/* * $Id$ * * ***** BEGIN GPL/BL DUAL LICENSE BLOCK ***** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. The Blender * Foundation also sells licenses for use in proprietary software under * the Blender License. See http://www.blender.org/BL/ for information * about this. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * This is a new part of Blender. * * Contributor(s): Michel Selten, Willian P. Germano, Alex Mole, Ken Hughes * * ***** END GPL/BL DUAL LICENSE BLOCK ***** */ #include #include #include #include #include "gen_utils.h" #include "constant.h" /*****************************************************************************/ /* Description: This function clamps an int to the given interval */ /* [min, max]. */ /*****************************************************************************/ int EXPP_ClampInt( int value, int min, int max ) { if( value < min ) return min; else if( value > max ) return max; return value; } /*****************************************************************************/ /* Description: This function clamps a float to the given interval */ /* [min, max]. */ /*****************************************************************************/ float EXPP_ClampFloat( float value, float min, float max ) { if( value < min ) return min; else if( value > max ) return max; return value; } /*****************************************************************************/ /* Description: This function returns true if both given strings are equal, */ /* otherwise it returns false. */ /*****************************************************************************/ int StringEqual( const char *string1, const char *string2 ) { return ( strcmp( string1, string2 ) == 0 ); } /*****************************************************************************/ /* Description: This function returns the name of the given ID struct */ /* without the Object type identifying characters prepended. */ /*****************************************************************************/ char *GetIdName( ID * id ) { return ( ( id->name ) + 2 ); } /*****************************************************************************/ /* Description: This function returns the ID of the object with given name */ /* from a given list. */ /*****************************************************************************/ ID *GetIdFromList( ListBase * list, char *name ) { ID *id = list->first; while( id ) { if( strcmp( name, id->name + 2 ) == 0 ) break; id = id->next; } return id; } /*****************************************************************************/ /* Description: These functions set an internal string with the given type */ /* and error_msg arguments. */ /*****************************************************************************/ PyObject *EXPP_ReturnPyObjError( PyObject * type, char *error_msg ) { /* same as above, just to change its name smoothly */ PyErr_SetString( type, error_msg ); return NULL; } int EXPP_ReturnIntError( PyObject * type, char *error_msg ) { PyErr_SetString( type, error_msg ); return -1; } /*****************************************************************************/ /* Description: This function increments the reference count of the given */ /* Python object (usually Py_None) and returns it. */ /*****************************************************************************/ PyObject *EXPP_incr_ret( PyObject * object ) { Py_INCREF( object ); return ( object ); } /* return Py_False - to avoid warnings, we use the fact that * 0 == False in Python: */ PyObject *EXPP_incr_ret_False() { return Py_BuildValue("i", 0); } /* return Py_True - to avoid warnings, we use the fact that * 1 == True in Python: */ PyObject *EXPP_incr_ret_True() { return Py_BuildValue("i", 1); } /*****************************************************************************/ /* Description: This function maps the event identifier to a string. */ /*****************************************************************************/ char *event_to_name( short event ) { switch ( event ) { case SCRIPT_FRAMECHANGED: return "FrameChanged"; case SCRIPT_ONLOAD: return "OnLoad"; case SCRIPT_ONSAVE: return "OnSave"; case SCRIPT_REDRAW: return "Redraw"; case SCRIPT_RENDER: return "Render"; case SCRIPT_POSTRENDER: return "PostRender"; default: return "Unknown"; } } /*****************************************************************************/ /* Description: Checks whether all objects in a PySequence are of a same */ /* given type. Returns 0 if not, 1 on success. */ /*****************************************************************************/ int EXPP_check_sequence_consistency( PyObject * seq, PyTypeObject * against ) { PyObject *ob; int len = PySequence_Length( seq ); int i, result = 1; for( i = 0; i < len; i++ ) { ob = PySequence_GetItem( seq, i ); if( ob == Py_None ) result = 2; else if( ob->ob_type != against ) { Py_DECREF( ob ); return 0; } Py_DECREF( ob ); } return result; /* 1 if all of 'against' type, 2 if there are (also) Nones */ } PyObject *EXPP_tuple_repr( PyObject * self, int size ) { PyObject *repr, *item; int i; /*@ note: a value must be built because the list is decrefed! * otherwise we have nirvana pointers inside python.. */ repr = PyString_FromString( "" ); if( !repr ) return 0; item = PySequence_GetItem( self, 0 ); PyString_ConcatAndDel( &repr, PyObject_Repr( item ) ); Py_DECREF( item ); for( i = 1; i < size; i++ ) { item = PySequence_GetItem( self, i ); PyString_ConcatAndDel( &repr, PyObject_Repr( item ) ); Py_DECREF( item ); } return repr; } /****************************************************************************/ /* Description: searches through a map for a pair with a given name. If the */ /* pair is present, its ival is stored in *ival and nonzero is */ /* returned. If the pair is absent, zero is returned. */ /****************************************************************************/ int EXPP_map_getIntVal( const EXPP_map_pair * map, const char *sval, int *ival ) { while( map->sval ) { if( StringEqual( sval, map->sval ) ) { *ival = map->ival; return 1; } ++map; } return 0; } /* same as above, but string case is ignored */ int EXPP_map_case_getIntVal( const EXPP_map_pair * map, const char *sval, int *ival ) { while( map->sval ) { if( !BLI_strcasecmp( sval, map->sval ) ) { *ival = map->ival; return 1; } ++map; } return 0; } /****************************************************************************/ /* Description: searches through a map for a pair with a given name. If the */ /* pair is present, its ival is stored in *ival and nonzero is */ /* returned. If the pair is absent, zero is returned. */ /* note: this function is identical to EXPP_map_getIntVal except that the */ /* output is stored in a short value. */ /****************************************************************************/ int EXPP_map_getShortVal( const EXPP_map_pair * map, const char *sval, short *ival ) { while( map->sval ) { if( StringEqual( sval, map->sval ) ) { *ival = map->ival; return 1; } ++map; } return 0; } /****************************************************************************/ /* Description: searches through a map for a pair with a given ival. If the */ /* pair is present, a pointer to its name is stored in *sval */ /* and nonzero is returned. If the pair is absent, zero is */ /* returned. */ /****************************************************************************/ int EXPP_map_getStrVal( const EXPP_map_pair * map, int ival, const char **sval ) { while( map->sval ) { if( ival == map->ival ) { *sval = map->sval; return 1; } ++map; } return 0; } /* Redraw wrappers */ /* this queues redraws if we're not in background mode: */ void EXPP_allqueue(unsigned short event, short val) { if (!G.background) allqueue(event, val); } /************************************************************************/ /* Scriptlink-related functions, used by scene, object, etc. bpyobjects */ /************************************************************************/ PyObject *EXPP_getScriptLinks( ScriptLink * slink, PyObject * args, int is_scene ) { PyObject *list = NULL; char *eventname = NULL; int i, event = 0; /* actually !scriptlink shouldn't happen ... */ if( !slink || !slink->totscript ) return EXPP_incr_ret( Py_None ); if( !PyArg_ParseTuple( args, "s", &eventname ) ) return EXPP_ReturnPyObjError( PyExc_TypeError, "expected event name (string) as argument" ); list = PyList_New( 0 ); if( !list ) return EXPP_ReturnPyObjError( PyExc_MemoryError, "couldn't create PyList!" ); if( !strcmp( eventname, "FrameChanged" ) ) event = SCRIPT_FRAMECHANGED; else if( !strcmp( eventname, "Redraw" ) ) event = SCRIPT_REDRAW; else if( !strcmp( eventname, "Render" ) ) event = SCRIPT_RENDER; else if( is_scene && !strcmp( eventname, "OnLoad" ) ) event = SCRIPT_ONLOAD; else if( is_scene && !strcmp( eventname, "OnSave" ) ) event = SCRIPT_ONSAVE; else return EXPP_ReturnPyObjError( PyExc_AttributeError, "invalid event name" ); for( i = 0; i < slink->totscript; i++ ) { if( ( slink->flag[i] == event ) && slink->scripts[i] ) PyList_Append( list, PyString_FromString( slink->scripts[i]-> name + 2 ) ); } return list; } PyObject *EXPP_clearScriptLinks( ScriptLink * slink, PyObject * args ) { int i, j, totLinks, deleted = 0; PyObject *seq = NULL; ID **stmp = NULL; short *ftmp = NULL; /* check for an optional list of strings */ if( !PyArg_ParseTuple( args, "|O", &seq ) ) return ( EXPP_ReturnPyObjError ( PyExc_TypeError, "expected no arguments or a list of strings" ) ); /* if there was a parameter, handle it */ if ( seq != NULL ) { /* check that parameter IS list of strings */ if ( !PyList_Check ( seq ) ) return ( EXPP_ReturnPyObjError ( PyExc_TypeError, "expected a list of strings" ) ); totLinks = PyList_Size ( seq ); for ( i = 0 ; i < totLinks ; ++i ) { if ( !PyString_Check ( PySequence_GetItem( seq, i ) ) ) return ( EXPP_ReturnPyObjError ( PyExc_TypeError, "expected list to contain strings" ) ); } /* parameters OK: now look for each script, and delete its link as we find it (this handles multiple links) */ for ( i = 0 ; i < totLinks ; ++i ) { char *str; str = PyString_AsString ( PySequence_GetItem( seq, i ) ); for ( j = 0 ; j < slink->totscript ; ++j ) { if ( slink->scripts[j] && !strcmp ( slink->scripts[j]->name+2, str ) ) { slink->scripts[j] = NULL; ++deleted; } } } } /* if no parameter, then delete all scripts */ else { deleted = slink->totscript; } /* if not all scripts deleted, create new lists and copy remaining links to them */ if ( slink->totscript > deleted ) { slink->totscript -= deleted; stmp = slink->scripts; slink->scripts = MEM_mallocN( sizeof( ID * ) * ( slink->totscript ), "bpySlinkL" ); ftmp = slink->flag; slink->flag = MEM_mallocN( sizeof( short * ) * ( slink->totscript ), "bpySlinkF" ); for ( i = 0, j = 0 ; i < slink->totscript ; ++j ) { if ( stmp[j] != NULL ) { memcpy( slink->scripts+i, stmp+j, sizeof( ID * ) ); memcpy( slink->flag+i, ftmp+j, sizeof( short ) ); ++i; } } MEM_freeN( stmp ); MEM_freeN( ftmp ); /*EXPP_allqueue (REDRAWBUTSSCRIPT, 0 );*/ slink->actscript = 1; } else { /* all scripts deleted, so delete entire list and free memory */ if( slink->scripts ) MEM_freeN( slink->scripts ); if( slink->flag ) MEM_freeN( slink->flag ); slink->scripts = NULL; slink->flag = NULL; slink->totscript = slink->actscript = 0; } return EXPP_incr_ret( Py_None ); } PyObject *EXPP_addScriptLink(ScriptLink *slink, PyObject *args, int is_scene) { int event = 0, found_txt = 0; void *stmp = NULL, *ftmp = NULL; Text *bltxt = G.main->text.first; char *textname = NULL; char *eventname = NULL; /* !scriptlink shouldn't happen ... */ if( !slink ) { return EXPP_ReturnPyObjError( PyExc_RuntimeError, "internal error: no scriptlink!" ); } if( !PyArg_ParseTuple( args, "ss", &textname, &eventname ) ) return EXPP_ReturnPyObjError( PyExc_TypeError, "expected two strings as arguments" ); while( bltxt ) { if( !strcmp( bltxt->id.name + 2, textname ) ) { found_txt = 1; break; } bltxt = bltxt->id.next; } if( !found_txt ) return EXPP_ReturnPyObjError( PyExc_AttributeError, "no such Blender Text" ); if( !strcmp( eventname, "FrameChanged" ) ) event = SCRIPT_FRAMECHANGED; else if( !strcmp( eventname, "Redraw" ) ) event = SCRIPT_REDRAW; else if( !strcmp( eventname, "Render" ) ) event = SCRIPT_RENDER; else if( is_scene && !strcmp( eventname, "OnLoad" ) ) event = SCRIPT_ONLOAD; else if( is_scene && !strcmp( eventname, "OnSave" ) ) event = SCRIPT_ONSAVE; else return EXPP_ReturnPyObjError( PyExc_AttributeError, "invalid event name" ); stmp = slink->scripts; slink->scripts = MEM_mallocN( sizeof( ID * ) * ( slink->totscript + 1 ), "bpySlinkL" ); ftmp = slink->flag; slink->flag = MEM_mallocN( sizeof( short * ) * ( slink->totscript + 1 ), "bpySlinkF" ); if( slink->totscript ) { memcpy( slink->scripts, stmp, sizeof( ID * ) * ( slink->totscript ) ); MEM_freeN( stmp ); memcpy( slink->flag, ftmp, sizeof( short ) * ( slink->totscript ) ); MEM_freeN( ftmp ); } slink->scripts[slink->totscript] = ( ID * ) bltxt; slink->flag[slink->totscript] = event; slink->totscript++; if( slink->actscript < 1 ) slink->actscript = 1; return EXPP_incr_ret (Py_None); /* normal exit */ }