// Ignore the following symbols
%ignore WorkReg; 
%ignore AbstractRegister;
%ignore rginfo;
%ignore insn_t::get_canon_mnem;
%ignore insn_t::get_canon_feature;
%ignore insn_t::is_canon_insn;
%ignore bytes_t;
%ignore IDPOPT_STR;
%ignore IDPOPT_NUM;
%ignore IDPOPT_BIT;
%ignore IDPOPT_FLT;
%ignore IDPOPT_I64;
%ignore IDPOPT_OK;
%ignore IDPOPT_BADKEY;
%ignore IDPOPT_BADTYPE;
%ignore IDPOPT_BADVALUE;
%ignore set_options_t;
%ignore read_user_config_file;

%ignore s_preline;
%ignore ca_operation_t;
%ignore _chkarg_cmd;
%ignore ENUM_SIZE;

%ignore asm_t::checkarg_dispatch;
%ignore asm_t::func_header;
%ignore asm_t::func_footer;
%ignore asm_t::get_type_name;
%ignore instruc_t;
%ignore processor_t;
%ignore ph;
%ignore IDB_Callback;
%ignore IDP_Callback;
%ignore _py_getreg;
%ignore free_processor_module;
%ignore read_config_file;

%ignore gen_idb_event;

%include "idp.hpp"
%feature("director") IDB_Hooks;
%feature("director") IDP_Hooks;
%inline %{

//<inline(py_idp)>
//-------------------------------------------------------------------------

//-------------------------------------------------------------------------
/*
#<pydoc>
def AssembleLine(ea, cs, ip, use32, line):
    """
    Assemble an instruction to a string (display a warning if an error is found)

    @param ea: linear address of instruction
    @param cs:  cs of instruction
    @param ip:  ip of instruction
    @param use32: is 32bit segment
    @param line: line to assemble
    @return:
        - None on failure
        - or a string containing the assembled instruction
    """
    pass
#</pydoc>
*/
static PyObject *AssembleLine(
    ea_t ea,
    ea_t cs,
    ea_t ip,
    bool use32,
    const char *line)
{
  int inslen;
  char buf[MAXSTR];
  if (ph.notify != NULL &&
    (inslen =  ph.notify(ph.assemble, ea, cs, ip, use32, line, buf)) > 0)
  {
    return PyString_FromStringAndSize(buf, inslen);
  }
  Py_RETURN_NONE;
}

//---------------------------------------------------------------------------
/*
#<pydoc>
def assemble(ea, cs, ip, use32, line):
    """
    Assemble an instruction into the database (display a warning if an error is found)
    @param ea: linear address of instruction
    @param cs: cs of instruction
    @param ip: ip of instruction
    @param use32: is 32bit segment?
    @param line: line to assemble

    @return: Boolean. True on success.
    """
#</pydoc>
*/
bool assemble(
      ea_t ea,
      ea_t cs,
      ea_t ip,
      bool use32,
      const char *line)
{
  int inslen;
  char buf[MAXSTR];

  if (ph.notify != NULL)
  {
    inslen =  ph.notify(ph.assemble, ea, cs, ip, use32, line, buf);
    if (inslen > 0)
    {
      patch_many_bytes(ea, buf, inslen);
      return true;
    }
  }
  return false;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_id():
    """
    Returns the 'ph.id' field
    """
    pass
#</pydoc>
*/
static size_t ph_get_id()
{
  return ph.id;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_version():
    """
    Returns the 'ph.version'
    """
    pass
#</pydoc>
*/
static size_t ph_get_version()
{
  return ph.version;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_flag():
    """
    Returns the 'ph.flag'
    """
    pass
#</pydoc>
*/
static size_t ph_get_flag()
{
  return ph.flag;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_cnbits():
    """
    Returns the 'ph.cnbits'
    """
    pass
#</pydoc>
*/
static size_t ph_get_cnbits()
{
  return ph.cnbits;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_dnbits():
    """
    Returns the 'ph.dnbits'
    """
    pass
#</pydoc>
*/
static size_t ph_get_dnbits()
{
  return ph.dnbits;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_regFirstSreg():
    """
    Returns the 'ph.regFirstSreg'
    """
    pass
#</pydoc>
*/
static size_t ph_get_regFirstSreg()
{
  return ph.regFirstSreg;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_regLastSreg():
    """
    Returns the 'ph.regLastSreg'
    """
    pass
#</pydoc>
*/
static size_t ph_get_regLastSreg()
{
  return ph.regLastSreg;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_segreg_size():
    """
    Returns the 'ph.segreg_size'
    """
    pass
#</pydoc>
*/
static size_t ph_get_segreg_size()
{
  return ph.segreg_size;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_regCodeSreg():
    """
    Returns the 'ph.regCodeSreg'
    """
    pass
#</pydoc>
*/
static size_t ph_get_regCodeSreg()
{
  return ph.regCodeSreg;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_regDataSreg():
    """
    Returns the 'ph.regDataSreg'
    """
    pass
#</pydoc>
*/
static size_t ph_get_regDataSreg()
{
  return ph.regDataSreg;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_high_fixup_bits():
    """
    Returns the 'ph.high_fixup_bits'
    """
    pass
#</pydoc>
*/
static size_t ph_get_high_fixup_bits()
{
  return ph.high_fixup_bits;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_icode_return():
    """
    Returns the 'ph.icode_return'
    """
    pass
#</pydoc>
*/
static size_t ph_get_icode_return()
{
  return ph.icode_return;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_instruc_start():
    """
    Returns the 'ph.instruc_start'
    """
    pass
#</pydoc>
*/
static size_t ph_get_instruc_start()
{
  return ph.instruc_start;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_instruc_end():
    """
    Returns the 'ph.instruc_end'
    """
    pass
#</pydoc>
*/
static size_t ph_get_instruc_end()
{
  return ph.instruc_end;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_tbyte_size():
    """
    Returns the 'ph.tbyte_size' field as defined in he processor module
    """
    pass
#</pydoc>
*/
static size_t ph_get_tbyte_size()
{
  return ph.tbyte_size;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_instruc():
    """
    Returns a list of tuples (instruction_name, instruction_feature) containing the
    instructions list as defined in he processor module
    """
    pass
#</pydoc>
*/
static PyObject *ph_get_instruc()
{
  Py_ssize_t i = 0;
  PyObject *py_result = PyTuple_New(ph.instruc_end - ph.instruc_start);
  for ( instruc_t *p = ph.instruc + ph.instruc_start, *end = ph.instruc + ph.instruc_end;
        p != end;
        ++p )
  {
    PyTuple_SetItem(py_result, i++, Py_BuildValue("(sI)", p->name, p->feature));
  }
  return py_result;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
def ph_get_regnames():
    """
    Returns the list of register names as defined in the processor module
    """
    pass
#</pydoc>
*/
static PyObject *ph_get_regnames()
{
  Py_ssize_t i = 0;
  PyObject *py_result = PyList_New(ph.regsNum);
  for ( Py_ssize_t i=0; i<ph.regsNum; i++ )
    PyList_SetItem(py_result, i, PyString_FromString(ph.regNames[i]));

  return py_result;
}

//---------------------------------------------------------------------------
static const regval_t *idaapi _py_getreg(
  const char *name,
  const regval_t *regvals);

/*
#<pydoc>
def ph_get_operand_info():
    """
    Returns the operand information given an ea and operand number.

    @param ea: address
    @param n: operand number

    @return: Returns an idd_opinfo_t as a tuple: (modified, ea, reg_ival, regidx, value_size).
             Please refer to idd_opinfo_t structure in the SDK.
    """
    pass
#</pydoc>
*/
static PyObject *ph_get_operand_info(
    ea_t ea,
    int n)
{
  do
  {
    if ( dbg == NULL || n == - 1 )
      break;

    // Allocate register space
    thid_t tid = get_current_thread();
    regvals_t regvalues;
    regvalues.reserve(dbg->registers_size);

    // Read registers
    if ( dbg->read_registers(tid, -1, regvalues.begin()) != 1 )
      break;

    // Call the processor module
    idd_opinfo_t opinf;
    if ( ph.notify(ph.get_operand_info,
              ea,
              n,
              tid,
              _py_getreg,
              regvalues.begin(),
              &opinf) != 0 )
    {
      break;
    }
    return Py_BuildValue("(i" PY_FMT64 "Kii)",
                  opinf.modified,
                  opinf.ea,
                  opinf.value.ival,
                  opinf.debregidx,
                  opinf.value_size);
  } while (false);
  Py_RETURN_NONE;
}

//-------------------------------------------------------------------------
/*
#<pydoc>
class IDP_Hooks(object):
    def hook(self):
        """
        Creates an IDP hook

        @return: Boolean true on success
        """
        pass


    def unhook(self):
        """
        Removes the IDP hook
        @return: Boolean true on success
        """
        pass


    def custom_ana(self):
        """
        Analyzes and decodes an instruction at idaapi.cmd.ea
           - cmd.itype must be set >= idaapi.CUSTOM_CMD_ITYPE
           - cmd.size must be set to the instruction length

       @return: Boolean
            - False if the instruction is not recognized
            - True if the instruction was decoded. idaapi.cmd should be filled in that case.
        """
        pass


    def custom_out(self):
        """
        Outputs the instruction defined in idaapi.cmd

        @return: Boolean (whether this instruction can be outputted or not)
        """
        pass


    def custom_emu(self):
        """
        Emulate instruction, create cross-references, plan to analyze
        subsequent instructions, modify flags etc. Upon entrance to this function
        all information about the instruction is in 'cmd' structure.

        @return: Boolean (whether this instruction has been emulated or not)
        """
        pass


    def custom_outop(self, op):
        """
        Notification to generate operand text.
        If False was returned, then the standard operand output function will be called.

        The output buffer is inited with init_output_buffer()
        and this notification may use out_...() functions to form the operand text

        @return: Boolean (whether the operand has been outputted or not)
        """
        pass

    def custom_mnem(self):
        """
        Prints the mnemonic of the instruction defined in idaapi.cmd

        @return:
            - None: No mnemonic. IDA will use the default mnemonic value if present
            - String: The desired mnemonic string
        """
        pass


    def is_sane_insn(self, no_crefs):
       """
       is the instruction sane for the current file type?
       @param no_crefs:
             - 1: the instruction has no code refs to it.
                  ida just tries to convert unexplored bytes
                  to an instruction (but there is no other
                  reason to convert them into an instruction)
             - 0: the instruction is created because
                  of some coderef, user request or another
                  weighty reason.
       @return: 1-ok, <=0-no, the instruction isn't likely to appear in the program
       """
       pass


    def may_be_func(self, no_crefs):
       """
       Can a function start here?
       @param state: autoanalysis phase
             0: creating functions
             1: creating chunks

       @return: integer (probability 0..100)
       """
       pass


    def closebase(self):
       """
       The database will be closed now
       """
       pass


    def savebase(self):
       """
       The database is being saved. Processor module should
       """
       pass


    def rename(self, ea, new_name):
       """
       The kernel is going to rename a byte.

       @param ea: Address
       @param new_name: The new name

       @return:
           - If returns value <=0, then the kernel should
             not rename it. See also the 'renamed' event
       """
       pass


    def renamed(self, ea, new_name, local_name):
       """
       The kernel has renamed a byte

       @param ea: Address
       @param new_name: The new name
       @param local_name: Is local name

       @return: Ignored
       """
       pass


    def undefine(self, ea):
       """
       An item in the database (insn or data) is being deleted
       @param ea: Address
       @return:
           - returns: >0-ok, <=0-the kernel should stop
           - if the return value is positive:
              bit0 - ignored
              bit1 - do not delete srareas at the item end
       """
       pass


    def make_code(self, ea, size):
       """
       An instruction is being created
       @param ea: Address
       @param size: Instruction size
       @return: 1-ok, <=0-the kernel should stop
       """
       pass


    def make_code(self, ea, size):
       """
       An instruction is being created
       @param ea: Address
       @param size: Instruction size
       @return: 1-ok, <=0-the kernel should stop
       """
       pass


    def make_data(self, ea, flags, tid, len):
       """
       A data item is being created
       @param ea: Address
       @param tid: type id
       @param flags: item flags
       @param len: data item size
       @return: 1-ok, <=0-the kernel should stop
       """
       pass


    def load_idasgn(self, short_sig_name):
       """
       FLIRT signature have been loaded for normal processing
       (not for recognition of startup sequences)
       @param short_sig_name: signature name
       @return: Ignored
       """
       pass


    def add_func(self, func):
       """
       The kernel has added a function
       @param func: the func_t instance
       @return: Ignored
       """
       pass


    def del_func(self, func):
       """
       The kernel is about to delete a function
       @param func: the func_t instance
       @return: 1-ok,<=0-do not delete
       """
       pass


    def is_call_insn(self, ea, func_name):
       """
       Is the instruction a "call"?

       @param ea: instruction address
       @return: 1-unknown, 0-no, 2-yes
       """
       pass


    def is_ret_insn(self, ea, func_name):
       """
       Is the instruction a "return"?

       @param ea: instruction address
       @param strict: - True: report only ret instructions
                        False: include instructions like "leave" which begins the function epilog
       @return: 1-unknown, 0-no, 2-yes
       """
       pass


    def assemble(self, ea, cs, ip, use32, line):
       """
       Assembles an instruction

       @param ea: linear address of instruction
       @param cs: cs of instruction
       @param ip: ip of instruction
       @param use32: is 32bit segment?
       @param line: line to assemble

       @return: - None to let the underlying processor module assemble the line
                - or a string containing the assembled buffer
       """
       pass

#</pydoc>
*/
//---------------------------------------------------------------------------
// IDP hooks
//---------------------------------------------------------------------------
int idaapi IDP_Callback(void *ud, int notification_code, va_list va);
class IDP_Hooks
{
public:
  virtual ~IDP_Hooks()
  {
  }

  bool hook()
  {
    return hook_to_notification_point(HT_IDP, IDP_Callback, this);
  }

  bool unhook()
  {
    return unhook_from_notification_point(HT_IDP, IDP_Callback, this);
  }

  virtual bool custom_ana()
  {
    return false;
  }

  virtual bool custom_out()
  {
    return false;
  }

  virtual bool custom_emu()
  {
    return false;
  }

  virtual bool custom_outop(PyObject *py_op)
  {
    return false;
  }

  virtual PyObject *custom_mnem()
  {
    return NULL;
  }

  virtual int is_sane_insn(int no_crefs)
  {
    return 0;
  }

  virtual int may_be_func(int state)
  {
    return 0;
  }

  virtual int closebase()
  {
    return 0;
  }

  virtual void savebase()
  {
  }

  virtual int rename(ea_t ea, const char *new_name)
  {
    return 0;
  }

  virtual void renamed(ea_t ea, const char *new_name, bool local_name)
  {
  }

  virtual int undefine(ea_t ea)
  {
    return 0;
  }

  virtual int make_code(ea_t ea, asize_t size)
  {
    return 0;
  }

  virtual int make_data(ea_t ea, flags_t flags, tid_t tid, asize_t len)
  {
    return 0;
  }

  virtual void load_idasgn(const char *short_sig_name)
  {
  }

  virtual void add_func(func_t *func)
  {
  }

  virtual int del_func(func_t *func)
  {
    return 0;
  }

  virtual int is_call_insn(ea_t ea)
  {
    return 0;
  }

  virtual int is_ret_insn(ea_t ea, bool strict)
  {
    return 0;
  }

  virtual PyObject *assemble(
      ea_t ea,
      ea_t cs,
      ea_t ip,
      bool use32,
      const char *line)
  {
    return NULL;
  }
};

//---------------------------------------------------------------------------
// IDB hooks
//---------------------------------------------------------------------------
int idaapi IDB_Callback(void *ud, int notification_code, va_list va);
class IDB_Hooks
{
public:
  virtual ~IDB_Hooks() {};

  bool hook()
  {
    return hook_to_notification_point(HT_IDB, IDB_Callback, this);
  }
  bool unhook()
  {
    return unhook_from_notification_point(HT_IDB, IDB_Callback, this);
  }
  // Hook functions to override in Python
  virtual int byte_patched(ea_t ea) { return 0; };
  virtual int cmt_changed(ea_t, bool repeatable_cmt) { return 0; };
  virtual int ti_changed(ea_t ea, const type_t *type, const p_list *fnames) { msg("ti_changed hook not supported yet\n"); return 0; };
  virtual int op_ti_changed(ea_t ea, int n, const type_t *type, const p_list *fnames) { msg("op_ti_changed hook not supported yet\n"); return 0; };
  virtual int op_type_changed(ea_t ea, int n) { return 0; };
  virtual int enum_created(enum_t id) { return 0; };
  virtual int enum_deleted(enum_t id) { return 0; };
  virtual int enum_bf_changed(enum_t id) { return 0; };
  virtual int enum_renamed(enum_t id) { return 0; };
  virtual int enum_cmt_changed(enum_t id) { return 0; };
  virtual int enum_member_created(enum_t id, const_t cid) { return 0; };
  virtual int enum_member_deleted(enum_t id, const_t cid) { return 0; };
  virtual int struc_created(tid_t struc_id) { return 0; };
  virtual int struc_deleted(tid_t struc_id) { return 0; };
  virtual int struc_renamed(struc_t *sptr) { return 0; };
  virtual int struc_expanded(struc_t *sptr) { return 0; };
  virtual int struc_cmt_changed(tid_t struc_id) { return 0; };
  virtual int struc_member_created(struc_t *sptr, member_t *mptr) { return 0; };
  virtual int struc_member_deleted(struc_t *sptr, tid_t member_id) { return 0; };
  virtual int struc_member_renamed(struc_t *sptr, member_t *mptr) { return 0; };
  virtual int struc_member_changed(struc_t *sptr, member_t *mptr) { return 0; };
  virtual int thunk_func_created(func_t *pfn) { return 0; };
  virtual int func_tail_appended(func_t *pfn, func_t *tail) { return 0; };
  virtual int func_tail_removed(func_t *pfn, ea_t tail_ea) { return 0; };
  virtual int tail_owner_changed(func_t *tail, ea_t owner_func) { return 0; };
  virtual int func_noret_changed(func_t *pfn) { return 0; };
  virtual int segm_added(segment_t *s) { return 0; };
  virtual int segm_deleted(ea_t startEA) { return 0; };
  virtual int segm_start_changed(segment_t *s) { return 0; };
  virtual int segm_end_changed(segment_t *s) { return 0; };
  virtual int segm_moved(ea_t from, ea_t to, asize_t size) { return 0; };
};

//</inline(py_idp)>
%}

%{
//<code(py_idp)>
//-------------------------------------------------------------------------
int idaapi IDP_Callback(void *ud, int notification_code, va_list va)
{
  IDP_Hooks *proxy = (IDP_Hooks *)ud;
  int ret = 0;
  try
  {
    switch ( notification_code )
    {
    case processor_t::custom_ana:
      ret = proxy->custom_ana() ? 1 + cmd.size : 0;
      break;

    case processor_t::custom_out:
      ret = proxy->custom_out() ? 2 : 0;
      break;

    case processor_t::custom_emu:
      ret = proxy->custom_emu() ? 2 : 0;
      break;

    case processor_t::custom_outop:
      {
        op_t *op = va_arg(va, op_t *);
        PyObject *py_obj = create_idaapi_linked_class_instance(S_PY_OP_T_CLSNAME, op);
        if ( py_obj == NULL )
          break;
        ret = proxy->custom_outop(py_obj) ? 2 : 0;
        Py_XDECREF(py_obj);
        break;
      }

    case processor_t::custom_mnem:
      {
        PyObject *py_ret = proxy->custom_mnem();
        if ( py_ret != NULL && PyString_Check(py_ret) )
        {
          char *outbuffer = va_arg(va, char *);
          size_t bufsize  = va_arg(va, size_t);

          qstrncpy(outbuffer, PyString_AS_STRING(py_ret), bufsize);
          ret = 2;
        }
        else
        {
          ret = 0;
        }
        Py_XDECREF(py_ret);
        break;
      }

    case processor_t::is_sane_insn:
      {
        int no_crefs = va_arg(va, int);
        ret = proxy->is_sane_insn(no_crefs);
        break;
      }

    case processor_t::may_be_func:
      {
        int state = va_arg(va, int);
        ret = proxy->may_be_func(state);
        break;
      }

    case processor_t::closebase:
      {
        proxy->closebase();
        break;
      }

    case processor_t::savebase:
      {
        proxy->savebase();
        break;
      }

    case processor_t::rename:
      {
        ea_t ea = va_arg(va, ea_t);
        const char *new_name = va_arg(va, const char *);
        ret = proxy->rename(ea, new_name);
        break;
      }

    case processor_t::renamed:
      {
        ea_t ea = va_arg(va, ea_t);
        const char *new_name = va_arg(va, const char *);
        bool local_name = va_argi(va, bool);
        proxy->renamed(ea, new_name, local_name);
        break;
      }

    case processor_t::undefine:
      {
        ea_t ea = va_arg(va, ea_t);
        ret = proxy->undefine(ea);
        break;
      }

    case processor_t::make_code:
      {
        ea_t ea = va_arg(va, ea_t);
        asize_t size = va_arg(va, asize_t);
        ret = proxy->make_code(ea, size);
        break;
      }

    case processor_t::make_data:
      {
        ea_t ea = va_arg(va, ea_t);
        flags_t flags = va_arg(va, flags_t);
        tid_t tid = va_arg(va, tid_t);
        asize_t len = va_arg(va, asize_t);
        ret = proxy->make_data(ea, flags, tid, len);
        break;
      }

    case processor_t::load_idasgn:
      {
        const char *short_sig_name = va_arg(va, const char *);
        proxy->load_idasgn(short_sig_name);
        break;
      }

    case processor_t::add_func:
      {
        func_t *func = va_arg(va, func_t *);
        proxy->add_func(func);
        break;
      }

    case processor_t::del_func:
      {
        func_t *func = va_arg(va, func_t *);
        ret = proxy->del_func(func);
        break;
      }

    case processor_t::is_call_insn:
      {
        ea_t ea = va_arg(va, ea_t);
        ret = proxy->is_call_insn(ea);
        break;
      }

    case processor_t::is_ret_insn:
      {
        ea_t ea = va_arg(va, ea_t);
        bool strict = va_argi(va, bool);
        ret = proxy->is_ret_insn(ea, strict);
        break;
      }

    case processor_t::assemble:
      {
        ea_t ea     = va_arg(va, ea_t);
        ea_t cs     = va_arg(va, ea_t);
        ea_t ip     = va_arg(va, ea_t);
        bool use32  = va_argi(va, bool);
        const char *line = va_arg(va, const char *);
        // Extract user buffer (we hardcode the MAXSTR size limit)
        uchar *bin = va_arg(va, uchar *);
        // Call python
        PyObject *py_buffer = proxy->assemble(ea, cs, ip, use32, line);
        if ( py_buffer != NULL && PyString_Check(py_buffer) )
        {
          char *s;
          Py_ssize_t len;
          if ( PyString_AsStringAndSize(py_buffer, &s, &len) != -1 )
          {
            if ( len > MAXSTR )
              len = MAXSTR;
            memcpy(bin, s, len);
            ret = len;
          }
        }
        // ret = 0 otherwise
        Py_XDECREF(py_buffer);
        break;
      }
    }
  }
  catch (Swig::DirectorException &)
  {
    msg("Exception in IDP Hook function:\n");
    if ( PyErr_Occurred() )
      PyErr_Print();
  }
  return ret;
}

//---------------------------------------------------------------------------
int idaapi IDB_Callback(void *ud, int notification_code, va_list va)
{
  class IDB_Hooks *proxy = (class IDB_Hooks *)ud;
  ea_t ea, ea2;
  bool repeatable_cmt;
  /*type_t *type;*/
  /*  p_list *fnames; */
  int n;
  enum_t id;
  const_t cid;
  tid_t struc_id;
  struc_t *sptr;
  member_t *mptr;
  tid_t member_id;
  func_t *pfn;
  func_t *tail;
  segment_t *seg;
  asize_t size;

  try {
    switch (notification_code)
    {
    case idb_event::byte_patched:
      ea = va_arg(va, ea_t);
      return proxy->byte_patched(ea);

    case idb_event::cmt_changed:
      ea = va_arg(va, ea_t);
      repeatable_cmt = va_arg(va, int);
      return proxy->cmt_changed(ea, repeatable_cmt);
#if 0
    case idb_event::ti_changed:
      ea = va_arg(va, ea_t);
      type = va_arg(va, type_t *);
      fnames = va_arg(va, fnames);
      return proxy->ti_changed(ea, type, fnames);

    case idb_event::op_ti_changed:
      ea = va_arg(va, ea_t);
      n = va_arg(va, int);
      type = va_arg(va, type_t *);
      fnames = va_arg(va, fnames);
      return proxy->op_ti_changed(ea, n, type, fnames);
#endif
    case idb_event::op_type_changed:
      ea = va_arg(va, ea_t);
      n = va_arg(va, int);
      return proxy->op_type_changed(ea, n);

    case idb_event::enum_created:
      id = va_arg(va, enum_t);
      return proxy->enum_created(id);

    case idb_event::enum_deleted:
      id = va_arg(va, enum_t);
      return proxy->enum_deleted(id);

    case idb_event::enum_bf_changed:
      id = va_arg(va, enum_t);
      return proxy->enum_bf_changed(id);

    case idb_event::enum_cmt_changed:
      id = va_arg(va, enum_t);
      return proxy->enum_cmt_changed(id);

#ifdef NO_OBSOLETE_FUNCS
    case idb_event::enum_member_created:
#else
    case idb_event::enum_const_created:
#endif
      id = va_arg(va, enum_t);
      cid = va_arg(va, const_t);
      return proxy->enum_member_created(id, cid);

#ifdef NO_OBSOLETE_FUNCS
    case idb_event::enum_member_deleted:
#else
    case idb_event::enum_const_deleted:
#endif
      id = va_arg(va, enum_t);
      cid = va_arg(va, const_t);
      return proxy->enum_member_deleted(id, cid);

    case idb_event::struc_created:
      struc_id = va_arg(va, tid_t);
      return proxy->struc_created(struc_id);

    case idb_event::struc_deleted:
      struc_id = va_arg(va, tid_t);
      return proxy->struc_deleted(struc_id);

    case idb_event::struc_renamed:
      sptr = va_arg(va, struc_t *);
      return proxy->struc_renamed(sptr);

    case idb_event::struc_expanded:
      sptr = va_arg(va, struc_t *);
      return proxy->struc_expanded(sptr);

    case idb_event::struc_cmt_changed:
      struc_id = va_arg(va, tid_t);
      return proxy->struc_cmt_changed(struc_id);

    case idb_event::struc_member_created:
      sptr = va_arg(va, struc_t *);
      mptr = va_arg(va, member_t *);
      return proxy->struc_member_created(sptr, mptr);

    case idb_event::struc_member_deleted:
      sptr = va_arg(va, struc_t *);
      member_id = va_arg(va, tid_t);
      return proxy->struc_member_deleted(sptr, member_id);

    case idb_event::struc_member_renamed:
      sptr = va_arg(va, struc_t *);
      mptr = va_arg(va, member_t *);
      return proxy->struc_member_renamed(sptr, mptr);

    case idb_event::struc_member_changed:
      sptr = va_arg(va, struc_t *);
      mptr = va_arg(va, member_t *);
      return proxy->struc_member_changed(sptr, mptr);

    case idb_event::thunk_func_created:
      pfn = va_arg(va, func_t *);
      return proxy->thunk_func_created(pfn);

    case idb_event::func_tail_appended:
      pfn = va_arg(va, func_t *);
      tail = va_arg(va, func_t *);
      return proxy->func_tail_appended(pfn, tail);

    case idb_event::func_tail_removed:
      pfn = va_arg(va, func_t *);
      ea = va_arg(va, ea_t);
      return proxy->func_tail_removed(pfn, ea);

    case idb_event::tail_owner_changed:
      tail = va_arg(va, func_t *);
      ea = va_arg(va, ea_t);
      return proxy->tail_owner_changed(tail, ea);

    case idb_event::func_noret_changed:
      pfn = va_arg(va, func_t *);
      return proxy->func_noret_changed(pfn);

    case idb_event::segm_added:
      seg = va_arg(va, segment_t *);
      return proxy->segm_added(seg);

    case idb_event::segm_deleted:
      ea = va_arg(va, ea_t);
      return proxy->segm_deleted(ea);

    case idb_event::segm_start_changed:
      seg = va_arg(va, segment_t *);
      return proxy->segm_start_changed(seg);

    case idb_event::segm_end_changed:
      seg = va_arg(va, segment_t *);
      return proxy->segm_end_changed(seg);

    case idb_event::segm_moved:
      ea = va_arg(va, ea_t);
      ea2 = va_arg(va, ea_t);
      size = va_arg(va, asize_t);
      return proxy->segm_moved(ea, ea2, size);
    }
  }
  catch (Swig::DirectorException &)
  {
    msg("Exception in IDB Hook function:\n");
    if (PyErr_Occurred())
    {
      PyErr_Print();
    }
  }
  return 0;
}

//-------------------------------------------------------------------------
static const regval_t *idaapi _py_getreg(
    const char *name,
    const regval_t *regvals)
{
  for ( int i=dbg->registers_size - 1; i >= 0; i-- )
  {
    if ( stricmp(name, dbg->registers[i].name) == 0 )
      return &regvals[i];
  }
  static regval_t rv;
  return &rv;
}

//-------------------------------------------------------------------------
//</code(py_idp)>
%}