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glib/ginvoke.c
Johan Dahlin 33455bc3ef Rename metadata to typelib in variable names, comments and apis. 
2008-08-09  Johan Dahlin  <johan@gnome.org>

    * *.[ch]:
    Rename metadata to typelib in variable names,
    comments and apis.


svn path=/trunk/; revision=339
2008-08-09 12:55:32 +00:00

309 lines
8.0 KiB
C
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/* GObject introspection: Invoke functionality
*
* Copyright (C) 2005 Matthias Clasen
*
* 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 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, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <stdlib.h>
#include <glib.h>
#include <glib-object.h>
#include "girepository.h"
#include "gtypelib.h"
#include "config.h"
GQuark
g_invoke_error_quark (void)
{
static GQuark quark = 0;
if (quark == 0)
quark = g_quark_from_static_string ("g-invoke-error-quark");
return quark;
}
#include "ffi.h"
static ffi_type *
get_ffi_type (GITypeInfo *info)
{
ffi_type *rettype;
if (g_type_info_is_pointer (info))
rettype = &ffi_type_pointer;
else
switch (g_type_info_get_tag (info))
{
case GI_TYPE_TAG_VOID:
rettype = &ffi_type_void;
break;
case GI_TYPE_TAG_BOOLEAN:
rettype = &ffi_type_uint;
break;
case GI_TYPE_TAG_INT8:
rettype = &ffi_type_sint8;
break;
case GI_TYPE_TAG_UINT8:
rettype = &ffi_type_uint8;
break;
case GI_TYPE_TAG_INT16:
rettype = &ffi_type_sint16;
break;
case GI_TYPE_TAG_UINT16:
rettype = &ffi_type_uint16;
break;
case GI_TYPE_TAG_INT32:
rettype = &ffi_type_sint32;
break;
case GI_TYPE_TAG_UINT32:
rettype = &ffi_type_uint32;
break;
case GI_TYPE_TAG_INT64:
rettype = &ffi_type_sint64;
break;
case GI_TYPE_TAG_UINT64:
rettype = &ffi_type_uint64;
break;
case GI_TYPE_TAG_INT:
rettype = &ffi_type_sint;
break;
case GI_TYPE_TAG_UINT:
rettype = &ffi_type_uint;
break;
case GI_TYPE_TAG_SSIZE: /* FIXME */
case GI_TYPE_TAG_LONG:
rettype = &ffi_type_slong;
break;
case GI_TYPE_TAG_SIZE: /* FIXME */
case GI_TYPE_TAG_ULONG:
rettype = &ffi_type_ulong;
break;
case GI_TYPE_TAG_FLOAT:
rettype = &ffi_type_float;
break;
case GI_TYPE_TAG_DOUBLE:
rettype = &ffi_type_double;
break;
case GI_TYPE_TAG_UTF8:
case GI_TYPE_TAG_FILENAME:
case GI_TYPE_TAG_ARRAY:
case GI_TYPE_TAG_INTERFACE:
case GI_TYPE_TAG_GLIST:
case GI_TYPE_TAG_GSLIST:
case GI_TYPE_TAG_GHASH:
case GI_TYPE_TAG_ERROR:
rettype = &ffi_type_pointer;
break;
default:
g_assert_not_reached ();
}
return rettype;
}
/**
* g_function_info_invoke:
* @info: a #GIFunctionInfo describing the function to invoke
* @in_args: an array of #GArgument<!-- -->s, one for each in
* parameter of @info. If there are no in parameter, @in_args
* can be %NULL
* @n_in_args: the length of the @in_args array
* @out_args: an array of #GArgument<!-- -->s, one for each out
* parameter of @info. If there are no out parameters, @out_args
* may be %NULL
* @n_out_args: the length of the @out_args array
* @return_value: return location for the return value of the
* function. If the function returns void, @return_value may be
* %NULL
* @error: return location for detailed error information, or %NULL
*
* Invokes the function described in @info with the given
* arguments. Note that inout parameters must appear in both
* argument lists. This function uses dlsym() to obtain a pointer
* to the function, so the library or shared object containing the
* described function must either be linked to the caller, or must
* have been dlopen()<!-- -->ed before calling this function.
*
* Returns: %TRUE if the function has been invoked, %FALSE if an
* error occurred.
*/
gboolean
g_function_info_invoke (GIFunctionInfo *info,
const GArgument *in_args,
int n_in_args,
const GArgument *out_args,
int n_out_args,
GArgument *return_value,
GError **error)
{
ffi_cif cif;
ffi_type *rtype;
ffi_type **atypes;
const gchar *symbol;
gpointer func;
GITypeInfo *tinfo;
GIArgInfo *ainfo;
gint n_args, in_pos, out_pos, i;
gpointer *args;
gboolean success = FALSE;
symbol = g_function_info_get_symbol (info);
if (!g_module_symbol (g_base_info_get_typelib((GIBaseInfo *) info)->module,
symbol, &func))
{
GModule *entire_app;
/*
* We want to be able to add symbols to an app or an auxiliary
* library to fill in gaps in an introspected library. However,
* normally we would only look for symbols in the main library
* (typelib->module).
*
* A more elaborate solution is probably possible, but as a
* simple approach for now, if we fail to find a symbol we look
* for it in the global module.
*
* This would not be very efficient if it happened often, since
* we always do the failed lookup above first, but very few
* symbols should be outside of typelib->module so it doesn't
* matter.
*/
entire_app = g_module_open (NULL, 0);
if (!g_module_symbol (entire_app, symbol, &func))
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_SYMBOL_NOT_FOUND,
"Could not locate %s: %s", symbol, g_module_error ());
g_module_close (entire_app);
return FALSE;
}
g_module_close (entire_app);
}
tinfo = g_callable_info_get_return_type ((GICallableInfo *)info);
rtype = get_ffi_type (tinfo);
g_base_info_unref ((GIBaseInfo *)tinfo);
n_args = g_callable_info_get_n_args ((GICallableInfo *)info);
atypes = g_new (ffi_type*, n_args);
args = g_new (gpointer, n_args);
in_pos = 0;
out_pos = 0;
for (i = 0; i < n_args; i++)
{
ainfo = g_callable_info_get_arg ((GICallableInfo *)info, i);
switch (g_arg_info_get_direction (ainfo))
{
case GI_DIRECTION_IN:
tinfo = g_arg_info_get_type (ainfo);
atypes[i] = get_ffi_type (tinfo);
g_base_info_unref ((GIBaseInfo *)tinfo);
if (in_pos >= n_in_args)
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_ARGUMENT_MISMATCH,
"Too few \"in\" arguments");
goto out;
}
args[i] = (gpointer)&in_args[in_pos];
in_pos++;
break;
case GI_DIRECTION_OUT:
atypes[i] = &ffi_type_pointer;
if (out_pos >= n_out_args)
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_ARGUMENT_MISMATCH,
"Too few \"out\" arguments");
goto out;
}
args[i] = (gpointer)&out_args[out_pos];
out_pos++;
break;
case GI_DIRECTION_INOUT:
atypes[i] = &ffi_type_pointer;
if (in_pos >= n_in_args)
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_ARGUMENT_MISMATCH,
"Too few \"in\" arguments");
goto out;
}
if (out_pos >= n_out_args)
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_ARGUMENT_MISMATCH,
"Too few \"in\" arguments");
goto out;
}
args[i] = (gpointer)&in_args[in_pos];
in_pos++;
out_pos++;
break;
default:
g_assert_not_reached ();
}
g_base_info_unref ((GIBaseInfo *)ainfo);
}
if (in_pos < n_in_args)
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_ARGUMENT_MISMATCH,
"Too many \"in\" arguments");
goto out;
}
if (out_pos < n_out_args)
{
g_set_error (error,
G_INVOKE_ERROR,
G_INVOKE_ERROR_ARGUMENT_MISMATCH,
"Too many \"out\" arguments");
goto out;
}
if (ffi_prep_cif (&cif, FFI_DEFAULT_ABI, n_args, rtype, atypes) != FFI_OK)
goto out;
ffi_call (&cif, func, return_value, args);
success = TRUE;
out:
g_free (atypes);
g_free (args);
return success;
}
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