cugl::physics2::PolygonObstacle Class Reference

#include <CUPolygonObstacle.h>

Inheritance diagram for cugl::physics2::PolygonObstacle:

Public Member Functions
	PolygonObstacle (void)
virtual	~PolygonObstacle ()
virtual bool	init (const Poly2 &poly)
virtual bool	init (const Poly2 &poly, const Vec2 anchor)
const Size	getSize () const
void	setSize (const Size value)
void	setSize (float width, float height)
float	getWidth () const
void	setWidth (float value)
float	getHeight () const
void	setHeight (float value)
const Vec2	getAnchor () const
void	setAnchor (const Vec2 value)
void	setAnchor (float x, float y)
const Poly2 &	getPolygon () const
void	setPolygon (const Poly2 &value)
virtual void	createFixtures () override
virtual void	releaseFixtures () override
Public Member Functions inherited from cugl::physics2::SimpleObstacle
	SimpleObstacle ()
virtual	~SimpleObstacle ()
virtual b2BodyType	getBodyType () const override
virtual void	setBodyType (b2BodyType value) override
virtual Vec2	getPosition () const override
virtual void	setPosition (const Vec2 value) override
virtual void	setPosition (float x, float y) override
virtual float	getX () const override
virtual void	setX (float value) override
virtual float	getY () const override
virtual void	setY (float value) override
virtual float	getAngle () const override
virtual void	setAngle (float value) override
virtual Vec2	getLinearVelocity () const override
virtual void	setLinearVelocity (const Vec2 value) override
virtual void	setLinearVelocity (float x, float y) override
virtual float	getVX () const override
virtual void	setVX (float value) override
virtual float	getVY () const override
virtual void	setVY (float value) override
virtual float	getAngularVelocity () const override
virtual void	setAngularVelocity (float value) override
virtual bool	isActive () const override
virtual void	setActive (bool value) override
virtual bool	isAwake () const override
virtual void	setAwake (bool value) override
virtual bool	isSleepingAllowed () const override
virtual void	setSleepingAllowed (bool value) override
virtual bool	isBullet () const override
virtual void	setBullet (bool value) override
virtual bool	isFixedRotation () const override
virtual void	setFixedRotation (bool value) override
virtual float	getGravityScale () const override
virtual void	setGravityScale (float value) override
virtual float	getLinearDamping () const override
virtual void	setLinearDamping (float value) override
virtual float	getAngularDamping () const override
virtual void	setAngularDamping (float value) override
virtual void	setDensity (float value) override
virtual void	setFriction (float value) override
virtual void	setRestitution (float value) override
virtual void	setSensor (bool value) override
virtual void	setFilterData (b2Filter value) override
virtual Vec2	getCentroid () const override
virtual void	setCentroid (const Vec2 value) override
virtual void	setCentroid (float x, float y) override
virtual float	getInertia () const override
virtual void	setInertia (float value) override
virtual float	getMass () const override
virtual void	setMass (float value) override
virtual void	resetMass () override
virtual b2Body *	getBody () override
virtual bool	activatePhysics (b2World &world) override
virtual void	deactivatePhysics (b2World &world) override
virtual void	update (float delta) override
int	getPositionSnap ()
void	setPositionSnap (unsigned int snap)
int	getAngleSnap ()
void	setAngleSnap (unsigned int snap)
Public Member Functions inherited from cugl::physics2::Obstacle
	Obstacle (void)
virtual	~Obstacle ()
virtual bool	init ()
virtual bool	init (const Vec2 vec)
void	setBodyState (const b2Body &body)
float	getDensity () const
float	getFriction () const
float	getRestitution () const
bool	isSensor () const
b2Filter	getFilterData () const
bool	isRemoved () const
void	markRemoved (bool value)
bool	isDirty () const
void	markDirty (bool value)
const std::function< void(Obstacle *obstacle)> &	getListener () const
void	setListener (const std::function< void(Obstacle *obstacle)> &listener)
std::string	getName () const
void	setName (std::string value)
std::string	toString () const
Color4	getDebugColor () const
virtual void	setDebugColor (Color4 color)
scene2::SceneNode *	getDebugScene () const
scene2::WireNode *	getDebugNode () const
virtual void	setDebugScene (const std::shared_ptr< scene2::SceneNode > &node)
bool	hasDebug ()

Static Public Member Functions
static std::shared_ptr< PolygonObstacle >	alloc (const Poly2 &poly)
static std::shared_ptr< PolygonObstacle >	alloc (const Poly2 &poly, const Vec2 anchor)

Protected Member Functions
void	resize (const Size size)
virtual void	resetDebug () override
void	resetShapes ()
Protected Member Functions inherited from cugl::physics2::SimpleObstacle
virtual void	updateDebug () override

Protected Attributes
Poly2	_polygon
b2PolygonShape *	_shapes
b2Fixture **	_geoms
Vec2	_anchor
int	_fixCount
Protected Attributes inherited from cugl::physics2::SimpleObstacle
b2Body *	_body
int	_posSnap
unsigned long	_posFact
int	_angSnap
unsigned long	_angFact
Protected Attributes inherited from cugl::physics2::Obstacle
b2BodyDef	_bodyinfo
b2FixtureDef	_fixture
b2MassData	_massdata
bool	_masseffect
std::shared_ptr< scene2::SceneNode >	_scene
std::shared_ptr< scene2::WireNode >	_debug
Color4	_dcolor
std::string	_tag
std::function< void(Obstacle *obstacle)>	_listener

Detailed Description

Arbitrary polygonal-shaped model to support collisions.

The polygon can be any one that is representable by a Poly2 object. That means that it does not need to be convex, but it cannot have holes or self intersections.

Constructor & Destructor Documentation

PolygonObstacle()

cugl::physics2::PolygonObstacle::PolygonObstacle ( void  )

inline

Creates an empty polygon at the origin.

NEVER USE A CONSTRUCTOR WITH NEW. If you want to allocate an object on the heap, use one of the static constructors instead.

~PolygonObstacle()

virtual cugl::physics2::PolygonObstacle::~PolygonObstacle ( )

virtual

Deletes this physics object and all of its resources.

A non-default destructor is necessary since we must release all the fixture pointers for the polygons.

Member Function Documentation

alloc() [1/2]

static std::shared_ptr<PolygonObstacle> cugl::physics2::PolygonObstacle::alloc ( const Poly2 &  poly )

inlinestatic

Returns a (not necessarily convex) polygon

The anchor point (the rotational center) of the polygon is at the center of the polygons bounding box.

Parameters

poly	The polygon vertices

Returns

a (not necessarily convex) polygon

alloc() [2/2]

static std::shared_ptr<PolygonObstacle> cugl::physics2::PolygonObstacle::alloc ( const Poly2 &  poly, const Vec2  anchor  )

inlinestatic

Returns a (not necessarily convex) polygon

The anchor point (the rotational center) of the polygon is specified as a ratio of the bounding box. An anchor point of (0,0) is the bottom left of the bounding box. An anchor point of (1,1) is the top right of the bounding box. The anchor point does not need to be contained with the bounding box.

Parameters

poly	The polygon vertices
anchor	The rotational center of the polygon

Returns

a (not necessarily convex) polygon

createFixtures()

virtual void cugl::physics2::PolygonObstacle::createFixtures ( )

overridevirtual

Create new fixtures for this body, defining the shape

This is the primary method to override for custom physics objects

Reimplemented from cugl::physics2::SimpleObstacle.

getAnchor()

const Vec2 cugl::physics2::PolygonObstacle::getAnchor ( ) const

inline

Returns the rotational center of this polygon

The anchor point of the polygon is specified as ratio of the bounding box. An anchor point of (0,0) is the bottom left of the bounding box. An anchor point of (1,1) is the top right of the bounding box. The anchorpoint does not need to be contained with the bounding box.

Returns

the rotational center of this polygon

getHeight()

float cugl::physics2::PolygonObstacle::getHeight ( ) const

inline

Returns the bounding box height

Returns

the bounding box height

getPolygon()

const Poly2& cugl::physics2::PolygonObstacle::getPolygon ( ) const

inline

Returns the polygon defining this object

Returns

the polygon defining this object

getSize()

const Size cugl::physics2::PolygonObstacle::getSize ( ) const

inline

Returns the dimensions of the bounding box

Returns

the dimensions of the bounding box

getWidth()

float cugl::physics2::PolygonObstacle::getWidth ( ) const

inline

Returns the bounding box width

Returns

the bounding box width

init() [1/2]

virtual bool cugl::physics2::PolygonObstacle::init ( const Poly2 &  poly )

inlinevirtual

Initializes a (not necessarily convex) polygon

The anchor point (the rotational center) of the polygon is at the center of the polygons bounding box.

Parameters

poly	The polygon vertices

Returns

true if the obstacle is initialized properly, false otherwise.

init() [2/2]

virtual bool cugl::physics2::PolygonObstacle::init ( const Poly2 &  poly, const Vec2  anchor  )

virtual

Initializes a (not necessarily convex) polygon

The anchor point (the rotational center) of the polygon is specified as a ratio of the bounding box. An anchor point of (0,0) is the bottom left of the bounding box. An anchor point of (1,1) is the top right of the bounding box. The anchor point does not need to be contained with the bounding box.

Parameters

poly	The polygon vertices
anchor	The rotational center of the polygon

Returns

true if the obstacle is initialized properly, false otherwise.

releaseFixtures()

virtual void cugl::physics2::PolygonObstacle::releaseFixtures ( )

overridevirtual

Release the fixtures for this body, reseting the shape

This is the primary method to override for custom physics objects

Reimplemented from cugl::physics2::SimpleObstacle.

resetDebug()

virtual void cugl::physics2::PolygonObstacle::resetDebug ( )

overrideprotectedvirtual

Creates the outline of the physics fixtures in the debug node

The debug node is use to outline the fixtures attached to this object. This is very useful when the fixtures have a very different shape than the texture (e.g. a circular shape attached to a square texture).

Reimplemented from cugl::physics2::Obstacle.

resetShapes()

void cugl::physics2::PolygonObstacle::resetShapes ( )

protected

Recreates the shape objects attached to this polygon.

This must be called whenever the polygon is resized.

resize()

void cugl::physics2::PolygonObstacle::resize ( const Size  size )

protected

Resets the polygon vertices in the shape to match the dimension.

This is an internal method and it does not mark the physics object as dirty.

Parameters

size	The new dimension (width and height)

setAnchor() [1/2]

void cugl::physics2::PolygonObstacle::setAnchor ( const Vec2  value )

inline

Sets the rotational center of this polygon

The anchor point of the polygon is specified as ratio of the bounding box. An anchor point of (0,0) is the bottom left of the bounding box. An anchor point of (1,1) is the top right of the bounding box. The anchorpoint does not need to be contained with the bounding box.

Parameters

value

the rotational center of this polygon

setAnchor() [2/2]

void cugl::physics2::PolygonObstacle::setAnchor	(	float	x,
		float	y
	)

Sets the rotational center of this polygon

The anchor point of the polygon is specified as ratio of the bounding box. An anchor point of (0,0) is the bottom left of the bounding box. An anchor point of (1,1) is the top right of the bounding box. The anchorpoint does not need to be contained with the bounding box.

Parameters

x	the x-coordinate of the rotational center
y	the y-coordinate of the rotational center

setHeight()

void cugl::physics2::PolygonObstacle::setHeight ( float  value )

inline

Sets the bounding box height

The vertices are rescaled according to their vertex origin. This change cannot happen immediately. It must wait until the next update is called. The current anchor point will be preserved.

Parameters

value

the bounding box height

setPolygon()

void cugl::physics2::PolygonObstacle::setPolygon

(

const Poly2 &

value

)

Sets the polygon defining this object

This change cannot happen immediately. It must wait until the next update is called. The current anchor point will be preserved.

Parameters

value

the polygon defining this object

setSize() [1/2]

void cugl::physics2::PolygonObstacle::setSize ( const Size  value )

inline

Sets the dimensions of the bounding box

The vertices are rescaled according to their vertex origin. This change cannot happen immediately. It must wait until the next update is called. The current anchor point will be preserved.

Parameters

value

the dimensions of the bounding box

setSize() [2/2]

void cugl::physics2::PolygonObstacle::setSize ( float  width, float  height  )

inline

Sets the dimensions of this box

Parameters

width	The width of this box
height	The height of this box

setWidth()

void cugl::physics2::PolygonObstacle::setWidth ( float  value )

inline

Sets the bounding box width

The vertices are rescaled according to their vertex origin. This change cannot happen immediately. It must wait until the next update is called. The current anchor point will be preserved.

Parameters

value

the bounding box width

Member Data Documentation

_anchor

Vec2 cugl::physics2::PolygonObstacle::_anchor

protected

Anchor point to synchronize with the scene graph

_fixCount

int cugl::physics2::PolygonObstacle::_fixCount

protected

In case the number of polygons changes

_geoms

b2Fixture** cugl::physics2::PolygonObstacle::_geoms

protected

A cache value for the fixtures (for resizing)

_polygon

Poly2 cugl::physics2::PolygonObstacle::_polygon

protected

The polygon vertices (for resizing)

_shapes

b2PolygonShape* cugl::physics2::PolygonObstacle::_shapes

protected

Shape information for this physics object

---

The documentation for this class was generated from the following file:

• include/cugl/physics2/CUPolygonObstacle.h