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interop.cs
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interop.cs
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using System;
using System.Collections;
using System.Collections.Specialized;
using System.Runtime.InteropServices;
using System.Reflection;
using System.Text;
namespace Python.Runtime
{
//=======================================================================
// This file defines objects to support binary interop with the Python
// runtime. Generally, the definitions here need to be kept up to date
// when moving to new Python versions.
//=======================================================================
[Serializable()]
[AttributeUsage(AttributeTargets.All)]
public class DocStringAttribute : Attribute
{
public DocStringAttribute(string docStr)
{
DocString = docStr;
}
public string DocString
{
get { return docStr; }
set { docStr = value; }
}
private string docStr;
}
[Serializable()]
[AttributeUsage(AttributeTargets.Method | AttributeTargets.Delegate)]
internal class PythonMethodAttribute : Attribute
{
public PythonMethodAttribute()
{
}
}
[Serializable()]
[AttributeUsage(AttributeTargets.Method | AttributeTargets.Delegate)]
internal class ModuleFunctionAttribute : Attribute
{
public ModuleFunctionAttribute()
{
}
}
[Serializable()]
[AttributeUsage(AttributeTargets.Method | AttributeTargets.Delegate)]
internal class ForbidPythonThreadsAttribute : Attribute
{
public ForbidPythonThreadsAttribute()
{
}
}
[Serializable()]
[AttributeUsage(AttributeTargets.Property)]
internal class ModulePropertyAttribute : Attribute
{
public ModulePropertyAttribute()
{
}
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
internal class ObjectOffset
{
static ObjectOffset()
{
int size = IntPtr.Size;
int n = 0; // Py_TRACE_REFS add two pointers to PyObject_HEAD
#if (Py_DEBUG)
_ob_next = 0;
_ob_prev = 1 * size;
n = 2;
#endif
ob_refcnt = (n + 0)*size;
ob_type = (n + 1)*size;
ob_dict = (n + 2)*size;
ob_data = (n + 3)*size;
}
public static int magic(IntPtr ob)
{
if ((Runtime.PyObject_TypeCheck(ob, Exceptions.BaseException) ||
(Runtime.PyType_Check(ob) && Runtime.PyType_IsSubtype(ob, Exceptions.BaseException))))
{
return ExceptionOffset.ob_data;
}
return ob_data;
}
public static int DictOffset(IntPtr ob)
{
if ((Runtime.PyObject_TypeCheck(ob, Exceptions.BaseException) ||
(Runtime.PyType_Check(ob) && Runtime.PyType_IsSubtype(ob, Exceptions.BaseException))))
{
return ExceptionOffset.ob_dict;
}
return ob_dict;
}
public static int Size(IntPtr ob)
{
if ((Runtime.PyObject_TypeCheck(ob, Exceptions.BaseException) ||
(Runtime.PyType_Check(ob) && Runtime.PyType_IsSubtype(ob, Exceptions.BaseException))))
{
return ExceptionOffset.Size();
}
#if (Py_DEBUG)
return 6 * IntPtr.Size;
#else
return 4 * IntPtr.Size;
#endif
}
#if (Py_DEBUG)
public static int _ob_next;
public static int _ob_prev;
#endif
public static int ob_refcnt;
public static int ob_type;
private static int ob_dict;
private static int ob_data;
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
internal class ExceptionOffset
{
static ExceptionOffset()
{
Type type = typeof(ExceptionOffset);
FieldInfo[] fi = type.GetFields();
int size = IntPtr.Size;
for (int i = 0; i < fi.Length; i++)
{
fi[i].SetValue(null, (i * size) + ObjectOffset.ob_type + size);
}
}
public static int Size()
{
return ob_data + IntPtr.Size;
}
// PyException_HEAD
// (start after PyObject_HEAD)
public static int dict = 0;
public static int args = 0;
#if (PYTHON25 || PYTHON26 || PYTHON27)
public static int message = 0;
#elif (PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
public static int traceback = 0;
public static int context = 0;
public static int cause = 0;
#if !PYTHON32
public static int suppress_context = 0;
#endif
#endif
// extra c# data
public static int ob_dict;
public static int ob_data;
}
#if (PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
internal class BytesOffset
{
static BytesOffset()
{
Type type = typeof(BytesOffset);
FieldInfo[] fi = type.GetFields();
int size = IntPtr.Size;
for (int i = 0; i < fi.Length; i++)
{
fi[i].SetValue(null, i * size);
}
}
/* The *real* layout of a type object when allocated on the heap */
//typedef struct _heaptypeobject {
#if (Py_DEBUG) // #ifdef Py_TRACE_REFS
/* _PyObject_HEAD_EXTRA defines pointers to support a doubly-linked list of all live heap objects. */
public static int _ob_next = 0;
public static int _ob_prev = 0;
#endif
// PyObject_VAR_HEAD {
// PyObject_HEAD {
public static int ob_refcnt = 0;
public static int ob_type = 0;
// }
public static int ob_size = 0; /* Number of items in _VAR_iable part */
// }
public static int ob_shash = 0;
public static int ob_sval = 0; /* start of data */
/* Invariants:
* ob_sval contains space for 'ob_size+1' elements.
* ob_sval[ob_size] == 0.
* ob_shash is the hash of the string or -1 if not computed yet.
*/
//} PyBytesObject;
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
internal class ModuleDefOffset
{
static ModuleDefOffset()
{
Type type = typeof(ModuleDefOffset);
FieldInfo[] fi = type.GetFields();
int size = IntPtr.Size;
for (int i = 0; i < fi.Length; i++)
{
fi[i].SetValue(null, (i * size) + TypeOffset.ob_size);
}
}
public static IntPtr AllocModuleDef(string modulename) {
byte[] ascii = Encoding.ASCII.GetBytes(modulename);
int size = name + ascii.Length + 1;
IntPtr ptr = Marshal.AllocHGlobal(size);
for (int i = 0; i <= m_free; i += IntPtr.Size)
Marshal.WriteIntPtr(ptr, i, IntPtr.Zero);
Marshal.Copy(ascii, 0, (IntPtr)(ptr + name), ascii.Length);
Marshal.WriteIntPtr(ptr, m_name, (IntPtr)(ptr + name));
Marshal.WriteByte(ptr, name + ascii.Length, 0);
return ptr;
}
public static void FreeModuleDef(IntPtr ptr) {
Marshal.FreeHGlobal(ptr);
}
// typedef struct PyModuleDef{
// typedef struct PyModuleDef_Base {
// starts after PyObject_HEAD (TypeOffset.ob_type + 1)
public static int m_init = 0;
public static int m_index = 0;
public static int m_copy = 0;
// } PyModuleDef_Base
public static int m_name = 0;
public static int m_doc = 0;
public static int m_size = 0;
public static int m_methods = 0;
public static int m_reload = 0;
public static int m_traverse = 0;
public static int m_clear = 0;
public static int m_free = 0;
// } PyModuleDef
public static int name = 0;
}
#endif // PYTHON3
/// <summary>
/// TypeFlags(): The actual bit values for the Type Flags stored
/// in a class.
/// Note that the two values reserved for stackless have been put
/// to good use as PythonNet specific flags (Managed and Subclass)
/// </summary>
internal class TypeFlags
{
#if (PYTHON23 || PYTHON24 || PYTHON25 || PYTHON26 || PYTHON27)
// these flags were removed in Python 3
public static int HaveGetCharBuffer = (1 << 0);
public static int HaveSequenceIn = (1 << 1);
public static int GC = 0;
public static int HaveInPlaceOps = (1 << 3);
public static int CheckTypes = (1 << 4);
public static int HaveRichCompare = (1 << 5);
public static int HaveWeakRefs = (1 << 6);
public static int HaveIter = (1 << 7);
public static int HaveClass = (1 << 8);
#endif
public static int HeapType = (1 << 9);
public static int BaseType = (1 << 10);
public static int Ready = (1 << 12);
public static int Readying = (1 << 13);
public static int HaveGC = (1 << 14);
// 15 and 16 are reserved for stackless
public static int HaveStacklessExtension = 0;
/* XXX Reusing reserved constants */
public static int Managed = (1 << 15); // PythonNet specific
public static int Subclass = (1 << 16); // PythonNet specific
#if (PYTHON25 || PYTHON26 || PYTHON27 || PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
public static int HaveIndex = (1 << 17);
#endif
#if (PYTHON26 || PYTHON27 || PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
/* Objects support nb_index in PyNumberMethods */
public static int HaveVersionTag = (1 << 18);
public static int ValidVersionTag = (1 << 19);
public static int IsAbstract = (1 << 20);
public static int HaveNewBuffer = (1 << 21);
// TODO: Implement FastSubclass functions
public static int IntSubclass = (1 << 23);
public static int LongSubclass = (1 << 24);
public static int ListSubclass = (1 << 25);
public static int TupleSubclass = (1 << 26);
public static int StringSubclass = (1 << 27);
public static int UnicodeSubclass = (1 << 28);
public static int DictSubclass = (1 << 29);
public static int BaseExceptionSubclass = (1 << 30);
public static int TypeSubclass = (1 << 31);
#endif
// Default flags for Python 2
#if (PYTHON23 || PYTHON24 || PYTHON25 || PYTHON26 || PYTHON27)
public static int Default = (
HaveGetCharBuffer |
HaveSequenceIn |
HaveInPlaceOps |
HaveRichCompare |
HaveWeakRefs |
HaveIter |
HaveClass |
HaveStacklessExtension |
#if (PYTHON25 || PYTHON26 || PYTHON27)
HaveIndex |
#endif
0);
#endif
// Default flags for Python 3
#if (PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
public static int Default = (
HaveStacklessExtension |
HaveVersionTag);
#endif
}
// This class defines the function prototypes (delegates) used for low
// level integration with the CPython runtime. It also provides name
// based lookup of the correct prototype for a particular Python type
// slot and utilities for generating method thunks for managed methods.
internal class Interop
{
static ArrayList keepAlive;
static Hashtable pmap;
static Interop()
{
// Here we build a mapping of PyTypeObject slot names to the
// appropriate prototype (delegate) type to use for the slot.
Type[] items = typeof(Interop).GetNestedTypes();
Hashtable p = new Hashtable();
for (int i = 0; i < items.Length; i++)
{
Type item = items[i];
p[item.Name] = item;
}
keepAlive = new ArrayList();
Marshal.AllocHGlobal(IntPtr.Size);
pmap = new Hashtable();
pmap["tp_dealloc"] = p["DestructorFunc"];
pmap["tp_print"] = p["PrintFunc"];
pmap["tp_getattr"] = p["BinaryFunc"];
pmap["tp_setattr"] = p["ObjObjArgFunc"];
pmap["tp_compare"] = p["ObjObjFunc"];
pmap["tp_repr"] = p["UnaryFunc"];
pmap["tp_hash"] = p["UnaryFunc"];
pmap["tp_call"] = p["TernaryFunc"];
pmap["tp_str"] = p["UnaryFunc"];
pmap["tp_getattro"] = p["BinaryFunc"];
pmap["tp_setattro"] = p["ObjObjArgFunc"];
pmap["tp_traverse"] = p["ObjObjArgFunc"];
pmap["tp_clear"] = p["InquiryFunc"];
pmap["tp_richcompare"] = p["RichCmpFunc"];
pmap["tp_iter"] = p["UnaryFunc"];
pmap["tp_iternext"] = p["UnaryFunc"];
pmap["tp_descr_get"] = p["TernaryFunc"];
pmap["tp_descr_set"] = p["ObjObjArgFunc"];
pmap["tp_init"] = p["ObjObjArgFunc"];
pmap["tp_alloc"] = p["IntArgFunc"];
pmap["tp_new"] = p["TernaryFunc"];
pmap["tp_free"] = p["DestructorFunc"];
pmap["tp_is_gc"] = p["InquiryFunc"];
pmap["nb_add"] = p["BinaryFunc"];
pmap["nb_subtract"] = p["BinaryFunc"];
pmap["nb_multiply"] = p["BinaryFunc"];
#if !(PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
pmap["nb_divide"] = p["BinaryFunc"];
#endif
pmap["nb_remainder"] = p["BinaryFunc"];
pmap["nb_divmod"] = p["BinaryFunc"];
pmap["nb_power"] = p["TernaryFunc"];
pmap["nb_negative"] = p["UnaryFunc"];
pmap["nb_positive"] = p["UnaryFunc"];
pmap["nb_absolute"] = p["UnaryFunc"];
pmap["nb_nonzero"] = p["InquiryFunc"];
pmap["nb_invert"] = p["UnaryFunc"];
pmap["nb_lshift"] = p["BinaryFunc"];
pmap["nb_rshift"] = p["BinaryFunc"];
pmap["nb_and"] = p["BinaryFunc"];
pmap["nb_xor"] = p["BinaryFunc"];
pmap["nb_or"] = p["BinaryFunc"];
pmap["nb_coerce"] = p["ObjObjFunc"];
pmap["nb_int"] = p["UnaryFunc"];
pmap["nb_long"] = p["UnaryFunc"];
pmap["nb_float"] = p["UnaryFunc"];
pmap["nb_oct"] = p["UnaryFunc"];
pmap["nb_hex"] = p["UnaryFunc"];
pmap["nb_inplace_add"] = p["BinaryFunc"];
pmap["nb_inplace_subtract"] = p["BinaryFunc"];
pmap["nb_inplace_multiply"] = p["BinaryFunc"];
#if !(PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
pmap["nb_inplace_divide"] = p["BinaryFunc"];
#endif
pmap["nb_inplace_remainder"] = p["BinaryFunc"];
pmap["nb_inplace_power"] = p["TernaryFunc"];
pmap["nb_inplace_lshift"] = p["BinaryFunc"];
pmap["nb_inplace_rshift"] = p["BinaryFunc"];
pmap["nb_inplace_and"] = p["BinaryFunc"];
pmap["nb_inplace_xor"] = p["BinaryFunc"];
pmap["nb_inplace_or"] = p["BinaryFunc"];
pmap["nb_floor_divide"] = p["BinaryFunc"];
pmap["nb_true_divide"] = p["BinaryFunc"];
pmap["nb_inplace_floor_divide"] = p["BinaryFunc"];
pmap["nb_inplace_true_divide"] = p["BinaryFunc"];
#if (PYTHON25 || PYTHON26 || PYTHON27 || PYTHON32 || PYTHON33 || PYTHON34 || PYTHON35)
pmap["nb_index"] = p["UnaryFunc"];
#endif
pmap["sq_length"] = p["InquiryFunc"];
pmap["sq_concat"] = p["BinaryFunc"];
pmap["sq_repeat"] = p["IntArgFunc"];
pmap["sq_item"] = p["IntArgFunc"];
pmap["sq_slice"] = p["IntIntArgFunc"];
pmap["sq_ass_item"] = p["IntObjArgFunc"];
pmap["sq_ass_slice"] = p["IntIntObjArgFunc"];
pmap["sq_contains"] = p["ObjObjFunc"];
pmap["sq_inplace_concat"] = p["BinaryFunc"];
pmap["sq_inplace_repeat"] = p["IntArgFunc"];
pmap["mp_length"] = p["InquiryFunc"];
pmap["mp_subscript"] = p["BinaryFunc"];
pmap["mp_ass_subscript"] = p["ObjObjArgFunc"];
pmap["bf_getreadbuffer"] = p["IntObjArgFunc"];
pmap["bf_getwritebuffer"] = p["IntObjArgFunc"];
pmap["bf_getsegcount"] = p["ObjObjFunc"];
pmap["bf_getcharbuffer"] = p["IntObjArgFunc"];
}
internal static Type GetPrototype(string name)
{
return pmap[name] as Type;
}
internal static IntPtr GetThunk(MethodInfo method, string funcType = null)
{
Type dt;
if (funcType != null)
dt = typeof(Interop).GetNestedType(funcType) as Type;
else
dt = GetPrototype(method.Name);
if (dt != null)
{
IntPtr tmp = Marshal.AllocHGlobal(IntPtr.Size);
Delegate d = Delegate.CreateDelegate(dt, method);
Thunk cb = new Thunk(d);
Marshal.StructureToPtr(cb, tmp, false);
IntPtr fp = Marshal.ReadIntPtr(tmp, 0);
Marshal.FreeHGlobal(tmp);
keepAlive.Add(d);
return fp;
}
return IntPtr.Zero;
}
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate IntPtr UnaryFunc(IntPtr ob);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate IntPtr BinaryFunc(IntPtr ob, IntPtr arg);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate IntPtr TernaryFunc(IntPtr ob, IntPtr a1, IntPtr a2);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate int InquiryFunc(IntPtr ob);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate IntPtr IntArgFunc(IntPtr ob, int arg);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate IntPtr IntIntArgFunc(IntPtr ob, int a1, int a2);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate int IntObjArgFunc(IntPtr ob, int a1, IntPtr a2);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate int IntIntObjArgFunc(IntPtr o, int a, int b, IntPtr c);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate int ObjObjArgFunc(IntPtr o, IntPtr a, IntPtr b);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate int ObjObjFunc(IntPtr ob, IntPtr arg);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate void DestructorFunc(IntPtr ob);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate int PrintFunc(IntPtr ob, IntPtr a, int b);
[UnmanagedFunctionPointer(CallingConvention.Cdecl)]
public delegate IntPtr RichCmpFunc(IntPtr ob, IntPtr a, int b);
}
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Ansi)]
internal struct Thunk
{
public Delegate fn;
public Thunk(Delegate d)
{
fn = d;
}
}
}