WARNING - OLD ARCHIVES

This is an archived copy of the Xen.org mailing list, which we have preserved to ensure that existing links to archives are not broken. The live archive, which contains the latest emails, can be found at http://lists.xen.org/
   
 
 
Xen 		  
Home Products Support Community News
 
   
 

xen-devel

[Top] [All Lists]
<prev [Date] next>
[Advanced]
 <prev [Thread] next>

[Xen-devel] [PATCH 07 of 10] pyxl: Recursively scan type-tree to produce

from [Gianni Tedesco] [Permanent Link][Original]
To: <xen-devel@xxxxxxxxxxxxxxxxxxx>
Subject: [Xen-devel] [PATCH 07 of 10] pyxl: Recursively scan type-tree to produce complete binding boilerplate
From: Gianni Tedesco <gianni.tedesco@xxxxxxxxxx>
Date: Tue, 11 Jan 2011 16:03:20 +0000
Cc: Ian Campbell <Ian.Campbell@xxxxxxxxxxxxx>
Delivery-date: Tue, 11 Jan 2011 08:17:38 -0800
Envelope-to: www-data@xxxxxxxxxxxxxxxxxxx
In-reply-to: <patchbomb.1294761793@xxxxxxxxxxxxxxxxxxxxxxx>
List-help: <mailto:xen-devel-request@lists.xensource.com?subject=help>
List-id: Xen developer discussion <xen-devel.lists.xensource.com>
List-post: <mailto:xen-devel@lists.xensource.com>
List-subscribe: <http://lists.xensource.com/mailman/listinfo/xen-devel>, <mailto:xen-devel-request@lists.xensource.com?subject=subscribe>
List-unsubscribe: <http://lists.xensource.com/mailman/listinfo/xen-devel>, <mailto:xen-devel-request@lists.xensource.com?subject=unsubscribe>
References: <patchbomb.1294761793@xxxxxxxxxxxxxxxxxxxxxxx>
Sender: xen-devel-bounces@xxxxxxxxxxxxxxxxxxx
User-agent: Mercurial-patchbomb/1.6.3 
 tools/libxl/libxl.idl   |    2 +-
 tools/python/genwrap.py |  184 ++++++++++++++++++++++++++++++++++++++++-------
 2 files changed, 155 insertions(+), 31 deletions(-)


# HG changeset patch
# User Gianni Tedesco <gianni.tedesco@xxxxxxxxxx>
# Date 1294761668 0
# Node ID 735df86eab9a758431f9a3927db64e02baae82d6
# Parent  f0cb6ba7a4cf52b63cca5595a68568657976d57d
pyxl: Recursively scan type-tree to produce complete binding boilerplate

Currently the python wrapper generator ignores non-toplevel types in the IDL.
The KeyedUnion implementation is trivial but for structures embedded in
structures the code becomes more complex. The problem is that when assigning to
a structure (a.b = x) either we:
 - copy the c structure from x in to a.b which is unexpected for python
   programmers since everything is by reference not by value.
 - keep a reference to x which 'shadows' a.b and do the copy just before we
   pass the wrapped C structure across the libxl C API boundary.

The latter approach is chosen. The tree of shadow references is maintained in
the auto-generated code and Py_foo_Unshadow() functions are also generated and
exposed for the hand-written part of the xl wrapper to use.

Finally, for anonymous types, a name mangling system is used to translate names
like x.u.hvm.acpi. To support such constructs in python we would need to export
python types for x.u.hvm such as 'xl.anonymous_hvm_0'. Instead of dealing with
this we simply flatten the type tree so that such a field is named
x.u_hvm_apic.

Signed-off-by: Gianni Tedesco <gianni.tedesco@xxxxxxxxxx>

diff -r f0cb6ba7a4cf -r 735df86eab9a tools/libxl/libxl.idl
--- a/tools/libxl/libxl.idl     Tue Jan 11 16:01:07 2011 +0000
+++ b/tools/libxl/libxl.idl     Tue Jan 11 16:01:08 2011 +0000
@@ -115,7 +115,7 @@ libxl_domain_build_info = Struct("domain
                                         ("bootloader_args", string),
                                         ("cmdline", string),
                                         ("ramdisk", libxl_file_reference),
-                                        ("features", string, True),
+                                        ("features", string),
                                         ])),
                  ])),
     ],
diff -r f0cb6ba7a4cf -r 735df86eab9a tools/python/genwrap.py
--- a/tools/python/genwrap.py   Tue Jan 11 16:01:07 2011 +0000
+++ b/tools/python/genwrap.py   Tue Jan 11 16:01:08 2011 +0000
@@ -4,7 +4,7 @@ import sys,os
 
 import libxltypes
 
-(TYPE_BOOL, TYPE_INT, TYPE_UINT, TYPE_STRING) = range(4)
+(TYPE_BOOL, TYPE_INT, TYPE_UINT, TYPE_STRING) = xrange(4)
 
 def py_type(ty):
     if ty == libxltypes.bool or isinstance(ty, libxltypes.BitField) and 
ty.width == 1:
@@ -18,11 +18,16 @@ def py_type(ty):
         return TYPE_STRING
     return None
 
+def shadow_fields(ty):
+    return filter(lambda x:x.shadow_type is True, ty.fields)
+
 def py_wrapstruct(ty):
     l = []
     l.append('typedef struct {')
     l.append('    PyObject_HEAD;')
     l.append('    %s obj;'%ty.typename);
+    for f in shadow_fields(ty):
+        l.append('    Py_%s *%s_ref;'%(f.type.rawname, f.python_name))
     l.append('}Py_%s;'%ty.rawname)
     l.append('')
     return "\n".join(l) + "\n"
@@ -36,33 +41,59 @@ def py_decls(ty):
     l = []
     l.append('_hidden Py_%s *Py%s_New(void);\n'%(ty.rawname, ty.rawname))
     l.append('_hidden int Py%s_Check(PyObject *self);\n'%ty.rawname)
+    if len(shadow_fields(ty)) > 0:
+        l.append('_hidden void Py%s_Unshadow(Py_%s *self);\n'%(ty.rawname, 
ty.rawname))
     for f in ty.fields:
         if py_type(f.type) is not None:
             continue
-        l.append('_hidden PyObject *attrib__%s_get(%s *%s);'%(\
-                 fsanitize(f.type.typename), f.type.typename, f.name))
-        l.append('_hidden int attrib__%s_set(PyObject *v, %s *%s);'%(\
-                 fsanitize(f.type.typename), f.type.typename, f.name))
+        l.append('_hidden PyObject *attrib__%s_get(%s *val);'%(\
+                 fsanitize(f.type.typename), f.type.typename))
+        l.append('_hidden int attrib__%s_set(PyObject *v, %s *val);'%(\
+                 fsanitize(f.type.typename), f.type.typename))
     return '\n'.join(l) + "\n"
 
+def union_check(f, ret, prefix = 'self->obj.'):
+    u_check = []
+    if len(f.condlist):
+        cond = '||'.join(map(lambda (expr,name):('!(' + expr + 
')')%('%s%s'%(prefix,name)), f.condlist))
+        u_check.append('    if ( %s ) {'%cond)
+        u_check.append('        PyErr_SetString(PyExc_AttributeError, "Union 
key not selected");')
+        u_check.append('        return %s;'%ret)
+        u_check.append('    }')
+    return u_check
+
 def py_attrib_get(ty, f):
     t = py_type(f.type)
     l = []
-    l.append('static PyObject *py_%s_%s_get(Py_%s *self, void 
*priv)'%(ty.rawname, f.name, ty.rawname))
+    l.append('static PyObject *py_%s_%s_get(Py_%s *self, void 
*priv)'%(ty.rawname, f.python_name, ty.rawname))
     l.append('{')
+
+    u_check = union_check(f, 'NULL')
+
     if t == TYPE_BOOL:
         l.append('    PyObject *ret;')
+        l.extend(u_check)
         l.append('    ret = (self->obj.%s) ? Py_True : Py_False;'%f.name)
         l.append('    Py_INCREF(ret);')
         l.append('    return ret;')
     elif t == TYPE_INT:
+        l.extend(u_check)
         l.append('    return genwrap__ll_get(self->obj.%s);'%f.name)
     elif t == TYPE_UINT:
+        l.extend(u_check)
         l.append('    return genwrap__ull_get(self->obj.%s);'%f.name)
     elif t == TYPE_STRING:
+        l.extend(u_check)
         l.append('    return genwrap__string_get(&self->obj.%s);'%f.name)
+    elif f.shadow_type is True:
+        l.append('    PyObject *ret;')
+        l.extend(u_check)
+        l.append('    ret = (self->%s_ref == NULL) ? Py_None : (PyObject 
*)self->%s_ref;'%(f.python_name, f.python_name))
+        l.append('    Py_INCREF(ret);')
+        l.append('    return ret;')
     else:
         tn = f.type.typename
+        l.extend(u_check)
         l.append('    return attrib__%s_get((%s 
*)&self->obj.%s);'%(fsanitize(tn), tn, f.name))
     l.append('}')
     return '\n'.join(l) + "\n\n"
@@ -70,14 +101,17 @@ def py_attrib_get(ty, f):
 def py_attrib_set(ty, f):
     t = py_type(f.type)
     l = []
-    l.append('static int py_%s_%s_set(Py_%s *self, PyObject *v, void 
*priv)'%(ty.rawname, f.name, ty.rawname))
+    l.append('static int py_%s_%s_set(Py_%s *self, PyObject *v, void 
*priv)'%(ty.rawname, f.python_name, ty.rawname))
     l.append('{')
+    u_check = union_check(f, '-1')
     if t == TYPE_BOOL:
+        l.extend(u_check)
         l.append('    self->obj.%s = (NULL == v || Py_None == v || Py_False == 
v) ? 0 : 1;'%f.name)
         l.append('    return 0;')
     elif t == TYPE_UINT or t == TYPE_INT:
         l.append('    %slong long tmp;'%(t == TYPE_UINT and 'unsigned ' or ''))
         l.append('    int ret;')
+        l.extend(u_check)
         if t == TYPE_UINT:
             l.append('    ret = genwrap__ull_set(v, &tmp, 
(%s)~0);'%f.type.typename)
         else:
@@ -86,47 +120,87 @@ def py_attrib_set(ty, f):
         l.append('        self->obj.%s = tmp;'%f.name)
         l.append('    return ret;')
     elif t == TYPE_STRING:
+        l.extend(u_check)
         l.append('    return genwrap__string_set(v, &self->obj.%s);'%f.name)
+    elif f.shadow_type is True:
+        l.extend(u_check)
+        l.append('    if ( !Py%s_Check(v) ) {'%f.type.rawname)
+        l.append('        PyErr_SetString(PyExc_TypeError, "Expected 
xl.%s");'%f.type.rawname)
+        l.append('        return -1;')
+        l.append('    }')
+        l.append('    if ( self->%s_ref ) {'%f.python_name)
+        l.append('        Py_DECREF(self->%s_ref);'%f.python_name)
+        l.append('    }')
+        l.append('    self->%s_ref = (Py_%s *)v;'%(f.python_name, 
f.type.rawname))
+        l.append('    Py_INCREF(self->%s_ref);'%f.python_name)
+        l.append('    return 0;')
     else:
         tn = f.type.typename
+        l.extend(u_check)
         l.append('    return attrib__%s_set(v, (%s 
*)&self->obj.%s);'%(fsanitize(tn), tn, f.name))
     l.append('}')
     return '\n'.join(l) + "\n\n"
 
+def sync_func(ty):
+    pf = shadow_fields(ty)
+    if len(pf) == 0:
+        return ''
+    l = []
+
+    l.append('void Py%s_Unshadow(Py_%s*self)\n'%(ty.rawname, ty.rawname))
+    l.append('{')
+    for f in pf:
+        l.append('    if ( self->%s_ref ) {'%f.python_name)
+        l.append('        Py_%s *x = (Py_%s *)self->%s_ref;'%(f.type.rawname, 
f.type.rawname, f.python_name))
+        if len(shadow_fields(f.type)):
+            l.append('        Py%s_Unshadow(x);'%f.type.rawname)
+        l.append('        memcpy(&self->obj.%s, &x->obj, 
sizeof(self->obj.%s));'%(f.name, f.name))
+        l.append('    }else{')
+        l.append('        memset(&self->obj.%s, 0, 
sizeof(self->obj.%s));'%(f.name, f.name))
+        l.append('    }')
+    l.append('}')
+    l.append('')
+    return '\n'.join(l)
+
 def py_object_def(ty):
     l = []
-    if ty.destructor_fn is not None:
-        dtor = '    %s(&self->obj);\n'%ty.destructor_fn
-    else:
-        dtor = ''
-
-    funcs="""static void Py%(rawname)s_dealloc(Py_%(rawname)s *self)
-{
-%(dtor)s    self->ob_type->tp_free((PyObject *)self);
-}
-
-static int Py%(rawname)s_init(Py_%(rawname)s *self, PyObject *args, PyObject 
*kwds)
+    funcs="""static int Py%s_init(Py_%s *self, PyObject *args, PyObject *kwds)
 {
     memset(&self->obj, 0, sizeof(self->obj));
     return genwrap__obj_init((PyObject *)self, args, kwds);
 }
 
-static PyObject *Py%(rawname)s_new(PyTypeObject *type, PyObject *args, 
PyObject *kwds)
+static PyObject *Py%s_new(PyTypeObject *type, PyObject *args, PyObject *kwds)
 {
-    Py_%(rawname)s *self = (Py_%(rawname)s *)type->tp_alloc(type, 0);
+    Py_%s *self = (Py_%s *)type->tp_alloc(type, 0);
     if (self == NULL)
         return NULL;
     memset(&self->obj, 0, sizeof(self->obj));
     return (PyObject *)self;
 }
 
-"""%{'rawname': ty.rawname, 'dtor': dtor}
+"""%tuple(ty.rawname for x in range(5))
+
+    funcs += sync_func(ty)
+
+
+    l.append('static void Py%s_dealloc(Py_%s *self)'%(ty.rawname, ty.rawname))
+    l.append('{')
+    if ty.destructor_fn is not None:
+        l.append('    %s(&self->obj);'%ty.destructor_fn)
+    for f in shadow_fields(ty):
+        l.append('    if ( self->%s_ref ) {'%f.python_name)
+        l.append('        Py_DECREF(self->%s_ref);'%f.python_name)
+        l.append('    }')
+    l.append('self->ob_type->tp_free((PyObject *)self);')
+    l.append('}')
+    l.append('')
 
     l.append('static PyGetSetDef Py%s_getset[] = {'%ty.rawname)
     for f in ty.fields:
-        l.append('    { .name = "%s", '%f.name)
-        l.append('      .get = (getter)py_%s_%s_get, '%(ty.rawname, f.name))
-        l.append('      .set = (setter)py_%s_%s_set },'%(ty.rawname, f.name))
+        l.append('    { .name = "%s", '%f.python_name)
+        l.append('      .get = (getter)py_%s_%s_get, '%(ty.rawname, 
f.python_name))
+        l.append('      .set = (setter)py_%s_%s_set },'%(ty.rawname, 
f.python_name))
     l.append('    { .name = NULL }')
     l.append('};')
     struct="""
@@ -196,12 +270,62 @@ def py_initfuncs(types):
     l.append('}')
     return '\n'.join(l) + "\n\n"
 
-def tree_frob(types):
-    ret = types[:]
-    for ty in ret:
-        ty.fields = filter(lambda f:f.name is not None and f.type.typename is 
not None, ty.fields)
+def dbg_tree(str, indent=0):
+    do_dbg = True
+    if not do_dbg:
+        return
+    print '%s%s'%(''.join('  ' for i in xrange(indent)), str)
+
+# We don't have a good translation for anonymous structures so we just
+# flatten them out recursively and replace '.' with '_'. For example
+# domain_build_info.u.hvm.pae becomes domain_build_info.u_hvm_pae
+def flatten_type(ty, path = None, depth = 0, condvar = []):
+    if not isinstance(ty, libxltypes.Aggregate):
+        return ty.fields
+
+    if path is None:
+        path = ''
+    else:
+        path = path + '.'
+
+    ret = []
+    for f in ty.fields:
+        f.name = path + f.name
+        f.python_name = f.name.replace('.', '_')
+        if isinstance(f.type, libxltypes.Aggregate) and \
+                f.type.typename is not None:
+            f.shadow_type = True
+        else:
+            f.shadow_type = False
+
+        if isinstance(f.type, libxltypes.KeyedUnion):
+            f.type.keyvar_name = path + f.type.keyvar_name
+
+        f.condlist = condvar[:]
+
+        if isinstance(f.type, libxltypes.Aggregate) and \
+                f.type.typename is None:
+            dbg_tree('(%s)'%(f.name), depth + 1)
+            if isinstance(ty, libxltypes.KeyedUnion):
+                condvar.append((f.keyvar_expr, ty.keyvar_name))
+            ret.extend(flatten_type(f.type, f.name, depth + 1, condvar))
+            if isinstance(ty, libxltypes.KeyedUnion):
+                condvar.pop()
+        else:
+            dbg_tree('%s - %s'%(f.name, f.python_name), depth + 1)
+            ret.append(f)
+
+
     return ret
 
+def frob_type(type):
+    dbg_tree('[%s]'%type.typename)
+    type.fields = flatten_type(type)
+    return type
+
+def frob_types(types):
+    return map(frob_type, types)
+
 if __name__ == '__main__':
     if len(sys.argv) < 4:
         print >>sys.stderr, "Usage: genwrap.py <idl> <decls> <defns>"
@@ -210,7 +334,7 @@ if __name__ == '__main__':
     idl = sys.argv[1]
     (_,types) = libxltypes.parse(idl)
 
-    types = tree_frob(types)
+    types = frob_types(types)
 
     decls = sys.argv[2]
     f = open(decls, 'w')
@@ -250,7 +374,7 @@ _hidden int genwrap__ll_set(PyObject *v,
 
 """ % " ".join(sys.argv))
     for ty in types:
-        f.write('/* Internal APU for %s wrapper */\n'%ty.typename)
+        f.write('/* Internal API for %s wrapper */\n'%ty.typename)
         f.write(py_wrapstruct(ty))
         f.write(py_decls(ty))
         f.write('\n')

_______________________________________________
Xen-devel mailing list
Xen-devel@xxxxxxxxxxxxxxxxxxx
http://lists.xensource.com/xen-devel
[More with this subject...]
<Prev in Thread] Current Thread [Next in Thread>
Previous by Date:  [Xen-devel] [PATCH 09 of 10] xl: Implement enum types in IDL, Gianni Tedesco
Next by Date:  [Xen-devel] [PATCH 10 of 10] pyxl: Export libxl_domain_create_new() to python binding, Gianni Tedesco
Previous by Thread:  [Xen-devel] [PATCH 09 of 10] xl: Implement enum types in IDL, Gianni Tedesco
Next by Thread:  Re: [Xen-devel] [PATCH 07 of 10] pyxl: Recursively scan type-tree to produce complete binding boilerplate, Ian Jackson
Indexes:  [Date] [Thread] [Top] [All Lists]
 
   

Copyright , Citrix Systems Inc. All rights reserved. Legal and Privacy