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test/source/blender/blenkernel/intern/sca.c
Benoit Bolsee fda00bc034 BGE patch: New Delay sensor (derived from patch #17472) 
Introduction of a new Delay sensor that can be used to 
generate positive and negative triggers at precise time,
expressed in number of frames. 
The delay parameter defines the length of the initial 
OFF period. A positive trigger is generated at the end
of this period. The duration parameter defines the 
length of the ON period following the OFF period.
A negative trigger is generated at the end of the ON period. 
If duration is 0, the sensor stays ON and there is no 
negative trigger. 
The sensor runs the OFF-ON cycle once unless the repeat 
option is set: the OFF-ON cycle repeats indefinately 
(or the OFF cycle if duration is 0).

The new generic SCA_ISensor::reset() Python function
can be used at any time to restart the sensor: the
current cycle is interrupted and no trigger is generated.
2008-08-16 20:45:37 +00:00

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/**
* $Id$
*
* ***** BEGIN GPL 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.
*
* 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.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
* these all are linked to objects (listbase)
* all data is 'direct data', not Blender lib data.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "nla.h" /* For __NLA: Important, do not remove */
#include "DNA_text_types.h"
#include "DNA_controller_types.h"
#include "DNA_sensor_types.h"
#include "DNA_actuator_types.h"
#include "DNA_object_types.h"
#include "BLI_blenlib.h"
#include "BKE_bad_level_calls.h"
#include "BKE_utildefines.h"
#include "BKE_global.h"
#include "BKE_main.h"
#include "BKE_blender.h"
#include "BKE_sca.h"
void free_text_controllers(Text *txt)
{
Object *ob;
bController *cont;
ob= G.main->object.first;
while(ob) {
cont= ob->controllers.first;
while(cont) {
if(cont->type==CONT_PYTHON) {
bPythonCont *pc;
pc= cont->data;
if(pc->text==txt) pc->text= NULL;
}
cont= cont->next;
}
ob= ob->id.next;
}
}
/* ******************* SENSORS ************************ */
void free_sensor(bSensor *sens)
{
if(sens->links) MEM_freeN(sens->links);
if(sens->data) MEM_freeN(sens->data);
MEM_freeN(sens);
}
void free_sensors(ListBase *lb)
{
bSensor *sens;
while((sens= lb->first)) {
BLI_remlink(lb, sens);
free_sensor(sens);
}
}
bSensor *copy_sensor(bSensor *sens)
{
bSensor *sensn;
sensn= MEM_dupallocN(sens);
sensn->flag |= SENS_NEW;
if(sens->data) {
sensn->data= MEM_dupallocN(sens->data);
}
if(sens->links) sensn->links= MEM_dupallocN(sens->links);
return sensn;
}
void copy_sensors(ListBase *lbn, ListBase *lbo)
{
bSensor *sens, *sensn;
lbn->first= lbn->last= 0;
sens= lbo->first;
while(sens) {
sensn= copy_sensor(sens);
BLI_addtail(lbn, sensn);
sens= sens->next;
}
}
void init_sensor(bSensor *sens)
{
/* also use when sensor changes type */
bNearSensor *ns;
bMouseSensor *ms;
if(sens->data) MEM_freeN(sens->data);
sens->data= NULL;
sens->pulse = 0;
switch(sens->type) {
case SENS_ALWAYS:
sens->pulse = 1;
break;
case SENS_TOUCH:
sens->data= MEM_callocN(sizeof(bTouchSensor), "touchsens");
break;
case SENS_NEAR:
ns=sens->data= MEM_callocN(sizeof(bNearSensor), "nearsens");
ns->dist= 1.0;
ns->resetdist= 2.0;
break;
case SENS_KEYBOARD:
sens->data= MEM_callocN(sizeof(bKeyboardSensor), "keysens");
break;
case SENS_PROPERTY:
sens->data= MEM_callocN(sizeof(bPropertySensor), "propsens");
break;
case SENS_ACTUATOR:
sens->data= MEM_callocN(sizeof(bActuatorSensor), "actsens");
break;
case SENS_DELAY:
sens->data= MEM_callocN(sizeof(bDelaySensor), "delaysens");
break;
case SENS_MOUSE:
ms=sens->data= MEM_callocN(sizeof(bMouseSensor), "mousesens");
ms->type= LEFTMOUSE;
break;
case SENS_COLLISION:
sens->data= MEM_callocN(sizeof(bCollisionSensor), "colsens");
break;
case SENS_RADAR:
sens->data= MEM_callocN(sizeof(bRadarSensor), "radarsens");
break;
case SENS_RANDOM:
sens->data= MEM_callocN(sizeof(bRandomSensor), "randomsens");
break;
case SENS_RAY:
sens->data= MEM_callocN(sizeof(bRaySensor), "raysens");
break;
case SENS_MESSAGE:
sens->data= MEM_callocN(sizeof(bMessageSensor), "messagesens");
break;
case SENS_JOYSTICK:
sens->data= MEM_callocN(sizeof(bJoystickSensor), "joysticksens");
break;
default:
; /* this is very severe... I cannot make any memory for this */
/* logic brick... */
}
}
bSensor *new_sensor(int type)
{
bSensor *sens;
sens= MEM_callocN(sizeof(bSensor), "Sensor");
sens->type= type;
sens->flag= SENS_SHOW;
init_sensor(sens);
strcpy(sens->name, "sensor");
make_unique_prop_names(sens->name);
return sens;
}
/* ******************* CONTROLLERS ************************ */
void unlink_controller(bController *cont)
{
bSensor *sens;
Object *ob;
int a, removed;
/* check for controller pointers in sensors */
ob= G.main->object.first;
while(ob) {
sens= ob->sensors.first;
while(sens) {
removed= 0;
for(a=0; a<sens->totlinks; a++) {
if(removed) (sens->links)[a-1] = (sens->links)[a];
else if((sens->links)[a] == cont) removed= 1;
}
if(removed) {
sens->totlinks--;
if(sens->totlinks==0) {
MEM_freeN(sens->links);
sens->links= NULL;
}
}
sens= sens->next;
}
ob= ob->id.next;
}
}
void unlink_controllers(ListBase *lb)
{
bController *cont;
for (cont= lb->first; cont; cont= cont->next)
unlink_controller(cont);
}
void free_controller(bController *cont)
{
if(cont->links) MEM_freeN(cont->links);
/* the controller itself */
if(cont->data) MEM_freeN(cont->data);
MEM_freeN(cont);
}
void free_controllers(ListBase *lb)
{
bController *cont;
while((cont= lb->first)) {
BLI_remlink(lb, cont);
if(cont->slinks) MEM_freeN(cont->slinks);
free_controller(cont);
}
}
bController *copy_controller(bController *cont)
{
bController *contn;
cont->mynew=contn= MEM_dupallocN(cont);
contn->flag |= CONT_NEW;
if(cont->data) {
contn->data= MEM_dupallocN(cont->data);
}
if(cont->links) contn->links= MEM_dupallocN(cont->links);
contn->slinks= NULL;
contn->totslinks= 0;
return contn;
}
void copy_controllers(ListBase *lbn, ListBase *lbo)
{
bController *cont, *contn;
lbn->first= lbn->last= 0;
cont= lbo->first;
while(cont) {
contn= copy_controller(cont);
BLI_addtail(lbn, contn);
cont= cont->next;
}
}
void init_controller(bController *cont)
{
/* also use when controller changes type, leave actuators... */
if(cont->data) MEM_freeN(cont->data);
cont->data= 0;
switch(cont->type) {
case CONT_EXPRESSION:
cont->data= MEM_callocN(sizeof(bExpressionCont), "expcont");
break;
case CONT_PYTHON:
cont->data= MEM_callocN(sizeof(bPythonCont), "pycont");
break;
}
}
bController *new_controller(int type)
{
bController *cont;
cont= MEM_callocN(sizeof(bController), "Controller");
cont->type= type;
cont->flag= CONT_SHOW;
init_controller(cont);
strcpy(cont->name, "cont");
make_unique_prop_names(cont->name);
return cont;
}
/* ******************* ACTUATORS ************************ */
void unlink_actuator(bActuator *act)
{
bController *cont;
Object *ob;
int a, removed;
/* check for actuator pointers in controllers */
ob= G.main->object.first;
while(ob) {
cont= ob->controllers.first;
while(cont) {
removed= 0;
for(a=0; a<cont->totlinks; a++) {
if(removed) (cont->links)[a-1] = (cont->links)[a];
else if((cont->links)[a] == act) removed= 1;
}
if(removed) {
cont->totlinks--;
if(cont->totlinks==0) {
MEM_freeN(cont->links);
cont->links= NULL;
}
}
cont= cont->next;
}
ob= ob->id.next;
}
}
void unlink_actuators(ListBase *lb)
{
bActuator *act;
for (act= lb->first; act; act= act->next)
unlink_actuator(act);
}
void free_actuator(bActuator *act)
{
if(act->data) MEM_freeN(act->data);
MEM_freeN(act);
}
void free_actuators(ListBase *lb)
{
bActuator *act;
while((act= lb->first)) {
BLI_remlink(lb, act);
free_actuator(act);
}
}
bActuator *copy_actuator(bActuator *act)
{
bActuator *actn;
act->mynew=actn= MEM_dupallocN(act);
actn->flag |= ACT_NEW;
if(act->data) {
actn->data= MEM_dupallocN(act->data);
}
return actn;
}
void copy_actuators(ListBase *lbn, ListBase *lbo)
{
bActuator *act, *actn;
lbn->first= lbn->last= 0;
act= lbo->first;
while(act) {
actn= copy_actuator(act);
BLI_addtail(lbn, actn);
act= act->next;
}
}
void init_actuator(bActuator *act)
{
/* also use when actuator changes type */
bObjectActuator *oa;
if(act->data) MEM_freeN(act->data);
act->data= 0;
switch(act->type) {
#ifdef __NLA
case ACT_ACTION:
case ACT_SHAPEACTION:
act->data= MEM_callocN(sizeof(bActionActuator), "actionact");
break;
#endif
case ACT_SOUND:
act->data= MEM_callocN(sizeof(bSoundActuator), "soundact");
break;
case ACT_CD:
act->data= MEM_callocN(sizeof(bCDActuator), "cdact");
break;
case ACT_OBJECT:
act->data= MEM_callocN(sizeof(bObjectActuator), "objectact");
oa= act->data;
oa->flag= 15;
break;
case ACT_IPO:
act->data= MEM_callocN(sizeof(bIpoActuator), "ipoact");
break;
case ACT_PROPERTY:
act->data= MEM_callocN(sizeof(bPropertyActuator), "propact");
break;
case ACT_CAMERA:
act->data= MEM_callocN(sizeof(bCameraActuator), "camact");
break;
case ACT_EDIT_OBJECT:
act->data= MEM_callocN(sizeof(bEditObjectActuator), "editobact");
break;
case ACT_CONSTRAINT:
act->data= MEM_callocN(sizeof(bConstraintActuator), "cons act");
break;
case ACT_SCENE:
act->data= MEM_callocN(sizeof(bSceneActuator), "scene act");
break;
case ACT_GROUP:
act->data= MEM_callocN(sizeof(bGroupActuator), "group act");
break;
case ACT_RANDOM:
act->data= MEM_callocN(sizeof(bRandomActuator), "random act");
break;
case ACT_MESSAGE:
act->data= MEM_callocN(sizeof(bMessageActuator), "message act");
break;
case ACT_GAME:
act->data= MEM_callocN(sizeof(bGameActuator), "game act");
break;
case ACT_VISIBILITY:
act->data= MEM_callocN(sizeof(bVisibilityActuator), "visibility act");
break;
case ACT_2DFILTER:
act->data = MEM_callocN(sizeof( bTwoDFilterActuator ), "2d filter act");
break;
case ACT_PARENT:
act->data = MEM_callocN(sizeof( bParentActuator ), "parent act");
break;
case ACT_STATE:
act->data = MEM_callocN(sizeof( bStateActuator ), "state act");
break;
default:
; /* this is very severe... I cannot make any memory for this */
/* logic brick... */
}
}
bActuator *new_actuator(int type)
{
bActuator *act;
act= MEM_callocN(sizeof(bActuator), "Actuator");
act->type= type;
act->flag= ACT_SHOW;
init_actuator(act);
strcpy(act->name, "act");
make_unique_prop_names(act->name);
return act;
}
/* ******************** GENERAL ******************* */
void clear_sca_new_poins_ob(Object *ob)
{
bSensor *sens;
bController *cont;
bActuator *act;
sens= ob->sensors.first;
while(sens) {
sens->flag &= ~SENS_NEW;
sens= sens->next;
}
cont= ob->controllers.first;
while(cont) {
cont->mynew= NULL;
cont->flag &= ~CONT_NEW;
cont= cont->next;
}
act= ob->actuators.first;
while(act) {
act->mynew= NULL;
act->flag &= ~ACT_NEW;
act= act->next;
}
}
void clear_sca_new_poins()
{
Object *ob;
ob= G.main->object.first;
while(ob) {
clear_sca_new_poins_ob(ob);
ob= ob->id.next;
}
}
void set_sca_new_poins_ob(Object *ob)
{
bSensor *sens;
bController *cont;
bActuator *act;
int a;
sens= ob->sensors.first;
while(sens) {
if(sens->flag & SENS_NEW) {
for(a=0; a<sens->totlinks; a++) {
if(sens->links[a] && sens->links[a]->mynew)
sens->links[a]= sens->links[a]->mynew;
}
}
sens= sens->next;
}
cont= ob->controllers.first;
while(cont) {
if(cont->flag & CONT_NEW) {
for(a=0; a<cont->totlinks; a++) {
if( cont->links[a] && cont->links[a]->mynew)
cont->links[a]= cont->links[a]->mynew;
}
}
cont= cont->next;
}
act= ob->actuators.first;
while(act) {
if(act->flag & ACT_NEW) {
if(act->type==ACT_EDIT_OBJECT) {
bEditObjectActuator *eoa= act->data;
ID_NEW(eoa->ob);
}
else if(act->type==ACT_SCENE) {
bSceneActuator *sca= act->data;
ID_NEW(sca->camera);
}
else if(act->type==ACT_CAMERA) {
bCameraActuator *ca= act->data;
ID_NEW(ca->ob);
}
else if(act->type==ACT_SCENE) {
bSceneActuator *sca= act->data;
ID_NEW(sca->camera);
}
}
act= act->next;
}
}
void set_sca_new_poins()
{
Object *ob;
ob= G.main->object.first;
while(ob) {
set_sca_new_poins_ob(ob);
ob= ob->id.next;
}
}
void sca_remove_ob_poin(Object *obt, Object *ob)
{
bSensor *sens;
bMessageSensor *ms;
bActuator *act;
bCameraActuator *ca;
bSceneActuator *sa;
bEditObjectActuator *eoa;
bPropertyActuator *pa;
bMessageActuator *ma;
sens= obt->sensors.first;
while(sens) {
switch(sens->type) {
case SENS_MESSAGE:
ms= sens->data;
if(ms->fromObject==ob) ms->fromObject= NULL;
}
sens= sens->next;
}
act= obt->actuators.first;
while(act) {
switch(act->type) {
case ACT_CAMERA:
ca= act->data;
if(ca->ob==ob) ca->ob= NULL;
break;
case ACT_PROPERTY:
pa= act->data;
if(pa->ob==ob) pa->ob= NULL;
break;
case ACT_SCENE:
sa= act->data;
if(sa->camera==ob) sa->camera= NULL;
break;
case ACT_EDIT_OBJECT:
eoa= act->data;
if(eoa->ob==ob) eoa->ob= NULL;
break;
case ACT_MESSAGE:
ma= act->data;
if(ma->toObject==ob) ma->toObject= NULL;
break;
}
act= act->next;
}
}
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