(key), NULL, NULL)) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%.200s() got an unexpected keyword argument '%.400s'",
full_name,
PyBytes_AsString (key));
Py_DECREF (key);
g_free (full_name);
return FALSE;
}
Py_DECREF (key);
}
return TRUE;
}
/**
* _py_args_combine_and_check_length:
* @cache: PyGICallableCache
* @py_args: the tuple of positional arguments.
* @py_kwargs: the dict of keyword arguments to be merged with py_args.
*
* Returns: New value reference to the combined py_args and py_kwargs.
*/
static PyObject *
_py_args_combine_and_check_length (PyGICallableCache *cache,
PyObject *py_args,
PyObject *py_kwargs)
{
PyObject *combined_py_args = NULL;
Py_ssize_t n_py_args, n_py_kwargs, i;
guint n_expected_args;
GSList *l;
n_py_args = PyTuple_GET_SIZE (py_args);
if (py_kwargs == NULL)
n_py_kwargs = 0;
else
n_py_kwargs = PyDict_Size (py_kwargs);
/* Fast path, we already have the exact number of args and not kwargs. */
n_expected_args = g_slist_length (cache->arg_name_list);
if (n_py_kwargs == 0 && n_py_args == n_expected_args && cache->user_data_varargs_index < 0) {
Py_INCREF (py_args);
return py_args;
}
if (cache->user_data_varargs_index < 0 && n_expected_args < n_py_args) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%.200s() takes exactly %d %sargument%s (%zd given)",
full_name,
n_expected_args,
n_py_kwargs > 0 ? "non-keyword " : "",
n_expected_args == 1 ? "" : "s",
n_py_args);
g_free (full_name);
return NULL;
}
if (cache->user_data_varargs_index >= 0 && n_py_kwargs > 0 && n_expected_args < n_py_args) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%.200s() cannot use variable user data arguments with keyword arguments",
full_name);
g_free (full_name);
return NULL;
}
if (n_py_kwargs > 0 && !_check_for_unexpected_kwargs (cache,
cache->arg_name_hash,
py_kwargs)) {
return NULL;
}
/* will hold arguments from both py_args and py_kwargs
* when they are combined into a single tuple */
combined_py_args = PyTuple_New (n_expected_args);
for (i = 0, l = cache->arg_name_list; i < n_expected_args && l; i++, l = l->next) {
PyObject *py_arg_item = NULL;
PyObject *kw_arg_item = NULL;
const gchar *arg_name = l->data;
int arg_cache_index = -1;
gboolean is_varargs_user_data = FALSE;
if (arg_name != NULL)
arg_cache_index = GPOINTER_TO_INT (g_hash_table_lookup (cache->arg_name_hash, arg_name));
is_varargs_user_data = cache->user_data_varargs_index >= 0 &&
arg_cache_index == cache->user_data_varargs_index;
if (n_py_kwargs > 0 && arg_name != NULL) {
/* NULL means this argument has no keyword name */
/* ex. the first argument to a method or constructor */
kw_arg_item = PyDict_GetItemString (py_kwargs, arg_name);
}
/* use a bounded retrieval of the original input */
if (i < n_py_args)
py_arg_item = PyTuple_GET_ITEM (py_args, i);
if (kw_arg_item == NULL && py_arg_item != NULL) {
if (is_varargs_user_data) {
/* For tail end user_data varargs, pull a slice off and we are done. */
PyObject *user_data = PyTuple_GetSlice (py_args, i, PY_SSIZE_T_MAX);
PyTuple_SET_ITEM (combined_py_args, i, user_data);
return combined_py_args;
} else {
Py_INCREF (py_arg_item);
PyTuple_SET_ITEM (combined_py_args, i, py_arg_item);
}
} else if (kw_arg_item != NULL && py_arg_item == NULL) {
if (is_varargs_user_data) {
/* Special case where user_data is passed as a keyword argument (user_data=foo)
* Wrap the value in a tuple to represent variable args for marshaling later on.
*/
PyObject *user_data = Py_BuildValue("(O)", kw_arg_item, NULL);
PyTuple_SET_ITEM (combined_py_args, i, user_data);
} else {
Py_INCREF (kw_arg_item);
PyTuple_SET_ITEM (combined_py_args, i, kw_arg_item);
}
} else if (kw_arg_item == NULL && py_arg_item == NULL) {
if (is_varargs_user_data) {
/* For varargs user_data, pass an empty tuple when nothing is given. */
PyTuple_SET_ITEM (combined_py_args, i, PyTuple_New (0));
} else if (arg_cache_index >= 0 && _pygi_callable_cache_get_arg (cache, arg_cache_index)->has_default) {
/* If the argument supports a default, use a place holder in the
* argument tuple, this will be checked later during marshaling.
*/
Py_INCREF (_PyGIDefaultArgPlaceholder);
PyTuple_SET_ITEM (combined_py_args, i, _PyGIDefaultArgPlaceholder);
} else {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%.200s() takes exactly %d %sargument%s (%zd given)",
full_name,
n_expected_args,
n_py_kwargs > 0 ? "non-keyword " : "",
n_expected_args == 1 ? "" : "s",
n_py_args);
g_free (full_name);
Py_DECREF (combined_py_args);
return NULL;
}
} else if (kw_arg_item != NULL && py_arg_item != NULL) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%.200s() got multiple values for keyword argument '%.200s'",
full_name,
arg_name);
Py_DECREF (combined_py_args);
g_free (full_name);
return NULL;
}
}
return combined_py_args;
}
static gboolean
_invoke_state_init_from_cache (PyGIInvokeState *state,
PyGIFunctionCache *function_cache,
PyObject *py_args,
PyObject *kwargs)
{
PyGICallableCache *cache = (PyGICallableCache *) function_cache;
state->n_args = _pygi_callable_cache_args_len (cache);
if (cache->throws) {
state->n_args++;
}
/* Copy the function pointer to the state for the normal case. For vfuncs,
* this has already been filled out based on the implementor's GType.
*/
if (state->function_ptr == NULL)
state->function_ptr = function_cache->invoker.native_address;
state->py_in_args = _py_args_combine_and_check_length (cache,
py_args,
kwargs);
if (state->py_in_args == NULL) {
return FALSE;
}
state->n_py_in_args = PyTuple_Size (state->py_in_args);
state->args = g_slice_alloc0 (state->n_args * sizeof (GIArgument *));
if (state->args == NULL && state->n_args != 0) {
PyErr_NoMemory();
return FALSE;
}
state->args_cleanup_data = g_slice_alloc0 (state->n_args * sizeof (gpointer));
if (state->args_cleanup_data == NULL && state->n_args != 0) {
PyErr_NoMemory();
return FALSE;
}
state->arg_values = g_slice_alloc0 (state->n_args * sizeof(GIArgument));
if (state->arg_values == NULL && state->n_args != 0) {
PyErr_NoMemory ();
return FALSE;
}
state->arg_pointers = g_slice_alloc0 (state->n_args * sizeof(GIArgument));
if (state->arg_pointers == NULL && state->n_args != 0) {
PyErr_NoMemory ();
return FALSE;
}
state->error = NULL;
if (cache->throws) {
gssize error_index = state->n_args - 1;
/* The ffi argument for GError needs to be a triple pointer. */
state->arg_pointers[error_index].v_pointer = &state->error;
state->args[error_index] = &(state->arg_pointers[error_index]);
}
return TRUE;
}
static void
_invoke_state_clear (PyGIInvokeState *state, PyGIFunctionCache *function_cache)
{
g_slice_free1 (state->n_args * sizeof(GIArgument *), state->args);
g_slice_free1 (state->n_args * sizeof(gpointer), state->args_cleanup_data);
g_slice_free1 (state->n_args * sizeof(GIArgument), state->arg_values);
g_slice_free1 (state->n_args * sizeof(GIArgument), state->arg_pointers);
Py_XDECREF (state->py_in_args);
}
static gboolean
_caller_alloc (PyGIArgCache *arg_cache, GIArgument *arg)
{
if (arg_cache->type_tag == GI_TYPE_TAG_INTERFACE) {
PyGIInterfaceCache *iface_cache = (PyGIInterfaceCache *)arg_cache;
arg->v_pointer = NULL;
if (g_type_is_a (iface_cache->g_type, G_TYPE_BOXED)) {
arg->v_pointer =
_pygi_boxed_alloc (iface_cache->interface_info, NULL);
} else if (iface_cache->g_type == G_TYPE_VALUE) {
arg->v_pointer = g_slice_new0 (GValue);
} else if (iface_cache->is_foreign) {
PyObject *foreign_struct =
pygi_struct_foreign_convert_from_g_argument (
iface_cache->interface_info,
GI_TRANSFER_NOTHING,
NULL);
pygi_struct_foreign_convert_to_g_argument (foreign_struct,
iface_cache->interface_info,
GI_TRANSFER_EVERYTHING,
arg);
} else {
gssize size = g_struct_info_get_size(
(GIStructInfo *)iface_cache->interface_info);
arg->v_pointer = g_malloc0 (size);
}
} else if (arg_cache->type_tag == GI_TYPE_TAG_ARRAY) {
PyGIArgGArray *array_cache = (PyGIArgGArray *)arg_cache;
arg->v_pointer = g_array_new (TRUE, TRUE, array_cache->item_size);
} else {
return FALSE;
}
if (arg->v_pointer == NULL)
return FALSE;
return TRUE;
}
/* pygi_invoke_marshal_in_args:
*
* Fills out the state struct argument lists. arg_values will always hold
* actual values marshaled either to or from Python and C. arg_pointers will
* hold pointers (via v_pointer) to auxilary value storage. This will normally
* point to values stored in arg_values. In the case of caller allocated
* out args, arg_pointers[x].v_pointer will point to newly allocated memory.
* arg_pointers inserts a level of pointer indirection between arg_values
* and the argument list ffi receives when dealing with non-caller allocated
* out arguments.
*
* For example:
* [[
* void callee (int *i, int j) { *i = 50 - j; }
* void caller () {
* int i = 0;
* callee (&i, 8);
* }
*
* args[0] == &arg_pointers[0];
* arg_pointers[0].v_pointer == &arg_values[0];
* arg_values[0].v_int == 42;
*
* args[1] == &arg_values[1];
* arg_values[1].v_int == 8;
* ]]
*
*/
static gboolean
_invoke_marshal_in_args (PyGIInvokeState *state, PyGIFunctionCache *function_cache)
{
PyGICallableCache *cache = (PyGICallableCache *) function_cache;
gssize i;
if (state->n_py_in_args > cache->n_py_args) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%s() takes exactly %zd argument(s) (%zd given)",
full_name,
cache->n_py_args,
state->n_py_in_args);
g_free (full_name);
return FALSE;
}
for (i = 0; i < _pygi_callable_cache_args_len (cache); i++) {
GIArgument *c_arg = &state->arg_values[i];
PyGIArgCache *arg_cache = g_ptr_array_index (cache->args_cache, i);
PyObject *py_arg = NULL;
switch (arg_cache->direction) {
case PYGI_DIRECTION_FROM_PYTHON:
/* The ffi argument points directly at memory in arg_values. */
state->args[i] = c_arg;
if (arg_cache->meta_type == PYGI_META_ARG_TYPE_CLOSURE) {
state->args[i]->v_pointer = state->user_data;
continue;
} else if (arg_cache->meta_type != PYGI_META_ARG_TYPE_PARENT)
continue;
if (arg_cache->py_arg_index >= state->n_py_in_args) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%s() takes exactly %zd argument(s) (%zd given)",
full_name,
cache->n_py_args,
state->n_py_in_args);
g_free (full_name);
/* clean up all of the args we have already marshalled,
* since invoke will not be called
*/
pygi_marshal_cleanup_args_from_py_parameter_fail (state,
cache,
i);
return FALSE;
}
py_arg =
PyTuple_GET_ITEM (state->py_in_args,
arg_cache->py_arg_index);
break;
case PYGI_DIRECTION_BIDIRECTIONAL:
if (arg_cache->meta_type != PYGI_META_ARG_TYPE_CHILD) {
if (arg_cache->py_arg_index >= state->n_py_in_args) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"%s() takes exactly %zd argument(s) (%zd given)",
full_name,
cache->n_py_args,
state->n_py_in_args);
g_free (full_name);
pygi_marshal_cleanup_args_from_py_parameter_fail (state,
cache,
i);
return FALSE;
}
py_arg =
PyTuple_GET_ITEM (state->py_in_args,
arg_cache->py_arg_index);
}
/* Fall through */
case PYGI_DIRECTION_TO_PYTHON:
/* arg_pointers always stores a pointer to the data to be marshaled "to python"
* even in cases where arg_pointers is not being used as indirection between
* ffi and arg_values. This gives a guarantee that out argument marshaling
* (_invoke_marshal_out_args) can always rely on arg_pointers pointing to
* the correct chunk of memory to marshal.
*/
state->arg_pointers[i].v_pointer = c_arg;
if (arg_cache->is_caller_allocates) {
/* In the case of caller allocated out args, we don't use
* an extra level of indirection and state->args will point
* directly at the data to be marshaled. However, as noted
* above, arg_pointers will also point to this caller allocated
* chunk of memory used by out argument marshaling.
*/
state->args[i] = c_arg;
if (!_caller_alloc (arg_cache, c_arg)) {
char *full_name = pygi_callable_cache_get_full_name (cache);
PyErr_Format (PyExc_TypeError,
"Could not caller allocate argument %zd of callable %s",
i, full_name);
g_free (full_name);
pygi_marshal_cleanup_args_from_py_parameter_fail (state,
cache,
i);
return FALSE;
}
} else {
/* Non-caller allocated out args will use arg_pointers as an
* extra level of indirection */
state->args[i] = &state->arg_pointers[i];
}
break;
}
if (py_arg == _PyGIDefaultArgPlaceholder) {
*c_arg = arg_cache->default_value;
} else if (arg_cache->from_py_marshaller != NULL &&
arg_cache->meta_type != PYGI_META_ARG_TYPE_CHILD) {
gboolean success;
gpointer cleanup_data = NULL;
if (!arg_cache->allow_none && py_arg == Py_None) {
PyErr_Format (PyExc_TypeError,
"Argument %zd does not allow None as a value",
i);
pygi_marshal_cleanup_args_from_py_parameter_fail (state,
cache,
i);
return FALSE;
}
success = arg_cache->from_py_marshaller (state,
cache,
arg_cache,
py_arg,
c_arg,
&cleanup_data);
state->args_cleanup_data[i] = cleanup_data;
if (!success) {
pygi_marshal_cleanup_args_from_py_parameter_fail (state,
cache,
i);
return FALSE;
}
}
}
return TRUE;
}
static PyObject *
_invoke_marshal_out_args (PyGIInvokeState *state, PyGIFunctionCache *function_cache)
{
PyGICallableCache *cache = (PyGICallableCache *) function_cache;
PyObject *py_out = NULL;
PyObject *py_return = NULL;
gssize total_out_args = cache->n_to_py_args;
gboolean has_return = FALSE;
if (cache->return_cache) {
if (!cache->return_cache->is_skipped) {
py_return = cache->return_cache->to_py_marshaller ( state,
cache,
cache->return_cache,
&state->return_arg);
if (py_return == NULL) {
pygi_marshal_cleanup_args_return_fail (state,
cache);
return NULL;
}
if (cache->return_cache->type_tag != GI_TYPE_TAG_VOID) {
total_out_args++;
has_return = TRUE;
}
} else {
if (cache->return_cache->transfer == GI_TRANSFER_EVERYTHING) {
PyGIMarshalCleanupFunc to_py_cleanup =
cache->return_cache->to_py_cleanup;
if (to_py_cleanup != NULL)
to_py_cleanup ( state,
cache->return_cache,
NULL,
&state->return_arg,
FALSE);
}
}
}
total_out_args -= cache->n_to_py_child_args;
if (cache->n_to_py_args - cache->n_to_py_child_args == 0) {
if (cache->return_cache->is_skipped && state->error == NULL) {
/* we skip the return value and have no (out) arguments to return,
* so py_return should be NULL. But we must not return NULL,
* otherwise Python will expect an exception.
*/
g_assert (py_return == NULL);
Py_INCREF(Py_None);
py_return = Py_None;
}
py_out = py_return;
} else if (total_out_args == 1) {
/* if we get here there is one out arg an no return */
PyGIArgCache *arg_cache = (PyGIArgCache *)cache->to_py_args->data;
py_out = arg_cache->to_py_marshaller (state,
cache,
arg_cache,
state->arg_pointers[arg_cache->c_arg_index].v_pointer);
if (py_out == NULL) {
pygi_marshal_cleanup_args_to_py_parameter_fail (state,
cache,
0);
return NULL;
}
} else {
gssize py_arg_index = 0;
GSList *cache_item = cache->to_py_args;
/* return a tuple */
py_out = PyTuple_New (total_out_args);
if (has_return) {
PyTuple_SET_ITEM (py_out, py_arg_index, py_return);
py_arg_index++;
}
for(; py_arg_index < total_out_args; py_arg_index++) {
PyGIArgCache *arg_cache = (PyGIArgCache *)cache_item->data;
PyObject *py_obj = arg_cache->to_py_marshaller (state,
cache,
arg_cache,
state->arg_pointers[arg_cache->c_arg_index].v_pointer);
if (py_obj == NULL) {
if (has_return)
py_arg_index--;
pygi_marshal_cleanup_args_to_py_parameter_fail (state,
cache,
py_arg_index);
Py_DECREF (py_out);
return NULL;
}
PyTuple_SET_ITEM (py_out, py_arg_index, py_obj);
cache_item = cache_item->next;
}
}
return py_out;
}
PyObject *
pygi_invoke_c_callable (PyGIFunctionCache *function_cache,
PyGIInvokeState *state,
PyObject *py_args,
PyObject *py_kwargs)
{
PyGICallableCache *cache = (PyGICallableCache *) function_cache;
GIFFIReturnValue ffi_return_value = {0};
PyObject *ret = NULL;
if (!_invoke_state_init_from_cache (state, function_cache,
py_args, py_kwargs))
goto err;
if (!_invoke_marshal_in_args (state, function_cache))
goto err;
Py_BEGIN_ALLOW_THREADS;
ffi_call (&function_cache->invoker.cif,
state->function_ptr,
(void *) &ffi_return_value,
(void **) state->args);
Py_END_ALLOW_THREADS;
/* If the callable throws, the address of state->error will be bound into
* the state->args as the last value. When the callee sets an error using
* the state->args passed, it will have the side effect of setting
* state->error allowing for easy checking here.
*/
if (state->error != NULL) {
if (pygi_error_check (&state->error)) {
/* even though we errored out, the call itself was successful,
so we assume the call processed all of the parameters */
pygi_marshal_cleanup_args_from_py_marshal_success (state, cache);
goto err;
}
}
if (cache->return_cache) {
gi_type_info_extract_ffi_return_value (cache->return_cache->type_info,
&ffi_return_value,
&state->return_arg);
}
ret = _invoke_marshal_out_args (state, function_cache);
pygi_marshal_cleanup_args_from_py_marshal_success (state, cache);
if (ret != NULL)
pygi_marshal_cleanup_args_to_py_marshal_success (state, cache);
err:
_invoke_state_clear (state, function_cache);
return ret;
}
PyObject *
pygi_callable_info_invoke (GIBaseInfo *info, PyObject *py_args,
PyObject *kwargs, PyGICallableCache *cache,
gpointer user_data)
{
return pygi_function_cache_invoke ((PyGIFunctionCache *) cache,
py_args, kwargs);
}
PyObject *
_wrap_g_callable_info_invoke (PyGIBaseInfo *self, PyObject *py_args,
PyObject *kwargs)
{
if (self->cache == NULL) {
PyGIFunctionCache *function_cache;
GIInfoType type = g_base_info_get_type (self->info);
if (type == GI_INFO_TYPE_FUNCTION) {
GIFunctionInfoFlags flags;
flags = g_function_info_get_flags ( (GIFunctionInfo *)self->info);
if (flags & GI_FUNCTION_IS_CONSTRUCTOR) {
function_cache = pygi_constructor_cache_new (self->info);
} else if (flags & GI_FUNCTION_IS_METHOD) {
function_cache = pygi_method_cache_new (self->info);
} else {
function_cache = pygi_function_cache_new (self->info);
}
} else if (type == GI_INFO_TYPE_VFUNC) {
function_cache = pygi_vfunc_cache_new (self->info);
} else if (type == GI_INFO_TYPE_CALLBACK) {
g_error ("Cannot invoke callback types");
} else {
function_cache = pygi_method_cache_new (self->info);
}
self->cache = (PyGICallableCache *)function_cache;
if (self->cache == NULL)
return NULL;
}
return pygi_callable_info_invoke (self->info, py_args, kwargs, self->cache, NULL);
}
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