/* * This is a curses module for Python. * * Based on prior work by Lance Ellinghaus and Oliver Andrich * Version 1.2 of this module: Copyright 1994 by Lance Ellinghouse, * Cathedral City, California Republic, United States of America. * * Version 1.5b1, heavily extended for ncurses by Oliver Andrich: * Copyright 1996,1997 by Oliver Andrich, Koblenz, Germany. * * Tidied for Python 1.6, and currently maintained by AMK (amk1@bigfoot.com) * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this source file to use, copy, modify, merge, or publish it * subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or in any new file that contains a substantial portion of * this file. * * THE AUTHOR MAKES NO REPRESENTATIONS ABOUT THE SUITABILITY OF * THE SOFTWARE FOR ANY PURPOSE. IT IS PROVIDED "AS IS" WITHOUT * EXPRESS OR IMPLIED WARRANTY. THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NON-INFRINGEMENT OF THIRD PARTY RIGHTS. IN NO EVENT SHALL THE * AUTHOR BE LIABLE TO YOU OR ANY OTHER PARTY FOR ANY SPECIAL, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE, STRICT LIABILITY OR * ANY OTHER ACTION ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* CVS: $Id$ */ /* Release Number */ char *PyCursesVersion = "1.6"; /* Includes */ #include "Python.h" #ifdef HAVE_NCURSES_H #include #else #include #endif #if defined(__sgi__) || defined(__sun__) /* No attr_t type is available */ typedef chtype attr_t; #endif /* Definition of exception curses.error */ static PyObject *PyCursesError; /* general error messages */ static char *catchall_ERR = "curses function returned ERR"; static char *catchall_NULL = "curses function returned NULL"; /* Tells whether initscr() has been called to initialise curses. */ static int initialised = FALSE; /* Tells whether start_color() has been called to initialise colorusage. */ static int initialisedcolors = FALSE; /* Utility Macros */ #define ARG_COUNT(X) \ (((X) == NULL) ? 0 : (PyTuple_Check(X) ? PyTuple_Size(X) : 1)) #define PyCursesInitialised \ if (initialised != TRUE) { \ PyErr_SetString(PyCursesError, \ "must call initscr() first"); \ return NULL; } #define PyCursesInitialisedColor \ if (initialisedcolors != TRUE) { \ PyErr_SetString(PyCursesError, \ "must call start_color() first"); \ return NULL; } /* Utility Functions */ /* * Check the return code from a curses function and return None * or raise an exception as appropriate. */ static PyObject * PyCursesCheckERR(code, fname) int code; char *fname; { if (code != ERR) { Py_INCREF(Py_None); return Py_None; } else { if (fname == NULL) { PyErr_SetString(PyCursesError, catchall_ERR); } else { PyErr_Format(PyCursesError, "%s() returned ERR", fname); } return NULL; } } static int PyCurses_ConvertToChtype(obj, ch) PyObject *obj; chtype *ch; { if (PyInt_Check(obj)) { *ch = (chtype) PyInt_AsLong(obj); } else if(PyString_Check(obj) & (PyString_Size(obj) == 1)) { *ch = (chtype) *PyString_AsString(obj); } else { return 0; } return 1; } /***************************************************************************** The Window Object ******************************************************************************/ /* Definition of the window object and window type */ typedef struct { PyObject_HEAD WINDOW *win; } PyCursesWindowObject; PyTypeObject PyCursesWindow_Type; #define PyCursesWindow_Check(v) ((v)->ob_type == &PyCursesWindow_Type) /* Function Prototype Macros - They are ugly but very, very useful. ;-) X - function name TYPE - parameter Type ERGSTR - format string for construction of the return value PARSESTR - format string for argument parsing */ #define Window_NoArgNoReturnFunction(X) \ static PyObject *PyCursesWindow_ ## X (self, arg) \ PyCursesWindowObject * self; PyObject * arg; \ { if (!PyArg_NoArgs(arg)) return NULL; \ return PyCursesCheckERR(X(self->win), # X); } #define Window_NoArgTrueFalseFunction(X) \ static PyObject * PyCursesWindow_ ## X (self,arg) \ PyCursesWindowObject * self; PyObject * arg; \ { \ if (!PyArg_NoArgs(arg)) return NULL; \ if (X (self->win) == FALSE) { Py_INCREF(Py_False); return Py_False; } \ else { Py_INCREF(Py_True); return Py_True; } } #define Window_NoArgNoReturnVoidFunction(X) \ static PyObject * PyCursesWindow_ ## X (self,arg) \ PyCursesWindowObject * self; \ PyObject * arg; \ { \ if (!PyArg_NoArgs(arg)) return NULL; \ X(self->win); Py_INCREF(Py_None); return Py_None; } #define Window_NoArg2TupleReturnFunction(X, TYPE, ERGSTR) \ static PyObject * PyCursesWindow_ ## X (self, arg) \ PyCursesWindowObject *self; \ PyObject * arg; \ { \ TYPE arg1, arg2; \ if (!PyArg_NoArgs(arg)) return NULL; \ X(self->win,arg1,arg2); return Py_BuildValue(ERGSTR, arg1, arg2); } #define Window_OneArgNoReturnVoidFunction(X, TYPE, PARSESTR) \ static PyObject * PyCursesWindow_ ## X (self, arg) \ PyCursesWindowObject *self; \ PyObject * arg; \ { \ TYPE arg1; \ if (!PyArg_Parse(arg, PARSESTR, &arg1)) return NULL; \ X(self->win,arg1); Py_INCREF(Py_None); return Py_None; } #define Window_OneArgNoReturnFunction(X, TYPE, PARSESTR) \ static PyObject * PyCursesWindow_ ## X (self, arg) \ PyCursesWindowObject *self; \ PyObject * arg; \ { \ TYPE arg1; \ if (!PyArg_Parse(arg,PARSESTR, &arg1)) return NULL; \ return PyCursesCheckERR(X(self->win, arg1), # X); } #define Window_TwoArgNoReturnFunction(X, TYPE, PARSESTR) \ static PyObject * PyCursesWindow_ ## X (self, arg) \ PyCursesWindowObject *self; \ PyObject * arg; \ { \ TYPE arg1, arg2; \ if (!PyArg_Parse(arg,PARSESTR, &arg1, &arg2)) return NULL; \ return PyCursesCheckERR(X(self->win, arg1, arg2), # X); } /* ------------- WINDOW routines --------------- */ Window_NoArgNoReturnFunction(untouchwin) Window_NoArgNoReturnFunction(touchwin) Window_NoArgNoReturnFunction(redrawwin) Window_NoArgNoReturnFunction(winsertln) Window_NoArgNoReturnFunction(werase) Window_NoArgNoReturnFunction(wdeleteln) Window_NoArgTrueFalseFunction(is_wintouched) Window_NoArgNoReturnVoidFunction(wsyncup) Window_NoArgNoReturnVoidFunction(wsyncdown) Window_NoArgNoReturnVoidFunction(wstandend) Window_NoArgNoReturnVoidFunction(wstandout) Window_NoArgNoReturnVoidFunction(wcursyncup) Window_NoArgNoReturnVoidFunction(wclrtoeol) Window_NoArgNoReturnVoidFunction(wclrtobot) Window_NoArgNoReturnVoidFunction(wclear) Window_OneArgNoReturnVoidFunction(idcok, int, "i;True(1) or False(0)") Window_OneArgNoReturnVoidFunction(immedok, int, "i;True(1) or False(0)") Window_OneArgNoReturnVoidFunction(wtimeout, int, "i;delay") Window_NoArg2TupleReturnFunction(getyx, int, "(ii)") Window_NoArg2TupleReturnFunction(getbegyx, int, "(ii)") Window_NoArg2TupleReturnFunction(getmaxyx, int, "(ii)") Window_NoArg2TupleReturnFunction(getparyx, int, "(ii)") Window_OneArgNoReturnFunction(wattron, attr_t, "l;attr") Window_OneArgNoReturnFunction(wattroff, attr_t, "l;attr") Window_OneArgNoReturnFunction(wattrset, attr_t, "l;attr") Window_OneArgNoReturnFunction(clearok, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(idlok, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(keypad, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(leaveok, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(nodelay, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(notimeout, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(scrollok, int, "i;True(1) or False(0)") Window_OneArgNoReturnFunction(winsdelln, int, "i;nlines") Window_OneArgNoReturnFunction(syncok, int, "i;True(1) or False(0)") Window_TwoArgNoReturnFunction(mvwin, int, "(ii);y,x") Window_TwoArgNoReturnFunction(mvderwin, int, "(ii);y,x") Window_TwoArgNoReturnFunction(wmove, int, "(ii);y,x") #if !defined(__sgi__) && !defined(__sun__) Window_TwoArgNoReturnFunction(wresize, int, "(ii);lines,columns") #endif /* Allocation and deallocation of Window Objects */ static PyObject * PyCursesWindow_New(win) WINDOW *win; { PyCursesWindowObject *wo; wo = PyObject_NEW(PyCursesWindowObject, &PyCursesWindow_Type); if (wo == NULL) return NULL; wo->win = win; return (PyObject *)wo; } static void PyCursesWindow_Dealloc(wo) PyCursesWindowObject *wo; { if (wo->win != stdscr) delwin(wo->win); PyMem_DEL(wo); } /* Addch, Addstr, Addnstr */ static PyObject * PyCursesWindow_AddCh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn, x, y, use_xy = FALSE; PyObject *temp; chtype ch = 0; attr_t attr = A_NORMAL; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "O;ch or int", &temp)) return NULL; break; case 2: if (!PyArg_Parse(arg, "(Ol);ch or int,attr", &temp, &attr)) return NULL; break; case 3: if (!PyArg_Parse(arg,"(iiO);y,x,ch or int", &y, &x, &temp)) return NULL; use_xy = TRUE; break; case 4: if (!PyArg_Parse(arg,"(iiOl);y,x,ch or int, attr", &y, &x, &temp, &attr)) return NULL; use_xy = TRUE; break; default: PyErr_SetString(PyExc_TypeError, "addch requires 1 or 4 arguments"); return NULL; } if (!PyCurses_ConvertToChtype(temp, &ch)) { PyErr_SetString(PyExc_TypeError, "argument 1 or 3 must be a ch or an int"); return NULL; } if (use_xy == TRUE) rtn = mvwaddch(self->win,y,x, ch | attr); else { rtn = waddch(self->win, ch | attr); } return PyCursesCheckERR(rtn, "addch"); } static PyObject * PyCursesWindow_AddStr(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn; int x, y; char *str; attr_t attr = A_NORMAL , attr_old = A_NORMAL; int use_xy = FALSE, use_attr = FALSE; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg,"s;str", &str)) return NULL; break; case 2: if (!PyArg_Parse(arg,"(sl);str,attr", &str, &attr)) return NULL; use_attr = TRUE; break; case 3: if (!PyArg_Parse(arg,"(iis);int,int,str", &y, &x, &str)) return NULL; use_xy = TRUE; break; case 4: if (!PyArg_Parse(arg,"(iisl);int,int,str,attr", &y, &x, &str, &attr)) return NULL; use_xy = use_attr = TRUE; break; default: PyErr_SetString(PyExc_TypeError, "addstr requires 1 to 4 arguments"); return NULL; } if (use_attr == TRUE) { attr_old = getattrs(self->win); wattrset(self->win,attr); } if (use_xy == TRUE) rtn = mvwaddstr(self->win,y,x,str); else rtn = waddstr(self->win,str); if (use_attr == TRUE) wattrset(self->win,attr_old); return PyCursesCheckERR(rtn, "addstr"); } static PyObject * PyCursesWindow_AddNStr(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn, x, y, n; char *str; attr_t attr = A_NORMAL , attr_old = A_NORMAL; int use_xy = FALSE, use_attr = FALSE; switch (ARG_COUNT(arg)) { case 2: if (!PyArg_Parse(arg,"(si);str,n", &str, &n)) return NULL; break; case 3: if (!PyArg_Parse(arg,"(sil);str,n,attr", &str, &n, &attr)) return NULL; use_attr = TRUE; break; case 4: if (!PyArg_Parse(arg,"(iisi);y,x,str,n", &y, &x, &str, &n)) return NULL; use_xy = TRUE; break; case 5: if (!PyArg_Parse(arg,"(iisil);y,x,str,n,attr", &y, &x, &str, &n, &attr)) return NULL; use_xy = use_attr = TRUE; break; default: PyErr_SetString(PyExc_TypeError, "addnstr requires 2 to 5 arguments"); return NULL; } if (use_attr == TRUE) { attr_old = getattrs(self->win); wattrset(self->win,attr); } if (use_xy == TRUE) rtn = mvwaddnstr(self->win,y,x,str,n); else rtn = waddnstr(self->win,str,n); if (use_attr == TRUE) wattrset(self->win,attr_old); return PyCursesCheckERR(rtn, "addnstr"); } static PyObject * PyCursesWindow_Bkgd(self,arg) PyCursesWindowObject *self; PyObject * arg; { PyObject *temp; chtype bkgd; attr_t attr = A_NORMAL; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "O;ch or int", &temp)) return NULL; break; case 2: if (!PyArg_Parse(arg,"(Ol);ch or int,attr", &temp, &attr)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "bkgd requires 1 or 2 arguments"); return NULL; } if (!PyCurses_ConvertToChtype(temp, &bkgd)) { PyErr_SetString(PyExc_TypeError, "argument 1 or 3 must be a ch or an int"); return NULL; } return PyCursesCheckERR(wbkgd(self->win, bkgd | A_NORMAL), "bkgd"); } static PyObject * PyCursesWindow_BkgdSet(self,arg) PyCursesWindowObject *self; PyObject * arg; { PyObject *temp; chtype bkgd; attr_t attr = A_NORMAL; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "O;ch or int", &temp)) return NULL; break; case 2: if (!PyArg_Parse(arg,"(Ol);ch or int,attr", &temp, &attr)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "bkgdset requires 1 or 2 arguments"); return NULL; } if (!PyCurses_ConvertToChtype(temp, &bkgd)) { PyErr_SetString(PyExc_TypeError, "argument 1 must be a ch or an int"); return NULL; } wbkgdset(self->win, bkgd | attr); return PyCursesCheckERR(0, "bkgdset"); } static PyObject * PyCursesWindow_Border(self, args) PyCursesWindowObject *self; PyObject *args; { chtype ls, rs, ts, bs, tl, tr, bl, br; ls = rs = ts = bs = tl = tr = bl = br = 0; if (!PyArg_Parse(args,"|llllllll;ls,rs,ts,bs,tl,tr,bl,br", &ls, &rs, &ts, &bs, &tl, &tr, &bl, &br)) return NULL; wborder(self->win, ls, rs, ts, bs, tl, tr, bl, br); Py_INCREF(Py_None); return Py_None; } static PyObject * PyCursesWindow_Box(self,arg) PyCursesWindowObject *self; PyObject * arg; { chtype ch1=0,ch2=0; if (!PyArg_NoArgs(arg)) { PyErr_Clear(); if (!PyArg_Parse(arg,"(ll);vertint,horint", &ch1, &ch2)) return NULL; } box(self->win,ch1,ch2); Py_INCREF(Py_None); return Py_None; } static PyObject * PyCursesWindow_DelCh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn; int x, y; switch (ARG_COUNT(arg)) { case 0: rtn = wdelch(self->win); break; case 2: if (!PyArg_Parse(arg,"(ii);y,x", &y, &x)) return NULL; rtn = mvwdelch(self->win,y,x); break; default: PyErr_SetString(PyExc_TypeError, "delch requires 0 or 2 arguments"); return NULL; } return PyCursesCheckERR(rtn, "[mv]wdelch"); } static PyObject * PyCursesWindow_DerWin(self,arg) PyCursesWindowObject *self; PyObject * arg; { WINDOW *win; int nlines, ncols, begin_y, begin_x; nlines = 0; ncols = 0; switch (ARG_COUNT(arg)) { case 2: if (!PyArg_Parse(arg,"(ii);begin_y,begin_x",&begin_y,&begin_x)) return NULL; break; case 4: if (!PyArg_Parse(arg, "(iiii);nlines,ncols,begin_y,begin_x", &nlines,&ncols,&begin_y,&begin_x)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "derwin requires 2 or 4 arguments"); return NULL; } win = derwin(self->win,nlines,ncols,begin_y,begin_x); if (win == NULL) { PyErr_SetString(PyCursesError, catchall_NULL); return NULL; } return (PyObject *)PyCursesWindow_New(win); } static PyObject * PyCursesWindow_EchoChar(self,arg) PyCursesWindowObject *self; PyObject * arg; { PyObject *temp; chtype ch; attr_t attr = A_NORMAL; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg,"O;ch or int", &temp)) return NULL; break; case 2: if (!PyArg_Parse(arg,"(Ol);ch or int,attr", &temp, &attr)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "echochar requires 1 or 2 arguments"); return NULL; } if (!PyCurses_ConvertToChtype(temp, &ch)) { PyErr_SetString(PyExc_TypeError, "argument 1 must be a ch or an int"); return NULL; } if (self->win->_flags & _ISPAD) return PyCursesCheckERR(pechochar(self->win, ch | attr), "echochar"); else return PyCursesCheckERR(wechochar(self->win, ch | attr), "echochar"); } static PyObject * PyCursesWindow_GetBkgd(self, arg) PyCursesWindowObject *self; PyObject *arg; { if (!PyArg_NoArgs(arg)) return NULL; return PyInt_FromLong((long) getbkgd(self->win)); } static PyObject * PyCursesWindow_GetCh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int x, y; chtype rtn; switch (ARG_COUNT(arg)) { case 0: Py_BEGIN_ALLOW_THREADS rtn = wgetch(self->win); Py_END_ALLOW_THREADS break; case 2: if (!PyArg_Parse(arg,"(ii);y,x",&y,&x)) return NULL; Py_BEGIN_ALLOW_THREADS rtn = mvwgetch(self->win,y,x); Py_END_ALLOW_THREADS break; default: PyErr_SetString(PyExc_TypeError, "getch requires 0 or 2 arguments"); return NULL; } return PyInt_FromLong(rtn); } static PyObject * PyCursesWindow_GetKey(self,arg) PyCursesWindowObject *self; PyObject * arg; { int x, y; chtype rtn; switch (ARG_COUNT(arg)) { case 0: Py_BEGIN_ALLOW_THREADS rtn = wgetch(self->win); Py_END_ALLOW_THREADS break; case 2: if (!PyArg_Parse(arg,"(ii);y,x",&y,&x)) return NULL; Py_BEGIN_ALLOW_THREADS rtn = mvwgetch(self->win,y,x); Py_END_ALLOW_THREADS break; default: PyErr_SetString(PyExc_TypeError, "getkey requires 0 or 2 arguments"); return NULL; } if (rtn<=255) return Py_BuildValue("c", rtn); else return PyString_FromString((char *)keyname(rtn)); } static PyObject * PyCursesWindow_GetStr(self,arg) PyCursesWindowObject *self; PyObject * arg; { int x, y, n; char rtn[1024]; /* This should be big enough.. I hope */ int rtn2; switch (ARG_COUNT(arg)) { case 0: Py_BEGIN_ALLOW_THREADS rtn2 = wgetstr(self->win,rtn); Py_END_ALLOW_THREADS break; case 1: if (!PyArg_Parse(arg,"i;n", &n)) return NULL; Py_BEGIN_ALLOW_THREADS rtn2 = wgetnstr(self->win,rtn,n); Py_END_ALLOW_THREADS break; case 2: if (!PyArg_Parse(arg,"(ii);y,x",&y,&x)) return NULL; Py_BEGIN_ALLOW_THREADS rtn2 = mvwgetstr(self->win,y,x,rtn); Py_END_ALLOW_THREADS break; case 3: if (!PyArg_Parse(arg,"(iii);y,x,n", &y, &x, &n)) return NULL; #if defined(__sgi__) || defined(__sun__) /* Untested */ Py_BEGIN_ALLOW_THREADS rtn2 = wmove(self->win,y,x)==ERR ? ERR : wgetnstr(self->win, rtn, n); Py_END_ALLOW_THREADS #else Py_BEGIN_ALLOW_THREADS rtn2 = mvwgetnstr(self->win, y, x, rtn, n); Py_END_ALLOW_THREADS #endif break; default: PyErr_SetString(PyExc_TypeError, "getstr requires 0 to 2 arguments"); return NULL; } if (rtn2 == ERR) rtn[0] = 0; return PyString_FromString(rtn); } static PyObject * PyCursesWindow_Hline(self, args) PyCursesWindowObject *self; PyObject *args; { PyObject *temp; chtype ch; int n, x, y, code = OK; attr_t attr = A_NORMAL; switch (ARG_COUNT(args)) { case 2: if (!PyArg_Parse(args, "(Oi);ch or int,n", &temp, &n)) return NULL; break; case 3: if (!PyArg_Parse(args, "(Oil);ch or int,n,attr", &temp, &n, &attr)) return NULL; break; case 4: if (!PyArg_Parse(args, "(iiOi);y,x,ch or int,n", &y, &x, &temp, &n)) return NULL; code = wmove(self->win, y, x); break; case 5: if (!PyArg_Parse(args, "(iiOil); y,x,ch or int,n,attr", &y, &x, &temp, &n, &attr)) return NULL; code = wmove(self->win, y, x); default: PyErr_SetString(PyExc_TypeError, "hline requires 2 or 5 arguments"); return NULL; } if (code != ERR) { if (!PyCurses_ConvertToChtype(temp, &ch)) { PyErr_SetString(PyExc_TypeError, "argument 1 or 3 must be a ch or an int"); return NULL; } return PyCursesCheckERR(whline(self->win, ch | attr, n), "hline"); } else return PyCursesCheckERR(code, "wmove"); } static PyObject * PyCursesWindow_InsCh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn, x, y, use_xy = FALSE; PyObject *temp; chtype ch = 0; attr_t attr = A_NORMAL; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "O;ch or int", &temp)) return NULL; break; case 2: if (!PyArg_Parse(arg, "(Ol);ch or int,attr", &temp, &attr)) return NULL; break; case 3: if (!PyArg_Parse(arg,"(iiO);y,x,ch or int", &y, &x, &temp)) return NULL; use_xy = TRUE; break; case 4: if (!PyArg_Parse(arg,"(iiOl);y,x,ch or int, attr", &y, &x, &temp, &attr)) return NULL; use_xy = TRUE; break; default: PyErr_SetString(PyExc_TypeError, "insch requires 1 or 4 arguments"); return NULL; } if (!PyCurses_ConvertToChtype(temp, &ch)) { PyErr_SetString(PyExc_TypeError, "argument 1 or 3 must be a ch or an int"); return NULL; } if (use_xy == TRUE) rtn = mvwinsch(self->win,y,x, ch | attr); else { rtn = winsch(self->win, ch | attr); } return PyCursesCheckERR(rtn, "insch"); } static PyObject * PyCursesWindow_InCh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int x, y, rtn; switch (ARG_COUNT(arg)) { case 0: rtn = winch(self->win); break; case 2: if (!PyArg_Parse(arg,"(ii);y,x",&y,&x)) return NULL; rtn = mvwinch(self->win,y,x); break; default: PyErr_SetString(PyExc_TypeError, "inch requires 0 or 2 arguments"); return NULL; } return PyInt_FromLong((long) rtn); } static PyObject * PyCursesWindow_InStr(self,arg) PyCursesWindowObject *self; PyObject * arg; { int x, y, n; char rtn[1024]; /* This should be big enough.. I hope */ int rtn2; switch (ARG_COUNT(arg)) { case 0: rtn2 = winstr(self->win,rtn); break; case 1: if (!PyArg_Parse(arg,"i;n", &n)) return NULL; rtn2 = winnstr(self->win,rtn,n); break; case 2: if (!PyArg_Parse(arg,"(ii);y,x",&y,&x)) return NULL; rtn2 = mvwinstr(self->win,y,x,rtn); break; case 3: if (!PyArg_Parse(arg, "(iii);y,x,n", &y, &x, &n)) return NULL; rtn2 = mvwinnstr(self->win, y, x, rtn, n); break; default: PyErr_SetString(PyExc_TypeError, "instr requires 0 or 3 arguments"); return NULL; } if (rtn2 == ERR) rtn[0] = 0; return PyString_FromString(rtn); } static PyObject * PyCursesWindow_InsStr(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn; int x, y; char *str; attr_t attr = A_NORMAL , attr_old = A_NORMAL; int use_xy = FALSE, use_attr = FALSE; switch (ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg,"s;str", &str)) return NULL; break; case 2: if (!PyArg_Parse(arg,"(sl);str,attr", &str, &attr)) return NULL; use_attr = TRUE; break; case 3: if (!PyArg_Parse(arg,"(iis);y,x,str", &y, &x, &str)) return NULL; use_xy = TRUE; break; case 4: if (!PyArg_Parse(arg,"(iisl);y,x,str,attr", &y, &x, &str, &attr)) return NULL; use_xy = use_attr = TRUE; break; default: PyErr_SetString(PyExc_TypeError, "insstr requires 1 to 4 arguments"); return NULL; } if (use_attr == TRUE) { attr_old = getattrs(self->win); wattrset(self->win,attr); } if (use_xy == TRUE) rtn = mvwinsstr(self->win,y,x,str); else rtn = winsstr(self->win,str); if (use_attr == TRUE) wattrset(self->win,attr_old); return PyCursesCheckERR(rtn, "insstr"); } static PyObject * PyCursesWindow_InsNStr(self,arg) PyCursesWindowObject *self; PyObject * arg; { int rtn, x, y, n; char *str; attr_t attr = A_NORMAL , attr_old = A_NORMAL; int use_xy = FALSE, use_attr = FALSE; switch (ARG_COUNT(arg)) { case 2: if (!PyArg_Parse(arg,"(si);str,n", &str, &n)) return NULL; break; case 3: if (!PyArg_Parse(arg,"(sil);str,n,attr", &str, &n, &attr)) return NULL; use_attr = TRUE; break; case 4: if (!PyArg_Parse(arg,"(iisi);y,x,str,n", &y, &x, &str, &n)) return NULL; use_xy = TRUE; break; case 5: if (!PyArg_Parse(arg,"(iisil);y,x,str,n,attr", &y, &x, &str, &n, &attr)) return NULL; use_xy = use_attr = TRUE; break; default: PyErr_SetString(PyExc_TypeError, "insnstr requires 2 to 5 arguments"); return NULL; } if (use_attr == TRUE) { attr_old = getattrs(self->win); wattrset(self->win,attr); } if (use_xy == TRUE) rtn = mvwinsnstr(self->win,y,x,str,n); else rtn = winsnstr(self->win,str,n); if (use_attr == TRUE) wattrset(self->win,attr_old); return PyCursesCheckERR(rtn, "insnstr"); } static PyObject * PyCursesWindow_Is_LineTouched(self,arg) PyCursesWindowObject * self; PyObject * arg; { int line, erg; if (!PyArg_Parse(arg,"i;line", &line)) return NULL; erg = is_linetouched(self->win, line); if (erg == ERR) { PyErr_SetString(PyExc_TypeError, "is_linetouched: line number outside of boundaries"); return NULL; } else if (erg == FALSE) { Py_INCREF(Py_False); return Py_False; } else { Py_INCREF(Py_True); return Py_True; } } static PyObject * PyCursesWindow_NoOutRefresh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int pminrow,pmincol,sminrow,smincol,smaxrow,smaxcol; int rtn; if (self->win->_flags & _ISPAD) { switch(ARG_COUNT(arg)) { case 6: if (!PyArg_Parse(arg, "(iiiiii);" \ "pminrow,pmincol,sminrow,smincol,smaxrow,smaxcol", &pminrow, &pmincol, &sminrow, &smincol, &smaxrow, &smaxcol)) return NULL; Py_BEGIN_ALLOW_THREADS rtn = pnoutrefresh(self->win, pminrow, pmincol, sminrow, smincol, smaxrow, smaxcol), Py_END_ALLOW_THREADS return PyCursesCheckERR(rtn, "pnoutrefresh"); default: PyErr_SetString(PyCursesError, "noutrefresh() called for a pad " "requires 6 arguments"); return NULL; } } else { if (!PyArg_NoArgs(arg)) return NULL; Py_BEGIN_ALLOW_THREADS rtn = wnoutrefresh(self->win); Py_END_ALLOW_THREADS return PyCursesCheckERR(rtn, "wnoutrefresh"); } } static PyObject * PyCursesWindow_PutWin(self, arg) PyCursesWindowObject *self; PyObject *arg; { PyObject *temp; if (!PyArg_Parse(arg, "O;fileobj", &temp)) return NULL; if (!PyFile_Check(temp)) { PyErr_SetString(PyExc_TypeError, "argument must be a file object"); return NULL; } return PyCursesCheckERR(putwin(self->win, PyFile_AsFile(temp)), "putwin"); } static PyObject * PyCursesWindow_RedrawLine(self,arg) PyCursesWindowObject *self; PyObject * arg; { int beg, num; if (!PyArg_Parse(arg,"(ii);beg,num", &beg, &num)) return NULL; return PyCursesCheckERR(wredrawln(self->win,beg,num), "redrawln"); } static PyObject * PyCursesWindow_Refresh(self,arg) PyCursesWindowObject *self; PyObject * arg; { int pminrow,pmincol,sminrow,smincol,smaxrow,smaxcol; int rtn; if (self->win->_flags & _ISPAD) { switch(ARG_COUNT(arg)) { case 6: if (!PyArg_Parse(arg, "(iiiiii);" \ "pminrow,pmincol,sminrow,smincol,smaxrow,smaxcol", &pminrow, &pmincol, &sminrow, &smincol, &smaxrow, &smaxcol)) return NULL; Py_BEGIN_ALLOW_THREADS rtn = prefresh(self->win, pminrow, pmincol, sminrow, smincol, smaxrow, smaxcol), Py_END_ALLOW_THREADS return PyCursesCheckERR(rtn, "prefresh"); default: PyErr_SetString(PyCursesError, "refresh() for a pad requires 6 arguments"); return NULL; } } else { if (!PyArg_NoArgs(arg)) return NULL; Py_BEGIN_ALLOW_THREADS rtn = wrefresh(self->win); Py_END_ALLOW_THREADS return PyCursesCheckERR(rtn); } } static PyObject * PyCursesWindow_SetScrollRegion(self,arg) PyCursesWindowObject *self; PyObject * arg; { int x, y; if (!PyArg_Parse(arg,"(ii);top, bottom",&y,&x)) return NULL; return PyCursesCheckERR(wsetscrreg(self->win,y,x), "wsetscrreg"); } static PyObject * PyCursesWindow_SubWin(self,arg) PyCursesWindowObject *self; PyObject * arg; { WINDOW *win; int nlines, ncols, begin_y, begin_x; nlines = 0; ncols = 0; switch (ARG_COUNT(arg)) { case 2: if (!PyArg_Parse(arg,"(ii);begin_y,begin_x",&begin_y,&begin_x)) return NULL; break; case 4: if (!PyArg_Parse(arg, "(iiii);nlines,ncols,begin_y,begin_x", &nlines,&ncols,&begin_y,&begin_x)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "subwin requires 2 or 4 arguments"); return NULL; } printf("Subwin: %i %i %i %i \n", nlines, ncols, begin_y, begin_x); if (self->win->_flags & _ISPAD) win = subpad(self->win, nlines, ncols, begin_y, begin_x); else win = subwin(self->win, nlines, ncols, begin_y, begin_x); if (win == NULL) { PyErr_SetString(PyCursesError, catchall_NULL); return NULL; } return (PyObject *)PyCursesWindow_New(win); } static PyObject * PyCursesWindow_Scroll(self,arg) PyCursesWindowObject *self; PyObject * arg; { int lines; switch(ARG_COUNT(arg)) { case 0: return PyCursesCheckERR(scroll(self->win), "scroll"); break; case 1: if (!PyArg_Parse(arg, "i;lines", &lines)) return NULL; return PyCursesCheckERR(wscrl(self->win, lines), "scroll"); default: PyErr_SetString(PyExc_TypeError, "scroll requires 0 or 1 arguments"); return NULL; } } static PyObject * PyCursesWindow_TouchLine(self,arg) PyCursesWindowObject *self; PyObject * arg; { int st, cnt, val; switch (ARG_COUNT(arg)) { case 2: if (!PyArg_Parse(arg,"(ii);start,count",&st,&cnt)) return NULL; return PyCursesCheckERR(touchline(self->win,st,cnt), "touchline"); break; case 3: if (!PyArg_Parse(arg, "(iii);start,count,val", &st, &cnt, &val)) return NULL; return PyCursesCheckERR(wtouchln(self->win, st, cnt, val), "touchline"); default: PyErr_SetString(PyExc_TypeError, "touchline requires 2 or 3 arguments"); return NULL; } } static PyObject * PyCursesWindow_Vline(self, args) PyCursesWindowObject *self; PyObject *args; { PyObject *temp; chtype ch; int n, x, y, code = OK; attr_t attr = A_NORMAL; switch (ARG_COUNT(args)) { case 2: if (!PyArg_Parse(args, "(Oi);ch or int,n", &temp, &n)) return NULL; break; case 3: if (!PyArg_Parse(args, "(Oil);ch or int,n,attr", &temp, &n, &attr)) return NULL; break; case 4: if (!PyArg_Parse(args, "(iiOi);y,x,ch or int,n", &y, &x, &temp, &n)) return NULL; code = wmove(self->win, y, x); break; case 5: if (!PyArg_Parse(args, "(iiOil); y,x,ch or int,n,attr", &y, &x, &temp, &n, &attr)) return NULL; code = wmove(self->win, y, x); default: PyErr_SetString(PyExc_TypeError, "vline requires 2 or 5 arguments"); return NULL; } if (code != ERR) { if (!PyCurses_ConvertToChtype(temp, &ch)) { PyErr_SetString(PyExc_TypeError, "argument 1 or 3 must be a ch or an int"); return NULL; } return PyCursesCheckERR(wvline(self->win, ch | attr, n), "vline"); } else return PyCursesCheckERR(code, "wmove"); } static PyMethodDef PyCursesWindow_Methods[] = { {"addch", (PyCFunction)PyCursesWindow_AddCh}, {"addnstr", (PyCFunction)PyCursesWindow_AddNStr}, {"addstr", (PyCFunction)PyCursesWindow_AddStr}, {"attroff", (PyCFunction)PyCursesWindow_wattroff}, {"attron", (PyCFunction)PyCursesWindow_wattron}, {"attrset", (PyCFunction)PyCursesWindow_wattrset}, {"bkgd", (PyCFunction)PyCursesWindow_Bkgd}, {"bkgdset", (PyCFunction)PyCursesWindow_BkgdSet}, {"border", (PyCFunction)PyCursesWindow_Border, METH_VARARGS}, {"box", (PyCFunction)PyCursesWindow_Box}, {"clear", (PyCFunction)PyCursesWindow_wclear}, {"clearok", (PyCFunction)PyCursesWindow_clearok}, {"clrtobot", (PyCFunction)PyCursesWindow_wclrtobot}, {"clrtoeol", (PyCFunction)PyCursesWindow_wclrtoeol}, {"cursyncup", (PyCFunction)PyCursesWindow_wcursyncup}, {"delch", (PyCFunction)PyCursesWindow_DelCh}, {"deleteln", (PyCFunction)PyCursesWindow_wdeleteln}, {"derwin", (PyCFunction)PyCursesWindow_DerWin}, {"echochar", (PyCFunction)PyCursesWindow_EchoChar}, {"erase", (PyCFunction)PyCursesWindow_werase}, {"getbegyx", (PyCFunction)PyCursesWindow_getbegyx}, {"getbkgd", (PyCFunction)PyCursesWindow_GetBkgd}, {"getch", (PyCFunction)PyCursesWindow_GetCh}, {"getkey", (PyCFunction)PyCursesWindow_GetKey}, {"getmaxyx", (PyCFunction)PyCursesWindow_getmaxyx}, {"getparyx", (PyCFunction)PyCursesWindow_getparyx}, {"getstr", (PyCFunction)PyCursesWindow_GetStr}, {"getyx", (PyCFunction)PyCursesWindow_getyx}, {"hline", (PyCFunction)PyCursesWindow_Hline}, {"idcok", (PyCFunction)PyCursesWindow_idcok}, {"idlok", (PyCFunction)PyCursesWindow_idlok}, {"immedok", (PyCFunction)PyCursesWindow_immedok}, {"inch", (PyCFunction)PyCursesWindow_InCh}, {"insch", (PyCFunction)PyCursesWindow_InsCh}, {"insdelln", (PyCFunction)PyCursesWindow_winsdelln}, {"insertln", (PyCFunction)PyCursesWindow_winsertln}, {"insnstr", (PyCFunction)PyCursesWindow_InsNStr}, {"insstr", (PyCFunction)PyCursesWindow_InsStr}, {"instr", (PyCFunction)PyCursesWindow_InStr}, {"is_linetouched", (PyCFunction)PyCursesWindow_Is_LineTouched}, {"is_wintouched", (PyCFunction)PyCursesWindow_is_wintouched}, {"keypad", (PyCFunction)PyCursesWindow_keypad}, {"leaveok", (PyCFunction)PyCursesWindow_leaveok}, {"move", (PyCFunction)PyCursesWindow_wmove}, {"mvderwin", (PyCFunction)PyCursesWindow_mvderwin}, {"mvwin", (PyCFunction)PyCursesWindow_mvwin}, {"nodelay", (PyCFunction)PyCursesWindow_nodelay}, {"notimeout", (PyCFunction)PyCursesWindow_notimeout}, {"noutrefresh", (PyCFunction)PyCursesWindow_NoOutRefresh}, {"putwin", (PyCFunction)PyCursesWindow_PutWin}, {"redrawln", (PyCFunction)PyCursesWindow_RedrawLine}, {"redrawwin", (PyCFunction)PyCursesWindow_redrawwin}, {"refresh", (PyCFunction)PyCursesWindow_Refresh}, #if !defined(__sgi__) && !defined(__sun__) {"resize", (PyCFunction)PyCursesWindow_wresize}, #endif {"scroll", (PyCFunction)PyCursesWindow_Scroll}, {"scrollok", (PyCFunction)PyCursesWindow_scrollok}, {"setscrreg", (PyCFunction)PyCursesWindow_SetScrollRegion}, {"standend", (PyCFunction)PyCursesWindow_wstandend}, {"standout", (PyCFunction)PyCursesWindow_wstandout}, {"subpad", (PyCFunction)PyCursesWindow_SubWin}, {"subwin", (PyCFunction)PyCursesWindow_SubWin}, {"syncdown", (PyCFunction)PyCursesWindow_wsyncdown}, {"syncok", (PyCFunction)PyCursesWindow_syncok}, {"syncup", (PyCFunction)PyCursesWindow_wsyncup}, {"timeout", (PyCFunction)PyCursesWindow_wtimeout}, {"touchline", (PyCFunction)PyCursesWindow_TouchLine}, {"touchwin", (PyCFunction)PyCursesWindow_touchwin}, {"untouchwin", (PyCFunction)PyCursesWindow_untouchwin}, {"vline", (PyCFunction)PyCursesWindow_Vline}, {NULL, NULL} /* sentinel */ }; static PyObject * PyCursesWindow_GetAttr(self, name) PyCursesWindowObject *self; char *name; { return Py_FindMethod(PyCursesWindow_Methods, (PyObject *)self, name); } /* -------------------------------------------------------*/ PyTypeObject PyCursesWindow_Type = { PyObject_HEAD_INIT(&PyType_Type) 0, /*ob_size*/ "curses window", /*tp_name*/ sizeof(PyCursesWindowObject), /*tp_basicsize*/ 0, /*tp_itemsize*/ /* methods */ (destructor)PyCursesWindow_Dealloc, /*tp_dealloc*/ 0, /*tp_print*/ (getattrfunc)PyCursesWindow_GetAttr, /*tp_getattr*/ (setattrfunc)0, /*tp_setattr*/ 0, /*tp_compare*/ 0, /*tp_repr*/ 0, /*tp_as_number*/ 0, /*tp_as_sequence*/ 0, /*tp_as_mapping*/ 0, /*tp_hash*/ }; /********************************************************************* Global Functions **********************************************************************/ static PyObject *ModDict; /* Function Prototype Macros - They are ugly but very, very useful. ;-) X - function name TYPE - parameter Type ERGSTR - format string for construction of the return value PARSESTR - format string for argument parsing */ #define NoArgNoReturnFunction(X) \ static PyObject *PyCurses_ ## X (self, arg) \ PyObject * self; \ PyObject * arg; \ { \ PyCursesInitialised \ if (!PyArg_NoArgs(arg)) return NULL; \ return PyCursesCheckERR(X(), # X); } #define NoArgOrFlagNoReturnFunction(X) \ static PyObject *PyCurses_ ## X (self, arg) \ PyObject * self; \ PyObject * arg; \ { \ int flag = 0; \ PyCursesInitialised \ switch(ARG_COUNT(arg)) { \ case 0: \ return PyCursesCheckERR(X(), # X); \ case 1: \ if (!PyArg_Parse(arg, "i;True(1) or False(0)", &flag)) return NULL; \ if (flag) return PyCursesCheckERR(X(), # X); \ else return PyCursesCheckERR(no ## X (), # X); \ default: \ PyErr_SetString(PyExc_TypeError, # X " requires 0 or 1 arguments"); \ return NULL; } } #define NoArgReturnIntFunction(X) \ static PyObject *PyCurses_ ## X (self, arg) \ PyObject * self; \ PyObject * arg; \ { \ PyCursesInitialised \ if (!PyArg_NoArgs(arg)) return NULL; \ return PyInt_FromLong((long) X()); } #define NoArgReturnStringFunction(X) \ static PyObject *PyCurses_ ## X (self, arg) \ PyObject * self; \ PyObject * arg; \ { \ PyCursesInitialised \ if (!PyArg_NoArgs(arg)) return NULL; \ return PyString_FromString(X()); } #define NoArgTrueFalseFunction(X) \ static PyObject * PyCurses_ ## X (self,arg) \ PyObject * self; \ PyObject * arg; \ { \ PyCursesInitialised \ if (!PyArg_NoArgs(arg)) return NULL; \ if (X () == FALSE) { \ Py_INCREF(Py_False); \ return Py_False; \ } \ Py_INCREF(Py_True); \ return Py_True; } #define NoArgNoReturnVoidFunction(X) \ static PyObject * PyCurses_ ## X (self,arg) \ PyObject * self; \ PyObject * arg; \ { \ PyCursesInitialised \ if (!PyArg_NoArgs(arg)) return NULL; \ X(); \ Py_INCREF(Py_None); \ return Py_None; } NoArgNoReturnFunction(beep) NoArgNoReturnFunction(def_prog_mode) NoArgNoReturnFunction(def_shell_mode) NoArgNoReturnFunction(doupdate) NoArgNoReturnFunction(endwin) NoArgNoReturnFunction(flash) NoArgNoReturnFunction(nocbreak) NoArgNoReturnFunction(noecho) NoArgNoReturnFunction(nonl) NoArgNoReturnFunction(noraw) NoArgNoReturnFunction(reset_prog_mode) NoArgNoReturnFunction(reset_shell_mode) NoArgNoReturnFunction(resetty) NoArgNoReturnFunction(savetty) NoArgOrFlagNoReturnFunction(cbreak) NoArgOrFlagNoReturnFunction(echo) NoArgOrFlagNoReturnFunction(nl) NoArgOrFlagNoReturnFunction(raw) NoArgReturnIntFunction(baudrate) NoArgReturnIntFunction(termattrs) NoArgReturnStringFunction(termname) NoArgReturnStringFunction(longname) NoArgTrueFalseFunction(can_change_color) NoArgTrueFalseFunction(has_colors) NoArgTrueFalseFunction(has_ic) NoArgTrueFalseFunction(has_il) NoArgTrueFalseFunction(isendwin) NoArgNoReturnVoidFunction(filter) NoArgNoReturnVoidFunction(flushinp) NoArgNoReturnVoidFunction(noqiflush) static PyObject * PyCurses_Color_Content(self, arg) PyObject * self; PyObject * arg; { short color,r,g,b; PyCursesInitialised PyCursesInitialisedColor if (ARG_COUNT(arg) != 1) { PyErr_SetString(PyExc_TypeError, "color_content requires 1 argument"); return NULL; } if (!PyArg_Parse(arg, "h;color", &color)) return NULL; if (color_content(color, &r, &g, &b) != ERR) return Py_BuildValue("(iii)", r, g, b); else { PyErr_SetString(PyCursesError, "Argument 1 was out of range. Check value of COLORS."); return NULL; } } static PyObject * PyCurses_color_pair(self, arg) PyObject * self; PyObject * arg; { int n; PyCursesInitialised PyCursesInitialisedColor if (ARG_COUNT(arg)!=1) { PyErr_SetString(PyExc_TypeError, "color_pair requires 1 argument"); return NULL; } if (!PyArg_Parse(arg, "i;number", &n)) return NULL; return PyInt_FromLong((long) (n << 8)); } static PyObject * PyCurses_Curs_Set(self, arg) PyObject * self; PyObject * arg; { int vis,erg; PyCursesInitialised if (ARG_COUNT(arg)==1) { PyErr_SetString(PyExc_TypeError, "curs_set requires 1 argument"); return NULL; } if (!PyArg_Parse(arg, "i;int", &vis)) return NULL; erg = curs_set(vis); if (erg == ERR) return PyCursesCheckERR(erg, "curs_set"); return PyInt_FromLong((long) erg); } static PyObject * PyCurses_Delay_Output(self,arg) PyObject * self; PyObject * arg; { int ms; PyCursesInitialised if (ARG_COUNT(arg)==1) { PyErr_SetString(PyExc_TypeError, "delay_output requires 1 argument"); return NULL; } if (!PyArg_Parse(arg, "i;ms", &ms)) return NULL; return PyCursesCheckERR(delay_output(ms), "delay_output"); } static PyObject * PyCurses_EraseChar(self,arg) PyObject * self; PyObject * arg; { char ch; PyCursesInitialised if (!PyArg_NoArgs(arg)) return NULL; ch = erasechar(); return PyString_FromString(&ch); } static PyObject * PyCurses_getsyx(self, arg) PyObject * self; PyObject * arg; { int x,y; PyCursesInitialised if (!PyArg_NoArgs(arg)) return NULL; getsyx(y, x); return Py_BuildValue("(ii)", y, x); } static PyObject * PyCurses_GetWin(self,arg) PyCursesWindowObject *self; PyObject * arg; { WINDOW *win; PyObject *temp; PyCursesInitialised if (!PyArg_Parse(arg, "O;fileobj", &temp)) return NULL; if (!PyFile_Check(temp)) { PyErr_SetString(PyExc_TypeError, "argument must be a file object"); return NULL; } win = getwin(PyFile_AsFile(temp)); if (win == NULL) { PyErr_SetString(PyCursesError, catchall_NULL); return NULL; } return PyCursesWindow_New(win); } static PyObject * PyCurses_HalfDelay(self,arg) PyObject * self; PyObject * arg; { unsigned char tenths; PyCursesInitialised switch(ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "b;tenths", &tenths)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "halfdelay requires 1 argument"); return NULL; } return PyCursesCheckERR(halfdelay(tenths), "halfdelay"); } #if !defined(__sgi__) && !defined(__sun__) /* No has_key! */ static PyObject * PyCurses_has_key(self,arg) PyObject * self; PyObject * arg; { int ch; PyCursesInitialised if (!PyArg_Parse(arg,"i",&ch)) return NULL; if (has_key(ch) == FALSE) { Py_INCREF(Py_False); return Py_False; } Py_INCREF(Py_True); return Py_True; } #endif static PyObject * PyCurses_Init_Color(self, arg) PyObject * self; PyObject * arg; { short color, r, g, b; PyCursesInitialised PyCursesInitialisedColor switch(ARG_COUNT(arg)) { case 4: if (!PyArg_Parse(arg, "(hhhh);color,r,g,b", &color, &r, &g, &b)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "init_color requires 4 arguments"); return NULL; } return PyCursesCheckERR(init_color(color, r, g, b), "init_color"); } static PyObject * PyCurses_Init_Pair(self, arg) PyObject * self; PyObject * arg; { short pair, f, b; PyCursesInitialised PyCursesInitialisedColor if (ARG_COUNT(arg) == 3) { PyErr_SetString(PyExc_TypeError, "init_pair requires 3 arguments"); return NULL; } if (!PyArg_Parse(arg, "(hhh);pair, f, b", &pair, &f, &b)) return NULL; return PyCursesCheckERR(init_pair(pair, f, b), "init_pair"); } static PyObject * PyCurses_InitScr(self, args) PyObject * self; PyObject * args; { WINDOW *win; PyObject *lines, *cols; if (!PyArg_NoArgs(args)) return NULL; if (initialised == TRUE) { wrefresh(stdscr); return (PyObject *)PyCursesWindow_New(stdscr); } win = initscr(); if (win == NULL) { PyErr_SetString(PyCursesError, catchall_NULL); return NULL; } initialised = TRUE; /* This was moved from initcurses() because it core dumped on SGI, where they're not defined until you've called initscr() */ #define SetDictInt(string,ch) \ PyDict_SetItemString(ModDict,string,PyInt_FromLong((long) (ch))); /* Here are some graphic symbols you can use */ SetDictInt("ACS_ULCORNER", (ACS_ULCORNER)); SetDictInt("ACS_LLCORNER", (ACS_LLCORNER)); SetDictInt("ACS_URCORNER", (ACS_URCORNER)); SetDictInt("ACS_LRCORNER", (ACS_LRCORNER)); SetDictInt("ACS_LTEE", (ACS_LTEE)); SetDictInt("ACS_RTEE", (ACS_RTEE)); SetDictInt("ACS_BTEE", (ACS_BTEE)); SetDictInt("ACS_TTEE", (ACS_TTEE)); SetDictInt("ACS_HLINE", (ACS_HLINE)); SetDictInt("ACS_VLINE", (ACS_VLINE)); SetDictInt("ACS_PLUS", (ACS_PLUS)); SetDictInt("ACS_S1", (ACS_S1)); SetDictInt("ACS_S9", (ACS_S9)); SetDictInt("ACS_DIAMOND", (ACS_DIAMOND)); SetDictInt("ACS_CKBOARD", (ACS_CKBOARD)); SetDictInt("ACS_DEGREE", (ACS_DEGREE)); SetDictInt("ACS_PLMINUS", (ACS_PLMINUS)); SetDictInt("ACS_BULLET", (ACS_BULLET)); SetDictInt("ACS_LARROW", (ACS_LARROW)); SetDictInt("ACS_RARROW", (ACS_RARROW)); SetDictInt("ACS_DARROW", (ACS_DARROW)); SetDictInt("ACS_UARROW", (ACS_UARROW)); SetDictInt("ACS_BOARD", (ACS_BOARD)); SetDictInt("ACS_LANTERN", (ACS_LANTERN)); SetDictInt("ACS_BLOCK", (ACS_BLOCK)); SetDictInt("ACS_BSSB", (ACS_ULCORNER)); SetDictInt("ACS_SSBB", (ACS_LLCORNER)); SetDictInt("ACS_BBSS", (ACS_URCORNER)); SetDictInt("ACS_SBBS", (ACS_LRCORNER)); SetDictInt("ACS_SBSS", (ACS_RTEE)); SetDictInt("ACS_SSSB", (ACS_LTEE)); SetDictInt("ACS_SSBS", (ACS_BTEE)); SetDictInt("ACS_BSSS", (ACS_TTEE)); SetDictInt("ACS_BSBS", (ACS_HLINE)); SetDictInt("ACS_SBSB", (ACS_VLINE)); SetDictInt("ACS_SSSS", (ACS_PLUS)); #if !defined(__sgi__) && !defined(__sun__) /* The following are never available on IRIX 5.3 */ SetDictInt("ACS_S3", (ACS_S3)); SetDictInt("ACS_LEQUAL", (ACS_LEQUAL)); SetDictInt("ACS_GEQUAL", (ACS_GEQUAL)); SetDictInt("ACS_PI", (ACS_PI)); SetDictInt("ACS_NEQUAL", (ACS_NEQUAL)); SetDictInt("ACS_STERLING", (ACS_STERLING)); #endif lines = PyInt_FromLong((long) LINES); PyDict_SetItemString(ModDict, "LINES", lines); Py_DECREF(lines); cols = PyInt_FromLong((long) COLS); PyDict_SetItemString(ModDict, "COLS", cols); Py_DECREF(cols); return (PyObject *)PyCursesWindow_New(win); } static PyObject * PyCurses_IntrFlush(self,arg) PyObject * self; PyObject * arg; { int ch; PyCursesInitialised switch(ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg,"i;True(1), False(0)",&ch)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "intrflush requires 1 argument"); return NULL; } return PyCursesCheckERR(intrflush(NULL,ch), "intrflush"); } static PyObject * PyCurses_KeyName(self,arg) PyObject * self; PyObject * arg; { const char *knp; int ch; PyCursesInitialised if (!PyArg_Parse(arg,"i",&ch)) return NULL; knp = keyname(ch); return PyString_FromString((knp == NULL) ? "" : (char *)knp); } static PyObject * PyCurses_KillChar(self,arg) PyObject * self; PyObject * arg; { char ch; if (!PyArg_NoArgs(arg)) return NULL; ch = killchar(); return PyString_FromString(&ch); } static PyObject * PyCurses_Meta(self,arg) PyObject * self; PyObject * arg; { int ch; PyCursesInitialised switch(ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg,"i;True(1), False(0)",&ch)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "meta requires 1 argument"); return NULL; } return PyCursesCheckERR(meta(stdscr, ch), "meta"); } static PyObject * PyCurses_NewPad(self,arg) PyObject * self; PyObject * arg; { WINDOW *win; int nlines, ncols; PyCursesInitialised if (!PyArg_Parse(arg,"(ii);nlines,ncols",&nlines,&ncols)) return NULL; win = newpad(nlines, ncols); if (win == NULL) { PyErr_SetString(PyCursesError, catchall_NULL); return NULL; } return (PyObject *)PyCursesWindow_New(win); } static PyObject * PyCurses_NewWindow(self,arg) PyObject * self; PyObject * arg; { WINDOW *win; int nlines, ncols, begin_y, begin_x; PyCursesInitialised switch (ARG_COUNT(arg)) { case 2: if (!PyArg_Parse(arg,"(ii);nlines,ncols",&nlines,&ncols)) return NULL; win = newpad(nlines, ncols); break; case 4: if (!PyArg_Parse(arg, "(iiii);nlines,ncols,begin_y,begin_x", &nlines,&ncols,&begin_y,&begin_x)) return NULL; win = newwin(nlines,ncols,begin_y,begin_x); break; default: PyErr_SetString(PyExc_TypeError, "newwin requires 2 or 4 arguments"); return NULL; } if (win == NULL) { PyErr_SetString(PyCursesError, catchall_NULL); return NULL; } return (PyObject *)PyCursesWindow_New(win); } static PyObject * PyCurses_Pair_Content(self, arg) PyObject * self; PyObject * arg; { short pair,f,b; PyCursesInitialised PyCursesInitialisedColor switch(ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "h;pair", &pair)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "pair_content requires 1 argument"); return NULL; } if (!pair_content(pair, &f, &b)) { PyErr_SetString(PyCursesError, "Argument 1 was out of range. (1..COLOR_PAIRS-1)"); return NULL; } return Py_BuildValue("(ii)", f, b); } static PyObject * PyCurses_pair_number(self, arg) PyObject * self; PyObject * arg; { int n; PyCursesInitialised PyCursesInitialisedColor switch(ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg, "i;pairvalue", &n)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "pair_number requires 1 argument"); return NULL; } return PyInt_FromLong((long) ((n & A_COLOR) >> 8)); } static PyObject * PyCurses_Putp(self,arg) PyObject *self; PyObject *arg; { char *str; if (!PyArg_Parse(arg,"s;str", &str)) return NULL; return PyCursesCheckERR(putp(str), "putp"); } static PyObject * PyCurses_QiFlush(self, arg) PyObject * self; PyObject * arg; { int flag = 0; PyCursesInitialised switch(ARG_COUNT(arg)) { case 0: qiflush(); Py_INCREF(Py_None); return Py_None; case 1: if (!PyArg_Parse(arg, "i;True(1) or False(0)", &flag)) return NULL; if (flag) qiflush(); else noqiflush(); Py_INCREF(Py_None); return Py_None; default: PyErr_SetString(PyExc_TypeError, "qiflush requires 0 or 1 arguments"); return NULL; } } static PyObject * PyCurses_setsyx(self, arg) PyObject * self; PyObject * arg; { int y,x; PyCursesInitialised if (ARG_COUNT(arg)!=2) { PyErr_SetString(PyExc_TypeError, "setsyx requires 2 arguments"); return NULL; } if (!PyArg_Parse(arg, "(ii);y, x", &y, &x)) return NULL; setsyx(y,x); Py_INCREF(Py_None); return Py_None; } static PyObject * PyCurses_Start_Color(self,arg) PyObject * self; PyObject * arg; { int code; PyObject *c, *cp; PyCursesInitialised if (!PyArg_NoArgs(arg)) return NULL; code = start_color(); if (code != ERR) { initialisedcolors = TRUE; c = PyInt_FromLong((long) COLORS); PyDict_SetItemString(ModDict, "COLORS", c); Py_DECREF(c); cp = PyInt_FromLong((long) COLOR_PAIRS); PyDict_SetItemString(ModDict, "COLOR_PAIRS", cp); Py_DECREF(cp); Py_INCREF(Py_None); return Py_None; } else { PyErr_SetString(PyCursesError, "start_color() returned ERR"); return NULL; } } static PyObject * PyCurses_TypeAhead(self,arg) PyObject * self; PyObject * arg; { int fd, err; PyCursesInitialised if (!PyArg_Parse(arg,"i;fd",&fd)) return NULL; PyCursesCheckERR(typeahead( fd ), "typeahead"); Py_INCREF(Py_None); return Py_None; } static PyObject * PyCurses_UnCtrl(self,arg) PyObject * self; PyObject * arg; { PyObject *temp; chtype ch; PyCursesInitialised if (!PyArg_Parse(arg,"O;ch or int",&temp)) return NULL; if (PyInt_Check(temp)) ch = (chtype) PyInt_AsLong(temp); else if (PyString_Check(temp)) ch = (chtype) *PyString_AsString(temp); else { PyErr_SetString(PyExc_TypeError, "argument must be a ch or an int"); return NULL; } return PyString_FromString(unctrl(ch)); } static PyObject * PyCurses_UngetCh(self,arg) PyObject * self; PyObject * arg; { PyObject *temp; chtype ch; PyCursesInitialised if (!PyArg_Parse(arg,"O;ch or int",&temp)) return NULL; if (PyInt_Check(temp)) ch = (chtype) PyInt_AsLong(temp); else if (PyString_Check(temp)) ch = (chtype) *PyString_AsString(temp); else { PyErr_SetString(PyExc_TypeError, "argument must be a ch or an int"); return NULL; } return PyCursesCheckERR(ungetch(ch), "ungetch"); } static PyObject * PyCurses_Use_Env(self,arg) PyObject * self; PyObject * arg; { int flag; PyCursesInitialised switch(ARG_COUNT(arg)) { case 1: if (!PyArg_Parse(arg,"i;True(1), False(0)",&flag)) return NULL; break; default: PyErr_SetString(PyExc_TypeError, "use_env requires 1 argument"); return NULL; } use_env(flag); Py_INCREF(Py_None); return Py_None; } /* List of functions defined in the module */ static PyMethodDef PyCurses_methods[] = { {"baudrate", (PyCFunction)PyCurses_baudrate}, {"beep", (PyCFunction)PyCurses_beep}, {"can_change_color", (PyCFunction)PyCurses_can_change_color}, {"cbreak", (PyCFunction)PyCurses_cbreak}, {"color_content", (PyCFunction)PyCurses_Color_Content}, {"color_pair", (PyCFunction)PyCurses_color_pair}, {"curs_set", (PyCFunction)PyCurses_Curs_Set}, {"def_prog_mode", (PyCFunction)PyCurses_def_prog_mode}, {"def_shell_mode", (PyCFunction)PyCurses_def_shell_mode}, {"delay_output", (PyCFunction)PyCurses_Delay_Output}, {"doupdate", (PyCFunction)PyCurses_doupdate}, {"echo", (PyCFunction)PyCurses_echo}, {"endwin", (PyCFunction)PyCurses_endwin}, {"erasechar", (PyCFunction)PyCurses_EraseChar}, {"filter", (PyCFunction)PyCurses_filter}, {"flash", (PyCFunction)PyCurses_flash}, {"flushinp", (PyCFunction)PyCurses_flushinp}, {"getsyx", (PyCFunction)PyCurses_getsyx}, {"getwin", (PyCFunction)PyCurses_GetWin}, {"has_colors", (PyCFunction)PyCurses_has_colors}, {"has_ic", (PyCFunction)PyCurses_has_ic}, {"has_il", (PyCFunction)PyCurses_has_il}, #if !defined(__sgi__) && !defined(__sun__) {"has_key", (PyCFunction)PyCurses_has_key}, #endif {"halfdelay", (PyCFunction)PyCurses_HalfDelay}, {"init_color", (PyCFunction)PyCurses_Init_Color}, {"init_pair", (PyCFunction)PyCurses_Init_Pair}, {"initscr", (PyCFunction)PyCurses_InitScr}, {"intrflush", (PyCFunction)PyCurses_IntrFlush}, {"isendwin", (PyCFunction)PyCurses_isendwin}, {"keyname", (PyCFunction)PyCurses_KeyName}, {"killchar", (PyCFunction)PyCurses_KillChar}, {"longname", (PyCFunction)PyCurses_longname}, {"meta", (PyCFunction)PyCurses_Meta}, {"newpad", (PyCFunction)PyCurses_NewPad}, {"newwin", (PyCFunction)PyCurses_NewWindow}, {"nl", (PyCFunction)PyCurses_nl}, {"nocbreak", (PyCFunction)PyCurses_nocbreak}, {"noecho", (PyCFunction)PyCurses_noecho}, {"nonl", (PyCFunction)PyCurses_nonl}, {"noqiflush", (PyCFunction)PyCurses_noqiflush}, {"noraw", (PyCFunction)PyCurses_noraw}, {"pair_content", (PyCFunction)PyCurses_Pair_Content}, {"pair_number", (PyCFunction)PyCurses_pair_number}, {"putp", (PyCFunction)PyCurses_Putp}, {"qiflush", (PyCFunction)PyCurses_QiFlush}, {"raw", (PyCFunction)PyCurses_raw}, {"reset_prog_mode", (PyCFunction)PyCurses_reset_prog_mode}, {"reset_shell_mode", (PyCFunction)PyCurses_reset_shell_mode}, {"setsyx", (PyCFunction)PyCurses_setsyx}, {"start_color", (PyCFunction)PyCurses_Start_Color}, {"termattrs", (PyCFunction)PyCurses_termattrs}, {"termname", (PyCFunction)PyCurses_termname}, {"typeahead", (PyCFunction)PyCurses_TypeAhead}, {"unctrl", (PyCFunction)PyCurses_UnCtrl}, {"ungetch", (PyCFunction)PyCurses_UngetCh}, {"use_env", (PyCFunction)PyCurses_Use_Env}, {NULL, NULL} /* sentinel */ }; /* Initialization function for the module */ void init_curses() { PyObject *m, *d, *v; /* Create the module and add the functions */ m = Py_InitModule("_curses", PyCurses_methods); /* Add some symbolic constants to the module */ d = PyModule_GetDict(m); ModDict = d; /* For PyCurses_InitScr */ /* For exception curses.error */ PyCursesError = PyString_FromString("_curses.error"); PyDict_SetItemString(d, "error", PyCursesError); /* Make the version available */ v = PyString_FromString(PyCursesVersion); PyDict_SetItemString(d, "version", v); PyDict_SetItemString(d, "__version__", v); Py_DECREF(v); /* Here are some attributes you can add to chars to print */ SetDictInt("A_ATTRIBUTES", A_ATTRIBUTES); SetDictInt("A_NORMAL", A_NORMAL); SetDictInt("A_STANDOUT", A_STANDOUT); SetDictInt("A_UNDERLINE", A_UNDERLINE); SetDictInt("A_REVERSE", A_REVERSE); SetDictInt("A_BLINK", A_BLINK); SetDictInt("A_DIM", A_DIM); SetDictInt("A_BOLD", A_BOLD); SetDictInt("A_ALTCHARSET", A_ALTCHARSET); SetDictInt("A_INVIS", A_INVIS); SetDictInt("A_PROTECT", A_PROTECT); SetDictInt("A_CHARTEXT", A_CHARTEXT); SetDictInt("A_COLOR", A_COLOR); #if !defined(__sgi__) && !defined(__sun__) SetDictInt("A_HORIZONTAL", A_HORIZONTAL); SetDictInt("A_LEFT", A_LEFT); SetDictInt("A_LOW", A_LOW); SetDictInt("A_RIGHT", A_RIGHT); SetDictInt("A_TOP", A_TOP); SetDictInt("A_VERTICAL", A_VERTICAL); #endif SetDictInt("COLOR_BLACK", COLOR_BLACK); SetDictInt("COLOR_RED", COLOR_RED); SetDictInt("COLOR_GREEN", COLOR_GREEN); SetDictInt("COLOR_YELLOW", COLOR_YELLOW); SetDictInt("COLOR_BLUE", COLOR_BLUE); SetDictInt("COLOR_MAGENTA", COLOR_MAGENTA); SetDictInt("COLOR_CYAN", COLOR_CYAN); SetDictInt("COLOR_WHITE", COLOR_WHITE); /* Now set everything up for KEY_ variables */ { int key; char *key_n; char *key_n2; for (key=KEY_MIN;key < KEY_MAX; key++) { key_n = (char *)keyname(key); if (key_n == NULL || strcmp(key_n,"UNKNOWN KEY")==0) continue; if (strncmp(key_n,"KEY_F(",6)==0) { char *p1, *p2; key_n2 = malloc(strlen(key_n)+1); p1 = key_n; p2 = key_n2; while (*p1) { if (*p1 != '(' && *p1 != ')') { *p2 = *p1; p2++; } p1++; } *p2 = (char)0; } else key_n2 = key_n; PyDict_SetItemString(d,key_n2,PyInt_FromLong((long) key)); if (key_n2 != key_n) free(key_n2); } SetDictInt("KEY_MIN", KEY_MIN); SetDictInt("KEY_MAX", KEY_MAX); } /* Check for errors */ if (PyErr_Occurred()) Py_FatalError("can't initialize module _curses"); }