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robot.cpp 6.78 KiB
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#include <cmath>


#include "odometrie.h"
#include "asservissement.h"
#include "strategie.h"
#include <iostream>

class OdoRobot : public Odometrie
{
private:
	Robot* robot;

public:
	OdoRobot(Robot* robot)
	{
		this->robot = robot;
	}

	PositionPlusAngle getPos()
	{
		return robot->pos;
	}

	{
		return robot->deriv.angle;
	}

	void setPos(PositionPlusAngle p)
	{
		robot->pos = p;
	}
};


Robot::Robot(b2World & world) : world(world), olds(10000)
	elem = NULL;
	joint = NULL;
	level = 0;
	command = new TrapezoidalCommand;
	Asservissement* asservissement = new Asservissement(odometrie, command);
	strategie = new Strategie(true, command, odometrie);
	asservissement->strategie = strategie;
	pos = odometrie->getPos();
	deriv.position.x = 0;
	deriv.position.y = 0;
	deriv.angle = 0;
#ifndef BOX2D_2_0_1
	bodyDef.type = b2_dynamicBody;
#endif
	bodyDef.position.Set(pos.position.x/100., pos.position.y/100.);
	b2PolygonDef box;
	b2PolygonDef &fixture = box;
#define CreateFixture CreateShape
#else
	b2PolygonShape box;
	b2FixtureDef fixture;
	fixture.shape = &box;
#endif
	fixture.density = 10.0f;
	fixture.friction = 1.0f;
	box.SetAsBox(1.15,1.795, b2Vec2(-1.49+1.04,0),0);
	v[inc++].Set(-.97+1.04,1.07);
	v[inc++].Set(.60+1.04,1.07);
	v[inc++].Set(0+1.04,1.795);
	v[inc++].Set(-0.97+1.04,1.795);
#ifndef BOX2D_2_0_1
	box.Set(v, 4);
#endif
	v[inc++].Set(-0.97+1.04,-1.795);
	v[inc++].Set(0+1.04,-1.795);
	v[inc++].Set(.60+1.04,-1.07);
	v[inc++].Set(-.97+1.04,-1.07);
#ifndef BOX2D_2_0_1
	box.Set(v, 4);
#endif
#ifdef BOX2D_2_0_1
	body->SetMassFromShapes();
#endif

	//Little hack so that linear and angular speed of the object
	//are those of the local coord (0,0) of the robot.
	//We don't really care of the mass center accuracy.
	b2MassData md;
	body->GetMassData(&md);
	md.center = b2Vec2(0,0);
	body->SetMassData(&md);
}

void Robot::updateForces(int dt)
{
	if(dt == 0)
		return;

	Position impulse;
	impulse.x = (deriv.position.x*(float)cos(pos.angle) - deriv.position.y*(float)sin(pos.angle));
	impulse.y = (deriv.position.x*(float)sin(pos.angle) + deriv.position.y*(float)cos(pos.angle));
	b2Vec2 bvelocity = 0.01*rdt*b2Vec2(impulse.x,impulse.y);
	//body->ApplyForce(10*body->GetMass()*(bimpulse - body->GetLinearVelocity()), body->GetWorldCenter());
	//body->ApplyTorque((bangular - body->GetAngularVelocity())*body->GetInertia());
		pos.position.x = 100*body->GetPosition().x;
		pos.position.y = 100*body->GetPosition().y;
		float rdt = (float)dt/1000.;
		deriv.angle = body->GetAngularVelocity()*rdt;
		float derx = 100*body->GetLinearVelocity().x*rdt;
		float dery = 100*body->GetLinearVelocity().y*rdt;

		deriv.position.x = derx*cos(pos.angle) + dery*sin(pos.angle);
		olds.push_back(pos);
		if(manual)
		{
			keyPressEvent(NULL,false);
			deriv.position.x = deriv.position.x* 0.97f;
			deriv.angle = deriv.angle * 0.9;
		}
		else
		{
			Asservissement::asservissement->update();
			deriv.position.x = command->getLinearSpeed();
			deriv.angle = command->getAngularSpeed();
	p.setWorldTransform(QTransform().translate(pos.position.x,-pos.position.y).rotateRadians(-pos.angle));
	p.setBrush(QBrush(QColor(90,90,90)));
	p.setOpacity(.3);
	po[inc++] = QPoint(0+104,-179.5);
	po[inc++] = QPoint(-262+104,-179.5);
	po[inc++] = QPoint(-262+104,179.5);
	po[inc++] = QPoint(0+104,179.5);
	po[inc++] = QPoint(60+104,114.5);
	po[inc++] = QPoint(60+104,-114.5);
	p.drawChord(-103/2 + 104, -107, 2*103, 215, 16*90, 16*180);
	//p.drawRect(-268, -179.5, 268, 359);
	//drawTriangle(p, 0, 0,  65, 0,  60, 0);
	p.drawLine(0,0,pos.position.x,0);
	p.setWorldTransform(QTransform());


	p.setPen(QColor(Qt::green));
	for(unsigned int i=0; i+1 < olds.size(); i++)
		p.drawLine(olds[i].position.x, -olds[i].position.y, olds[i+1].position.x, -olds[i+1].position.y);	

#define IF_KEYSWITCH(n,a) \
static bool n=false; \
if(evt) n= a ? press : n; if(n)

void Robot::keyPressEvent(QKeyEvent* evt, bool press)
{
	if(evt && press && evt->text() == "e" && !evt->isAutoRepeat())
		manual = !manual;

	if(evt && press && evt->text() == "i" && !evt->isAutoRepeat())
		makeJoint();

	if(evt && press && evt->text() == "u" && !evt->isAutoRepeat() && elem)
	{
		level = (level != 100) ? 100 : 0;
		b2Filter filter;
		if(level == 100)
		{
			filter.categoryBits = 0x4;
			filter.maskBits = 0x3;
		}
		else
		{
			filter.maskBits = 0x3;
			filter.categoryBits = 0x1;
			if(elem->type != Element::Pawn)
			{
				filter.categoryBits = 0x2;
				filter.maskBits |= 0x4;
			}
		}
		elem->body->GetFixtureList()[0].SetFilterData(filter);
	}



		IF_KEYSWITCH(avant,evt->key() == Qt::Key_Up)
			deriv.position.x += dinc;
		IF_KEYSWITCH(arriere,evt->key() == Qt::Key_Down)
			deriv.position.x -= dinc;
		IF_KEYSWITCH(gauche,evt->key() == Qt::Key_Right)
			deriv.angle -= ainc;
		IF_KEYSWITCH(droite,evt->key() == Qt::Key_Left)
			deriv.angle += ainc;
void Robot::makeJoint()
{
	if(!elem)
		return;

	if(joint)
	{
		world.DestroyJoint(joint);
		joint = NULL;
		level = 0;
	}
	else
	{
		b2WeldJointDef jointDef;
		jointDef.bodyA = body;
		jointDef.bodyB = elem->body;
		jointDef.localAnchorA = body->GetLocalPoint(elem->body->GetPosition());
		joint = world.CreateJoint(&jointDef);
	}
}

void Robot::interact(std::vector<class Element*> &elements)
{
	Element* ne = NULL;

	for(unsigned int i=0; i < elements.size(); i++)
	{
		Element* e = elements[i];
		float d = (e->body->GetPosition() - body->GetWorldPoint(b2Vec2(1.64, 0.))).LengthSquared();
		if(d < 0.01 && (e != elem || !ne))
			ne = e;
	}

	if(elem && elem == ne)
		return;

	if(level == 100 && elem && ne)
	{
		for(std::vector<Element*>::iterator iter = elements.begin(); iter != elements.end(); iter++)
			if(*iter == ne)
			{
				elements.erase(iter);
				break;
			}
		//std::remove(elements.begin(), elements.end(), ne);
		world.DestroyBody(ne->body);
		elem->multiplier += ne->multiplier;
		delete ne;
	}
	else
		elem = ne;
}