443 lines
12 KiB
C++
443 lines
12 KiB
C++
/**
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* Abstract class for sensor logic bricks
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*
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* $Id$
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*
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* ***** BEGIN GPL LICENSE BLOCK *****
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software Foundation,
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* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*
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* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
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* All rights reserved.
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*
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* The Original Code is: all of this file.
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*
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* Contributor(s): none yet.
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*
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* ***** END GPL LICENSE BLOCK *****
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*/
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#include "SCA_ISensor.h"
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#include "SCA_EventManager.h"
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#include "SCA_LogicManager.h"
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// needed for IsTriggered()
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#include "SCA_PythonController.h"
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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/* Native functions */
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void SCA_ISensor::ReParent(SCA_IObject* parent)
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{
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SCA_ILogicBrick::ReParent(parent);
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// will be done when the sensor is activated
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//m_eventmgr->RegisterSensor(this);
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this->SetActive(false);
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}
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SCA_ISensor::SCA_ISensor(SCA_IObject* gameobj,
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class SCA_EventManager* eventmgr,
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PyTypeObject* T ) :
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SCA_ILogicBrick(gameobj,T),
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m_triggered(false)
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{
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m_links = 0;
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m_suspended = false;
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m_invert = false;
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m_level = false;
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m_reset = false;
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m_pos_ticks = 0;
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m_neg_ticks = 0;
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m_pos_pulsemode = false;
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m_neg_pulsemode = false;
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m_pulse_frequency = 0;
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m_eventmgr = eventmgr;
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}
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SCA_ISensor::~SCA_ISensor()
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{
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// intentionally empty
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}
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bool SCA_ISensor::IsPositiveTrigger() {
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bool result = false;
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if (m_eventval) {
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result = (m_eventval->GetNumber() != 0.0);
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}
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if (m_invert) {
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result = !result;
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}
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return result;
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}
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void SCA_ISensor::SetPulseMode(bool posmode,
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bool negmode,
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int freq) {
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m_pos_pulsemode = posmode;
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m_neg_pulsemode = negmode;
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m_pulse_frequency = freq;
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}
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void SCA_ISensor::SetInvert(bool inv) {
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m_invert = inv;
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}
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void SCA_ISensor::SetLevel(bool lvl) {
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m_level = lvl;
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}
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float SCA_ISensor::GetNumber() {
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return IsPositiveTrigger();
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}
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void SCA_ISensor::Suspend() {
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m_suspended = true;
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}
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bool SCA_ISensor::IsSuspended() {
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return m_suspended;
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}
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void SCA_ISensor::Resume() {
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m_suspended = false;
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}
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void SCA_ISensor::Init() {
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printf("Sensor %s has no init function, please report this bug to Blender.org\n", m_name.Ptr());
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}
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void SCA_ISensor::DecLink() {
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m_links--;
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if (m_links < 0)
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{
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printf("Warning: sensor %s has negative m_links: %d\n", m_name.Ptr(), m_links);
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m_links = 0;
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}
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if (!m_links)
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{
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// sensor is detached from all controllers, remove it from manager
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UnregisterToManager();
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}
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}
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/* python integration */
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PyTypeObject SCA_ISensor::Type = {
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PyObject_HEAD_INIT(&PyType_Type)
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0,
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"SCA_ISensor",
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sizeof(SCA_ISensor),
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0,
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PyDestructor,
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0,
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__getattr,
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__setattr,
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0, //&MyPyCompare,
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__repr,
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0, //&cvalue_as_number,
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0,
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0,
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0,
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0
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};
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PyParentObject SCA_ISensor::Parents[] = {
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&SCA_ISensor::Type,
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&SCA_ILogicBrick::Type,
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&CValue::Type,
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NULL
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};
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PyMethodDef SCA_ISensor::Methods[] = {
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{"isPositive", (PyCFunction) SCA_ISensor::sPyIsPositive,
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METH_NOARGS, IsPositive_doc},
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{"isTriggered", (PyCFunction) SCA_ISensor::sPyIsTriggered,
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METH_VARARGS, IsTriggered_doc},
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{"getUsePosPulseMode", (PyCFunction) SCA_ISensor::sPyGetUsePosPulseMode,
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METH_NOARGS, GetUsePosPulseMode_doc},
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{"setUsePosPulseMode", (PyCFunction) SCA_ISensor::sPySetUsePosPulseMode,
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METH_VARARGS, SetUsePosPulseMode_doc},
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{"getFrequency", (PyCFunction) SCA_ISensor::sPyGetFrequency,
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METH_NOARGS, GetFrequency_doc},
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{"setFrequency", (PyCFunction) SCA_ISensor::sPySetFrequency,
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METH_VARARGS, SetFrequency_doc},
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{"getUseNegPulseMode", (PyCFunction) SCA_ISensor::sPyGetUseNegPulseMode,
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METH_NOARGS, GetUseNegPulseMode_doc},
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{"setUseNegPulseMode", (PyCFunction) SCA_ISensor::sPySetUseNegPulseMode,
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METH_VARARGS, SetUseNegPulseMode_doc},
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{"getInvert", (PyCFunction) SCA_ISensor::sPyGetInvert,
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METH_NOARGS, GetInvert_doc},
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{"setInvert", (PyCFunction) SCA_ISensor::sPySetInvert,
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METH_VARARGS, SetInvert_doc},
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{"getLevel", (PyCFunction) SCA_ISensor::sPyGetLevel,
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METH_NOARGS, GetLevel_doc},
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{"setLevel", (PyCFunction) SCA_ISensor::sPySetLevel,
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METH_VARARGS, SetLevel_doc},
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{"reset", (PyCFunction) SCA_ISensor::sPyReset,
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METH_NOARGS, Reset_doc},
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{NULL,NULL} //Sentinel
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};
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PyObject*
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SCA_ISensor::_getattr(const STR_String& attr)
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{
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_getattr_up(SCA_ILogicBrick);
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}
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void SCA_ISensor::RegisterToManager()
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{
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// sensor is just activated, initialize it
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Init();
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m_newControllers.erase(m_newControllers.begin(), m_newControllers.end());
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m_eventmgr->RegisterSensor(this);
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}
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void SCA_ISensor::UnregisterToManager()
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{
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m_eventmgr->RemoveSensor(this);
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}
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void SCA_ISensor::Activate(class SCA_LogicManager* logicmgr, CValue* event)
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{
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// calculate if a __triggering__ is wanted
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// don't evaluate a sensor that is not connected to any controller
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if (m_links && !m_suspended) {
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bool result = this->Evaluate(event);
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if (result) {
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logicmgr->AddActivatedSensor(this);
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// reset these counters so that pulse are synchronized with transition
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m_pos_ticks = 0;
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m_neg_ticks = 0;
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} else
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{
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/* First, the pulsing behaviour, if pulse mode is
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* active. It seems something goes wrong if pulse mode is
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* not set :( */
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if (m_pos_pulsemode) {
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m_pos_ticks++;
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if (m_pos_ticks > m_pulse_frequency) {
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if ( this->IsPositiveTrigger() )
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{
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logicmgr->AddActivatedSensor(this);
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}
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m_pos_ticks = 0;
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}
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}
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if (m_neg_pulsemode)
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{
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m_neg_ticks++;
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if (m_neg_ticks > m_pulse_frequency) {
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if (!this->IsPositiveTrigger() )
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{
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logicmgr->AddActivatedSensor(this);
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}
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m_neg_ticks = 0;
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}
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}
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}
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if (!m_newControllers.empty())
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{
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if (!IsActive() && m_level)
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{
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// This level sensor is connected to at least one controller that was just made
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// active but it did not generate an event yet, do it now to those controllers only
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for (std::vector<SCA_IController*>::iterator ci=m_newControllers.begin();
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ci != m_newControllers.end(); ci++)
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{
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logicmgr->AddTriggeredController(*ci, this);
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}
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}
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// clear the list. Instead of using clear, which also release the memory,
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// use erase, which keeps the memory available for next time.
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m_newControllers.erase(m_newControllers.begin(), m_newControllers.end());
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}
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}
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}
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/* Python functions: */
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char SCA_ISensor::IsPositive_doc[] =
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"isPositive()\n"
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"\tReturns whether the sensor is in an active state.\n";
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PyObject* SCA_ISensor::PyIsPositive(PyObject* self)
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{
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int retval = IsPositiveTrigger();
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return PyInt_FromLong(retval);
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}
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char SCA_ISensor::IsTriggered_doc[] =
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"isTriggered()\n"
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"\tReturns whether the sensor has triggered the current controller.\n";
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PyObject* SCA_ISensor::PyIsTriggered(PyObject* self)
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{
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// check with the current controller
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int retval = 0;
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if (SCA_PythonController::m_sCurrentController)
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retval = SCA_PythonController::m_sCurrentController->IsTriggered(this);
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return PyInt_FromLong(retval);
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}
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/**
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* getUsePulseMode: getter for the pulse mode (KX_TRUE = on)
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*/
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char SCA_ISensor::GetUsePosPulseMode_doc[] =
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"getUsePosPulseMode()\n"
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"\tReturns whether positive pulse mode is active.\n";
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PyObject* SCA_ISensor::PyGetUsePosPulseMode(PyObject* self)
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{
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return BoolToPyArg(m_pos_pulsemode);
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}
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/**
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* setUsePulseMode: setter for the pulse mode (KX_TRUE = on)
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*/
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char SCA_ISensor::SetUsePosPulseMode_doc[] =
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"setUsePosPulseMode(pulse?)\n"
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"\t - pulse? : Pulse when a positive event occurs?\n"
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"\t (KX_TRUE, KX_FALSE)\n"
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"\tSet whether to do pulsing when positive pulses occur.\n";
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PyObject* SCA_ISensor::PySetUsePosPulseMode(PyObject* self, PyObject* args, PyObject* kwds)
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{
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int pyarg = 0;
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if(!PyArg_ParseTuple(args, "i", &pyarg)) { return NULL; }
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m_pos_pulsemode = PyArgToBool(pyarg);
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Py_Return;
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}
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/**
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* getFrequency: getter for the pulse mode interval
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*/
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char SCA_ISensor::GetFrequency_doc[] =
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"getFrequency()\n"
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"\tReturns the frequency of the updates in pulse mode.\n" ;
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PyObject* SCA_ISensor::PyGetFrequency(PyObject* self)
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{
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return PyInt_FromLong(m_pulse_frequency);
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}
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/**
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* setFrequency: setter for the pulse mode (KX_TRUE = on)
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*/
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char SCA_ISensor::SetFrequency_doc[] =
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"setFrequency(pulse_frequency)\n"
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"\t- pulse_frequency: The frequency of the updates in pulse mode (integer)"
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"\tSet the frequency of the updates in pulse mode.\n"
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"\tIf the frequency is negative, it is set to 0.\n" ;
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PyObject* SCA_ISensor::PySetFrequency(PyObject* self, PyObject* args, PyObject* kwds)
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{
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int pulse_frequencyArg = 0;
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if(!PyArg_ParseTuple(args, "i", &pulse_frequencyArg)) {
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return NULL;
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}
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/* We can do three things here: clip, ignore and raise an exception. */
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/* Exceptions don't work yet, ignoring is not desirable now... */
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if (pulse_frequencyArg < 0) {
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pulse_frequencyArg = 0;
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};
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m_pulse_frequency = pulse_frequencyArg;
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Py_Return;
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}
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char SCA_ISensor::GetInvert_doc[] =
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"getInvert()\n"
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"\tReturns whether or not pulses from this sensor are inverted.\n" ;
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PyObject* SCA_ISensor::PyGetInvert(PyObject* self)
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{
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return BoolToPyArg(m_invert);
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}
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char SCA_ISensor::SetInvert_doc[] =
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"setInvert(invert?)\n"
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"\t- invert?: Invert the event-values? (KX_TRUE, KX_FALSE)\n"
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"\tSet whether to invert pulses.\n";
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PyObject* SCA_ISensor::PySetInvert(PyObject* self, PyObject* args, PyObject* kwds)
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{
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int pyarg = 0;
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if(!PyArg_ParseTuple(args, "i", &pyarg)) { return NULL; }
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m_invert = PyArgToBool(pyarg);
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Py_Return;
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}
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char SCA_ISensor::GetLevel_doc[] =
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"getLevel()\n"
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"\tReturns whether this sensor is a level detector or a edge detector.\n"
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"\tIt makes a difference only in case of logic state transition (state actuator).\n"
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"\tA level detector will immediately generate a pulse, negative or positive\n"
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"\tdepending on the sensor condition, as soon as the state is activated.\n"
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"\tA edge detector will wait for a state change before generating a pulse.\n";
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PyObject* SCA_ISensor::PyGetLevel(PyObject* self)
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{
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return BoolToPyArg(m_level);
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}
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char SCA_ISensor::SetLevel_doc[] =
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"setLevel(level?)\n"
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"\t- level?: Detect level instead of edge? (KX_TRUE, KX_FALSE)\n"
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"\tSet whether to detect level or edge transition when entering a state.\n";
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PyObject* SCA_ISensor::PySetLevel(PyObject* self, PyObject* args, PyObject* kwds)
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{
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int pyarg = 0;
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if(!PyArg_ParseTuple(args, "i", &pyarg)) { return NULL; }
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m_level = PyArgToBool(pyarg);
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Py_Return;
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}
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char SCA_ISensor::GetUseNegPulseMode_doc[] =
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"getUseNegPulseMode()\n"
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"\tReturns whether negative pulse mode is active.\n";
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PyObject* SCA_ISensor::PyGetUseNegPulseMode(PyObject* self)
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{
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return BoolToPyArg(m_neg_pulsemode);
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}
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char SCA_ISensor::SetUseNegPulseMode_doc[] =
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"setUseNegPulseMode(pulse?)\n"
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"\t - pulse? : Pulse when a negative event occurs?\n"
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"\t (KX_TRUE, KX_FALSE)\n"
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"\tSet whether to do pulsing when negative pulses occur.\n";
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PyObject* SCA_ISensor::PySetUseNegPulseMode(PyObject* self, PyObject* args, PyObject* kwds)
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{
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int pyarg = 0;
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if(!PyArg_ParseTuple(args, "i", &pyarg)) { return NULL; }
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m_neg_pulsemode = PyArgToBool(pyarg);
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Py_Return;
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}
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char SCA_ISensor::Reset_doc[] =
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"reset()\n"
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"\tReset sensor internal state, effect depends on the type of sensor and settings.\n"
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"\tThe sensor is put in its initial state as if it was just activated.\n";
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PyObject* SCA_ISensor::PyReset(PyObject* self)
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{
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Init();
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Py_Return;
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}
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/* eof */
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