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/*
* This file is part of the Colobot: Gold Edition source code
* Copyright (C) 2001-2014, Daniel Roux, EPSITEC SA & TerranovaTeam
* http://epsiteс.ch; http://colobot.info; http://github.com/colobot
*
* 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 3 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, see http://gnu.org/licenses
*/
#include <stdio.h>
#include "object/task/taskmanager.h"
#include "common/iman.h"
#include "object/task/taskwait.h"
#include "object/task/taskadvance.h"
#include "object/task/taskturn.h"
#include "object/task/tasktake.h"
#include "object/task/taskbuild.h"
#include "object/task/tasksearch.h"
#include "object/task/taskterraform.h"
#include "object/task/taskpen.h"
#include "object/task/taskrecover.h"
#include "object/task/taskinfo.h"
#include "object/task/taskfire.h"
#include "object/task/taskfireant.h"
#include "object/task/taskgungoal.h"
#include "object/task/taskspiderexplo.h"
#include "object/task/taskreset.h"
// Object's constructor.
CTaskManager::CTaskManager(CObject* object)
{
m_task = nullptr;
m_object = object;
m_bPilot = false;
}
// Object's destructor.
CTaskManager::~CTaskManager()
{
delete m_task;
}
// Waits for a while.
Error CTaskManager::StartTaskWait(float time)
{
m_task = new CTaskWait(m_object);
return (static_cast<CTaskWait*>(m_task))->Start(time);
}
// Advance straight ahead a certain distance.
Error CTaskManager::StartTaskAdvance(float length)
{
m_task = new CTaskAdvance(m_object);
return (static_cast<CTaskAdvance*>(m_task))->Start(length);
}
// Turns through an certain angle.
Error CTaskManager::StartTaskTurn(float angle)
{
m_task = new CTaskTurn(m_object);
return (static_cast<CTaskTurn*>(m_task))->Start(angle);
}
// Reaches a given position.
Error CTaskManager::StartTaskGoto(Math::Vector pos, float altitude, TaskGotoGoal goalMode, TaskGotoCrash crashMode)
{
m_task = new CTaskGoto(m_object);
return (static_cast<CTaskGoto*>(m_task))->Start(pos, altitude, goalMode, crashMode);
}
// Move the manipulator arm.
Error CTaskManager::StartTaskTake()
{
m_task = new CTaskTake(m_object);
return (static_cast<CTaskTake*>(m_task))->Start();
}
// Move the manipulator arm.
Error CTaskManager::StartTaskManip(TaskManipOrder order, TaskManipArm arm)
{
m_task = new CTaskManip(m_object);
return (static_cast<CTaskManip*>(m_task))->Start(order, arm);
}
// Puts or removes a flag.
Error CTaskManager::StartTaskFlag(TaskFlagOrder order, int rank)
{
m_task = new CTaskFlag(m_object);
return (static_cast<CTaskFlag*>(m_task))->Start(order, rank);
}
// Builds a building.
Error CTaskManager::StartTaskBuild(ObjectType type)
{
m_task = new CTaskBuild(m_object);
return (static_cast<CTaskBuild*>(m_task))->Start(type);
}
// Probe the ground.
Error CTaskManager::StartTaskSearch()
{
m_task = new CTaskSearch(m_object);
return (static_cast<CTaskSearch*>(m_task))->Start();
}
// Reads an information terminal.
Error CTaskManager::StartTaskInfo(const char *name, float value, float power, bool bSend)
{
m_task = new CTaskInfo(m_object);
return (static_cast<CTaskInfo*>(m_task))->Start(name, value, power, bSend);
}
// Terraforms the ground.
Error CTaskManager::StartTaskTerraform()
{
m_task = new CTaskTerraform(m_object);
return (static_cast<CTaskTerraform*>(m_task))->Start();
}
// Changes the pencil.
Error CTaskManager::StartTaskPen(bool bDown, int color)
{
m_task = new CTaskPen(m_object);
return (static_cast<CTaskPen*>(m_task))->Start(bDown, color);
}
// Recovers a ruin.
Error CTaskManager::StartTaskRecover()
{
m_task = new CTaskRecover(m_object);
return (static_cast<CTaskRecover*>(m_task))->Start();
}
// Deploys the shield.
Error CTaskManager::StartTaskShield(TaskShieldMode mode, float delay)
{
if ( mode == TSM_UP )
{
m_task = new CTaskShield(m_object);
return (static_cast<CTaskShield*>(m_task))->Start(mode, delay);
}
if ( mode == TSM_DOWN && m_task != 0 )
{
return (static_cast<CTaskShield*>(m_task))->Start(mode, delay);
}
if ( mode == TSM_UPDATE && m_task != 0 )
{
return (static_cast<CTaskShield*>(m_task))->Start(mode, delay);
}
return ERR_GENERIC;
}
// Shoots.
Error CTaskManager::StartTaskFire(float delay)
{
m_bPilot = true;
m_task = new CTaskFire(m_object);
return (static_cast<CTaskFire*>(m_task))->Start(delay);
}
// Shoots with the ant.
Error CTaskManager::StartTaskFireAnt(Math::Vector impact)
{
m_task = new CTaskFireAnt(m_object);
return (static_cast<CTaskFireAnt*>(m_task))->Start(impact);
}
// Adjusts higher.
Error CTaskManager::StartTaskGunGoal(float dirV, float dirH)
{
m_task = new CTaskGunGoal(m_object);
return (static_cast<CTaskGunGoal*>(m_task))->Start(dirV, dirH);
}
// Suicide of the spider.
Error CTaskManager::StartTaskSpiderExplo()
{
m_task = new CTaskSpiderExplo(m_object);
return (static_cast<CTaskSpiderExplo*>(m_task))->Start();
}
// Reset.
Error CTaskManager::StartTaskReset(Math::Vector goal, Math::Vector angle)
{
m_task = new CTaskReset(m_object);
return (static_cast<CTaskReset*>(m_task))->Start(goal, angle);
}
// Management of an event.
bool CTaskManager::EventProcess(const Event &event)
{
if ( m_task == 0 ) return false;
return m_task->EventProcess(event);
}
// Indicates whether the action is finished.
Error CTaskManager::IsEnded()
{
if ( m_task == 0 ) return ERR_GENERIC;
return m_task->IsEnded();
}
// Indicates whether the action is pending.
bool CTaskManager::IsBusy()
{
if ( m_task == 0 ) return false;
return m_task->IsBusy();
}
// Indicates whether it is possible to control the robot
// during the execution of the current task.
bool CTaskManager::IsPilot()
{
return m_bPilot;
}
// Suddenly ends the current action.
bool CTaskManager::Abort()
{
if ( m_task == 0 ) return false;
return m_task->Abort();
}
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