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/*
py/pyext - python script object for PD and MaxMSP
Copyright (c)2002-2005 Thomas Grill (gr@grrrr.org)
For information on usage and redistribution, and for a DISCLAIMER OF ALL
WARRANTIES, see the file, "license.txt," in this distribution.
*/
#ifndef __MAIN_H
#define __MAIN_H
#include "pyprefix.h"
#include "pysymbol.h"
#include "pybuffer.h"
#include <flcontainers.h>
#if FLEXT_OS == FLEXT_LINUX || FLEXT_OS == FLEXT_IRIX
#include <unistd.h>
#endif
#define PY__VERSION "0.2.0pre"
#define PYEXT_MODULE "pyext" // name for module
#define PYEXT_CLASS "_class" // name for base class
#define PY_STOP_WAIT 100 // ms
#define PY_STOP_TICK 1 // ms
class FifoEl
: public Fifo::Cell
{
public:
void Set(PyObject *f,PyObject *a) { fun = f,args = a; }
PyObject *fun,*args;
};
typedef PooledFifo<FifoEl> PyFifo;
class pybase
: public flext
{
public:
pybase();
virtual ~pybase();
void Exit();
static PyObject *MakePyArgs(const t_symbol *s,int argc,const t_atom *argv,int inlet = -1,bool withself = false);
static bool GetPyArgs(AtomList &lst,PyObject *pValue,int offs = 0,PyObject **self = NULL);
static void lib_setup();
protected:
virtual void DumpOut(const t_symbol *sym,int argc,const t_atom *argv) = 0;
void m__dir(PyObject *obj);
void m__doc(PyObject *obj);
void m_dir() { m__dir(module); }
void mg_dir(AtomList &lst) { m__dir(module); }
void m_doc() { m__doc(dict); }
PyObject *module,*dict; // inherited user class module and associated dictionary
static const char *py_doc;
void GetDir(PyObject *obj,AtomList &lst);
AtomListStatic<16> args;
void GetModulePath(const char *mod,char *dir,int len);
void AddToPath(const char *dir);
void SetArgs();
bool ImportModule(const char *name);
void UnimportModule();
bool ReloadModule();
void Register(const char *reg);
void Unregister(const char *reg);
void Reregister(const char *reg);
virtual bool Reload() = 0;
void OpenEditor();
void Respond(bool b);
void Report() { while(PyErr_Occurred()) PyErr_Print(); }
static bool IsAnything(const t_symbol *s) { return s && s != sym_float && s != sym_int && s != sym_symbol && s != sym_list && s != sym_pointer; }
enum retval { nothing,atom,sequ };
// --- module stuff -----
static PyObject *module_obj,*module_dict;
static PyMethodDef func_tbl[];
static PyObject *py__doc__(PyObject *,PyObject *args);
static PyObject *py_send(PyObject *,PyObject *args);
#ifdef FLEXT_THREADS
static PyObject *py_priority(PyObject *,PyObject *args);
#endif
static PyObject *py_arraysupport(PyObject *,PyObject *args);
static PyObject *py_samplerate(PyObject *,PyObject *args);
static PyObject *py_blocksize(PyObject *,PyObject *args);
#if FLEXT_SYS == FLEXT_SYS_PD
static PyObject *py_getvalue(PyObject *,PyObject *args);
static PyObject *py_setvalue(PyObject *,PyObject *args);
#endif
#ifdef PY_NUMARRAY
static void setupNumarray();
static PyObject *py_import(PyObject *,PyObject *args);
static PyObject *py_export(PyObject *,PyObject *args);
#endif
// ----thread stuff ------------
virtual void m_stop(int argc,const t_atom *argv);
bool respond;
#ifdef FLEXT_THREADS
bool shouldexit;
int thrcount;
int stoptick;
Timer stoptmr;
void tick(void *);
#endif
int detach;
bool gencall(PyObject *fun,PyObject *args);
virtual bool thrcall(void *data) = 0;
virtual bool callpy(PyObject *fun,PyObject *args) = 0;
#if FLEXT_SYS == FLEXT_SYS_MAX
static short patcher_myvol(t_patcher *x);
#endif
static bool collect();
protected:
void work_wrapper(void *data);
#ifdef FLEXT_THREADS
bool qucall(PyObject *fun,PyObject *args);
void threadworker();
PyFifo qufifo;
ThrCond qucond;
static PyThreadState *pythrsys;
static PyThreadState *FindThreadState();
static void FreeThreadState();
#else
static PyThreadState *FindThreadState() { return NULL; }
#endif
public:
#ifdef FLEXT_THREADS
ThrMutex mutex;
inline void Lock() { mutex.Unlock(); }
inline void Unlock() { mutex.Unlock(); }
// this is especially needed when one py/pyext object calls another one
// we don't want the message to be queued, but otoh we have to avoid deadlock
// (recursive calls can only happen in the system thread)
static int lockcount;
inline PyThreadState *PyLock(PyThreadState *st = FindThreadState())
{
if(!IsSystemThread() || !lockcount++) PyEval_AcquireLock();
return PyThreadState_Swap(st);
}
inline PyThreadState *PyLockSys()
{
if(!lockcount++) PyEval_AcquireLock();
return PyThreadState_Swap(pythrsys);
}
inline void PyUnlock(PyThreadState *st)
{
PyThreadState *old = PyThreadState_Swap(st);
if(old != pythrsys || !--lockcount) PyEval_ReleaseLock();
}
#else
inline void Lock() {}
inline void Unlock() {}
inline PyThreadState *PyLock(PyThreadState *) { return NULL; }
inline PyThreadState *PyLockSys() { return NULL; }
inline void PyUnlock(PyThreadState *st) {}
#endif
static PyObject* StdOut_Write(PyObject* Self, PyObject* Args);
};
#endif
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