A perspective or orthographic camera. More...

Inheritance diagram for Camera:

Public Types

enum  Type { PERSPECTIVE, ORTHOGRAPHIC }
 Enumerates the two possible types of Camera. More...
 

Public Member Functions

 Camera ()
 Default constructor. More...
 
 Camera (const Camera &camera)
 Copy constructor. More...
 
virtual ~Camera ()
 Virtual destructor. More...
 
Cameraoperator= (const Camera &camera)
 Equal operator. More...
 

Friends

class ::QGLViewer
 

Position and orientation

Vec position () const
 Returns the Camera position (the eye), defined in the world coordinate system. More...
 
Vec upVector () const
 Returns the normalized up vector of the Camera, defined in the world coordinate system. More...
 
Vec viewDirection () const
 Returns the normalized view direction of the Camera, defined in the world coordinate system. More...
 
Vec rightVector () const
 Returns the normalized right vector of the Camera, defined in the world coordinate system. More...
 
Quaternion orientation () const
 Returns the Camera orientation, defined in the world coordinate system. More...
 
void setFromModelViewMatrix (const GLdouble *const modelViewMatrix)
 Sets the Camera's position() and orientation() from an OpenGL ModelView matrix. More...
 
void setFromProjectionMatrix (const float matrix[12])
 Defines the Camera position(), orientation() and fieldOfView() from a projection matrix. More...
 
void setPosition (const Vec &pos)
 Sets the Camera position() (the eye), defined in the world coordinate system. More...
 
void setOrientation (const Quaternion &q)
 Sets the Camera orientation(), defined in the world coordinate system. More...
 
void setOrientation (float theta, float phi)
 Sets the orientation() of the Camera using polar coordinates. More...
 
void setUpVector (const Vec &up, bool noMove=true)
 Rotates the Camera so that its upVector() becomes up (defined in the world coordinate system). More...
 
void setViewDirection (const Vec &direction)
 Rotates the Camera so that its viewDirection() is direction (defined in the world coordinate system). More...
 

Positioning tools

void lookAt (const Vec &target)
 Sets the Camera orientation(), so that it looks at point target (defined in the world coordinate system). More...
 
void showEntireScene ()
 Moves the Camera so that the entire scene is visible. More...
 
void fitSphere (const Vec &center, float radius)
 Moves the Camera so that the sphere defined by (center, radius) is visible and fits in the frustum. More...
 
void fitBoundingBox (const Vec &min, const Vec &max)
 Moves the Camera so that the (world axis aligned) bounding box (min, max) is entirely visible, using fitSphere(). More...
 
void fitScreenRegion (const QRect &rectangle)
 Moves the Camera so that the rectangular screen region defined by rectangle (pixel units, with origin in the upper left corner) fits the screen. More...
 
void centerScene ()
 Moves the Camera so that its sceneCenter() is projected on the center of the window. More...
 
void interpolateToZoomOnPixel (const QPoint &pixel)
 Makes the Camera smoothly zoom on the pointUnderPixel() pixel. More...
 
void interpolateToFitScene ()
 Interpolates the Camera on a one second KeyFrameInterpolator path so that the entire scene fits the screen at the end. More...
 
void interpolateTo (const Frame &fr, float duration)
 Smoothly interpolates the Camera on a KeyFrameInterpolator path so that it goes to fr. More...
 

Frustum

Type type () const
 Returns the Camera::Type of the Camera. More...
 
float fieldOfView () const
 Returns the vertical field of view of the Camera (in radians). More...
 
float horizontalFieldOfView () const
 Returns the horizontal field of view of the Camera (in radians). More...
 
float aspectRatio () const
 Returns the Camera aspect ratio defined by screenWidth() / screenHeight(). More...
 
int screenWidth () const
 Returns the width (in pixels) of the Camera screen. More...
 
int screenHeight () const
 Returns the height (in pixels) of the Camera screen. More...
 
void getViewport (GLint viewport[4]) const
 Fills viewport with the Camera OpenGL viewport. More...
 
float pixelGLRatio (const Vec &position) const
 Returns the ratio between pixel and OpenGL units at position. More...
 
float zNearCoefficient () const
 Returns the coefficient which is used to set zNear() when the Camera is inside the sphere defined by sceneCenter() and zClippingCoefficient() * sceneRadius(). More...
 
float zClippingCoefficient () const
 Returns the coefficient used to position the near and far clipping planes. More...
 
virtual float zNear () const
 Returns the near clipping plane distance used by the Camera projection matrix. More...
 
virtual float zFar () const
 Returns the far clipping plane distance used by the Camera projection matrix. More...
 
virtual void getOrthoWidthHeight (GLdouble &halfWidth, GLdouble &halfHeight) const
 Returns the halfWidth and halfHeight of the Camera orthographic frustum. More...
 
void getFrustumPlanesCoefficients (GLdouble coef[6][4]) const
 Returns the 6 plane equations of the Camera frustum. More...
 
void setType (Type type)
 Defines the Camera type(). More...
 
void setFieldOfView (float fov)
 Sets the vertical fieldOfView() of the Camera (in radians). More...
 
void setHorizontalFieldOfView (float hfov)
 Sets the horizontalFieldOfView() of the Camera (in radians). More...
 
void setFOVToFitScene ()
 Changes the Camera fieldOfView() so that the entire scene (defined by QGLViewer::sceneCenter() and QGLViewer::sceneRadius()) is visible from the Camera position(). More...
 
void setAspectRatio (float aspect)
 Defines the Camera aspectRatio(). More...
 
void setScreenWidthAndHeight (int width, int height)
 Sets Camera screenWidth() and screenHeight() (expressed in pixels). More...
 
void setZNearCoefficient (float coef)
 Sets the zNearCoefficient() value. More...
 
void setZClippingCoefficient (float coef)
 Sets the zClippingCoefficient() value. More...
 

Scene radius and center

float sceneRadius () const
 Returns the radius of the scene observed by the Camera. More...
 
Vec sceneCenter () const
 Returns the position of the scene center, defined in the world coordinate system. More...
 
float distanceToSceneCenter () const
 Returns the distance from the Camera center to sceneCenter(), projected along the Camera Z axis. More...
 
void setSceneRadius (float radius)
 Sets the sceneRadius() value. More...
 
void setSceneCenter (const Vec &center)
 Sets the sceneCenter(). More...
 
bool setSceneCenterFromPixel (const QPoint &pixel)
 setSceneCenter() to the result of pointUnderPixel(pixel). More...
 
void setSceneBoundingBox (const Vec &min, const Vec &max)
 Similar to setSceneRadius() and setSceneCenter(), but the scene limits are defined by a (world axis aligned) bounding box. More...
 

Pivot Point

Vec pivotPoint () const
 The point the Camera pivots around with the QGLViewer::ROTATE mouse binding. More...
 
Vec revolveAroundPoint () const
 
void setPivotPoint (const Vec &point)
 Changes the pivotPoint() to point (defined in the world coordinate system). More...
 
bool setPivotPointFromPixel (const QPoint &pixel)
 The pivotPoint() is set to the point located under pixel on screen. More...
 
void setRevolveAroundPoint (const Vec &point)
 
bool setRevolveAroundPointFromPixel (const QPoint &pixel)
 

Associated frame

ManipulatedCameraFrameframe () const
 Returns the ManipulatedCameraFrame attached to the Camera. More...
 
void setFrame (ManipulatedCameraFrame *const mcf)
 Sets the Camera frame(). More...
 

KeyFramed paths

KeyFrameInterpolatorkeyFrameInterpolator (int i) const
 Returns the KeyFrameInterpolator that defines the Camera path number i. More...
 
void setKeyFrameInterpolator (int i, KeyFrameInterpolator *const kfi)
 Sets the KeyFrameInterpolator that defines the Camera path of index i. More...
 
virtual void addKeyFrameToPath (int i)
 Adds the current Camera position() and orientation() as a keyFrame to the path number i. More...
 
virtual void playPath (int i)
 Makes the Camera follow the path of keyFrameInterpolator() number i. More...
 
virtual void deletePath (int i)
 Deletes the keyFrameInterpolator() of index i. More...
 
virtual void resetPath (int i)
 Resets the path of the keyFrameInterpolator() number i. More...
 
virtual void drawAllPaths ()
 Draws all the Camera paths defined by the keyFrameInterpolator(). More...
 

OpenGL matrices

virtual void loadProjectionMatrix (bool reset=true) const
 Loads the OpenGL GL_PROJECTION matrix with the Camera projection matrix. More...
 
virtual void loadModelViewMatrix (bool reset=true) const
 Loads the OpenGL GL_MODELVIEW matrix with the modelView matrix corresponding to the Camera. More...
 
void computeProjectionMatrix () const
 Computes the projection matrix associated with the Camera. More...
 
void computeModelViewMatrix () const
 Computes the modelView matrix associated with the Camera's position() and orientation(). More...
 
virtual void loadProjectionMatrixStereo (bool leftBuffer=true) const
 Same as loadProjectionMatrix() but for a stereo setup. More...
 
virtual void loadModelViewMatrixStereo (bool leftBuffer=true) const
 Same as loadModelViewMatrix() but for a stereo setup. More...
 
void getProjectionMatrix (GLfloat m[16]) const
 Overloaded getProjectionMatrix(GLdouble m[16]) method using a float array instead. More...
 
void getProjectionMatrix (GLdouble m[16]) const
 Fills m with the Camera projection matrix values. More...
 
void getModelViewMatrix (GLfloat m[16]) const
 Overloaded getModelViewMatrix(GLdouble m[16]) method using a float array instead. More...
 
void getModelViewMatrix (GLdouble m[16]) const
 Fills m with the Camera modelView matrix values. More...
 
void getModelViewProjectionMatrix (GLfloat m[16]) const
 Overloaded getModelViewProjectionMatrix(GLdouble m[16]) method using a float array instead. More...
 
void getModelViewProjectionMatrix (GLdouble m[16]) const
 Fills m with the product of the ModelView and Projection matrices. More...
 

Drawing

virtual void draw (bool drawFarPlane=true, float scale=1.0) const
 Draws a representation of the Camera in the 3D world. More...
 
static void drawCamera (float scale=1.0, float aspectRatio=1.33, float fieldOfView=M_PI/4.0)
 This method has been deprecated in libQGLViewer version 2.2.0. More...
 

World to Camera coordinate systems conversions

Vec cameraCoordinatesOf (const Vec &src) const
 Returns the Camera frame coordinates of a point src defined in world coordinates. More...
 
Vec worldCoordinatesOf (const Vec &src) const
 Returns the world coordinates of the point whose position src is defined in the Camera coordinate system. More...
 
void getCameraCoordinatesOf (const float src[3], float res[3]) const
 Same as cameraCoordinatesOf(), but with float[3] parameters (src and res may be identical pointers). More...
 
void getWorldCoordinatesOf (const float src[3], float res[3]) const
 Same as worldCoordinatesOf(), but with float[3] parameters (src and res may be identical pointers). More...
 

2D screen to 3D world coordinate systems conversions

Vec projectedCoordinatesOf (const Vec &src, const Frame *frame=NULL) const
 Returns the screen projected coordinates of a point src defined in the frame coordinate system. More...
 
Vec unprojectedCoordinatesOf (const Vec &src, const Frame *frame=NULL) const
 Returns the world unprojected coordinates of a point src defined in the screen coordinate system. More...
 
void getProjectedCoordinatesOf (const float src[3], float res[3], const Frame *frame=NULL) const
 Same as projectedCoordinatesOf(), but with float parameters (src and res can be identical pointers). More...
 
void getUnprojectedCoordinatesOf (const float src[3], float res[3], const Frame *frame=NULL) const
 Same as unprojectedCoordinatesOf(), but with float parameters (src and res can be identical pointers). More...
 
void convertClickToLine (const QPoint &pixel, Vec &orig, Vec &dir) const
 Gives the coefficients of a 3D half-line passing through the Camera eye and pixel (x,y). More...
 
Vec pointUnderPixel (const QPoint &pixel, bool &found) const
 Returns the coordinates of the 3D point located at pixel (x,y) on screen. More...
 

Fly speed

float flySpeed () const
 Returns the fly speed of the Camera. More...
 
void setFlySpeed (float speed)
 Sets the Camera flySpeed(). More...
 

Stereo parameters

float IODistance () const
 Returns the user's inter-ocular distance (in meters). More...
 
float physicalDistanceToScreen () const
 Returns the physical distance between the user's eyes and the screen (in meters). More...
 
float physicalScreenWidth () const
 Returns the physical screen width, in meters. More...
 
float focusDistance () const
 Returns the focus distance used by stereo display, expressed in OpenGL units. More...
 
void setIODistance (float distance)
 Sets the IODistance(). More...
 
void setPhysicalDistanceToScreen (float distance)
 This method is deprecated. More...
 
void setPhysicalScreenWidth (float width)
 Sets the physical screen (monitor or projected wall) width (in meters). More...
 
void setFocusDistance (float distance)
 Sets the focusDistance(), in OpenGL scene units. More...
 

XML representation

virtual QDomElement domElement (const QString &name, QDomDocument &document) const
 Returns an XML QDomElement that represents the Camera. More...
 
virtual void initFromDOMElement (const QDomElement &element)
 Restores the Camera state from a QDomElement created by domElement(). More...
 

Detailed Description

A perspective or orthographic camera.

A Camera defines some intrinsic parameters (fieldOfView(), position(), viewDirection(), upVector()...) and useful positioning tools that ease its placement (showEntireScene(), fitSphere(), lookAt()...). It exports its associated OpenGL projection and modelview matrices and can interactively be modified using the mouse.

Mouse manipulation

The position() and orientation() of the Camera are defined by a ManipulatedCameraFrame (retrieved using frame()). These methods are just convenient wrappers to the equivalent Frame methods. This also means that the Camera frame() can be attached to a Frame::referenceFrame() which enables complex Camera setups.

Different displacements can be performed using the mouse. The list of possible actions is defined by the QGLViewer::MouseAction enum. Use QGLViewer::setMouseBinding() to attach a specific action to an arbitrary mouse button-state key binding. These actions are detailed in the mouse page.

The default button binding are: QGLViewer::ROTATE (left), QGLViewer::ZOOM (middle) and QGLViewer::TRANSLATE (right). With this configuration, the Camera observes a scene and rotates around its pivotPoint(). You can switch between this mode and a fly mode using the QGLViewer::CAMERA_MODE (see QGLViewer::toggleCameraMode()) keyboard shortcut (default is 'Space').

Other functionalities

The type() of the Camera can be Camera::ORTHOGRAPHIC or Camera::PERSPECTIVE (see Type()). fieldOfView() is meaningless with Camera::ORTHOGRAPHIC.

The near and far planes of the Camera are fitted to the scene and determined from QGLViewer::sceneRadius(), QGLViewer::sceneCenter() and zClippingCoefficient() by the zNear() and zFar() methods. Reasonable values on the scene extends hence have to be provided to the QGLViewer in order for the Camera to correctly display the scene. High level positioning methods also use this information (showEntireScene(), centerScene()...).

A Camera holds KeyFrameInterpolator that can be used to save Camera positions and paths. You can interactively addKeyFrameToPath() to a given path using the default Alt+F[1-12] shortcuts. Use playPath() to make the Camera follow the path (default shortcut is F[1-12]). See the keyboard page for details on key customization.

Use cameraCoordinatesOf() and worldCoordinatesOf() to convert to and from the Camera frame() coordinate system. projectedCoordinatesOf() and unprojectedCoordinatesOf() will convert from screen to 3D coordinates. convertClickToLine() is very useful for analytical object selection.

Stereo display is possible on machines with quad buffer capabilities (with Camera::PERSPECTIVE type() only). Test the stereoViewer example to check.

A Camera can also be used outside of a QGLViewer or even without OpenGL for its coordinate system conversion capabilities. Note however that some of them explicitly rely on the presence of a Z-buffer.

Definition at line 84 of file camera.h.

Member Enumeration Documentation

enum Type

Enumerates the two possible types of Camera.

See type() and setType(). This type mainly defines different Camera projection matrix (see loadProjectionMatrix()). Many other methods (pointUnderPixel(), convertClickToLine(), projectedCoordinatesOf(), pixelGLRatio()...) are affected by this Type.

Definition at line 105 of file camera.h.

Constructor & Destructor Documentation

~Camera ( )
virtual

Virtual destructor.

The frame() is deleted, but the different keyFrameInterpolator() are not deleted (in case they are shared).

Definition at line 86 of file camera.cpp.

Camera ( const Camera camera)

Copy constructor.

Performs a deep copy using operator=().

Definition at line 94 of file camera.cpp.

References Camera::frame(), and Camera::setFrame().

Member Function Documentation

void addKeyFrameToPath ( int  i)
virtualslot

Adds the current Camera position() and orientation() as a keyFrame to the path number i.

This method can also be used if you simply want to save a Camera point of view (a path made of a single keyFrame). Use playPath() to make the Camera play the keyFrame path (resp. restore the point of view). Use deletePath() to clear the path.

The default keyboard shortcut for this method is Alt+F[1-12]. Set QGLViewer::pathKey() and QGLViewer::addKeyFrameKeyboardModifiers().

If you use directly this method and the keyFrameInterpolator(i) does not exist, a new one is created. Its KeyFrameInterpolator::interpolated() signal should then be connected to the QGLViewer::update() slot (see setKeyFrameInterpolator()).

Definition at line 1710 of file camera.cpp.

References Camera::frame(), and Camera::setKeyFrameInterpolator().

Referenced by QGLViewer::keyPressEvent().

float aspectRatio ( ) const
inline

Returns the Camera aspect ratio defined by screenWidth() / screenHeight().

When the Camera is attached to a QGLViewer, these values and hence the aspectRatio() are automatically fitted to the viewer's window aspect ratio using setScreenWidthAndHeight().

Definition at line 185 of file camera.h.

Referenced by Camera::computeProjectionMatrix(), Camera::convertClickToLine(), Camera::draw(), Camera::fitScreenRegion(), Camera::getOrthoWidthHeight(), StandardCamera::getOrthoWidthHeight(), and Camera::loadProjectionMatrixStereo().

Vec cameraCoordinatesOf ( const Vec src) const

Returns the Camera frame coordinates of a point src defined in world coordinates.

worldCoordinatesOf() performs the inverse transformation.

Note that the point coordinates are simply converted in a different coordinate system. They are not projected on screen. Use projectedCoordinatesOf() for that.

Definition at line 1248 of file camera.cpp.

References Frame::coordinatesOf(), and Camera::frame().

Referenced by Camera::getCameraCoordinatesOf(), Camera::getOrthoWidthHeight(), and Camera::setPivotPoint().

void centerScene ( )
slot

Moves the Camera so that its sceneCenter() is projected on the center of the window.

The orientation() and fieldOfView() are unchanged.

Simply projects the current position on a line passing through sceneCenter(). See also showEntireScene().

Definition at line 997 of file camera.cpp.

References Camera::frame(), Frame::projectOnLine(), Camera::sceneCenter(), and Camera::viewDirection().

void computeModelViewMatrix ( ) const

Computes the modelView matrix associated with the Camera's position() and orientation().

This matrix converts from the world coordinates system to the Camera coordinates system, so that coordinates can then be projected on screen using the projection matrix (see computeProjectionMatrix()).

Use getModelViewMatrix() to retrieve this matrix.

Note
You must call this method if your Camera is not associated with a QGLViewer and is used for offscreen computations (using (un)projectedCoordinatesOf() for instance). loadModelViewMatrix() does it otherwise.

Definition at line 400 of file camera.cpp.

References Camera::frame(), Frame::orientation(), and Camera::position().

Referenced by Camera::getModelViewMatrix(), Camera::loadModelViewMatrix(), Camera::loadModelViewMatrixStereo(), and Camera::operator=().

void computeProjectionMatrix ( ) const

Computes the projection matrix associated with the Camera.

If type() is Camera::PERSPECTIVE, defines a GL_PROJECTION matrix similar to what would gluPerspective() do using the fieldOfView(), window aspectRatio(), zNear() and zFar() parameters.

If type() is Camera::ORTHOGRAPHIC, the projection matrix is as what glOrtho() would do. Frustum's width and height are set using getOrthoWidthHeight().

Both types use zNear() and zFar() to place clipping planes. These values are determined from sceneRadius() and sceneCenter() so that they best fit the scene size.

Use getProjectionMatrix() to retrieve this matrix. Overload loadProjectionMatrix() if you want your Camera to use an exotic projection matrix.

Note
You must call this method if your Camera is not associated with a QGLViewer and is used for offscreen computations (using (un)projectedCoordinatesOf() for instance). loadProjectionMatrix() does it otherwise.

Definition at line 350 of file camera.cpp.

References Camera::aspectRatio(), Camera::fieldOfView(), Camera::getOrthoWidthHeight(), Camera::type(), Camera::zFar(), and Camera::zNear().

Referenced by Camera::Camera(), Camera::getProjectionMatrix(), Camera::loadProjectionMatrix(), and Camera::operator=().

void convertClickToLine ( const QPoint &  pixel,
Vec orig,
Vec dir 
) const

Gives the coefficients of a 3D half-line passing through the Camera eye and pixel (x,y).

The origin of the half line (eye position) is stored in orig, while dir contains the properly oriented and normalized direction of the half line.

x and y are expressed in Qt format (origin in the upper left corner). Use screenHeight() - y to convert to OpenGL units.

This method is useful for analytical intersection in a selection method.

See the select example for an illustration.

Definition at line 1940 of file camera.cpp.

References Camera::aspectRatio(), Camera::fieldOfView(), Camera::getOrthoWidthHeight(), Vec::normalize(), Camera::position(), Camera::screenHeight(), Camera::screenWidth(), Camera::type(), Camera::viewDirection(), and Camera::worldCoordinatesOf().

Referenced by Camera::fitScreenRegion().

void deletePath ( int  i)
virtualslot

Deletes the keyFrameInterpolator() of index i.

Disconnect the keyFrameInterpolator() KeyFrameInterpolator::interpolated() signal before deleting the keyFrameInterpolator() if needed:

disconnect(camera()->keyFrameInterpolator(i), SIGNAL(interpolated()), this, SLOT(update()));
camera()->deletePath(i);

Definition at line 1762 of file camera.cpp.

Referenced by Camera::initFromDOMElement(), and QGLViewer::keyPressEvent().

float distanceToSceneCenter ( ) const

Returns the distance from the Camera center to sceneCenter(), projected along the Camera Z axis.

Used by zNear() and zFar() to optimize the Z range.

Definition at line 303 of file camera.cpp.

References Camera::frame(), and Camera::sceneCenter().

Referenced by Camera::fitScreenRegion(), Camera::setFOVToFitScene(), Camera::zFar(), and Camera::zNear().

QDomElement domElement ( const QString &  name,
QDomDocument &  document 
) const
virtual

Returns an XML QDomElement that represents the Camera.

name is the name of the QDomElement tag. doc is the QDomDocument factory used to create QDomElement.

Concatenates the Camera parameters, the ManipulatedCameraFrame::domElement() and the paths' KeyFrameInterpolator::domElement().

Use initFromDOMElement() to restore the Camera state from the resulting QDomElement.

If you want to save the Camera state in a file, use:

QDomDocument document("myCamera");
doc.appendChild( myCamera->domElement("Camera", document) );
QFile f("myCamera.xml");
if (f.open(IO_WriteOnly))
{
QTextStream out(&f);
document.save(out, 2);
}

Note that the QGLViewer::camera() is automatically saved by QGLViewer::saveStateToFile() when a QGLViewer is closed. Use QGLViewer::restoreStateFromFile() to restore it back.

Definition at line 1811 of file camera.cpp.

References Camera::fieldOfView(), Camera::focusDistance(), Camera::frame(), Camera::IODistance(), Camera::physicalScreenWidth(), Camera::sceneCenter(), Camera::sceneRadius(), Camera::type(), Camera::zClippingCoefficient(), and Camera::zNearCoefficient().

void draw ( bool  drawFarPlane = true,
float  scale = 1.0 
) const
virtual

Draws a representation of the Camera in the 3D world.

The near and far planes are drawn as quads, the frustum is drawn using lines and the camera up vector is represented by an arrow to disambiguate the drawing. See the standardCamera example for an illustration.

Note that the current glColor and glPolygonMode are used to draw the near and far planes. See the frustumCulling example for an example of semi-transparent plane drawing. Similarly, the current glLineWidth and glColor is used to draw the frustum outline.

When drawFarPlane is false, only the near plane is drawn. scale can be used to scale the drawing: a value of 1.0 (default) will draw the Camera's frustum at its actual size.

This method assumes that the glMatrixMode is GL_MODELVIEW and that the current ModelView matrix corresponds to the world coordinate system (as it is at the beginning of QGLViewer::draw()). The Camera is then correctly positioned and orientated.

Note
The drawing of a QGLViewer's own QGLViewer::camera() should not be visible, but may create artefacts due to numerical imprecisions.

Definition at line 1993 of file camera.cpp.

References Camera::aspectRatio(), Camera::fieldOfView(), Camera::frame(), Camera::getOrthoWidthHeight(), Camera::type(), Camera::zFar(), and Camera::zNear().

void drawAllPaths ( )
virtualslot

Draws all the Camera paths defined by the keyFrameInterpolator().

Simply calls KeyFrameInterpolator::drawPath() for all the defined paths. The path color is the current glColor().

Attention
The OpenGL state is modified by this method: see KeyFrameInterpolator::drawPath().

Definition at line 1778 of file camera.cpp.

References Camera::sceneRadius().

Referenced by QGLViewer::postDraw().

void drawCamera ( float  scale = 1.0,
float  aspectRatio = 1.33,
float  fieldOfView = M_PI/4.0 
)
static

This method has been deprecated in libQGLViewer version 2.2.0.

Definition at line 1967 of file camera.cpp.

float fieldOfView ( ) const
inline

Returns the vertical field of view of the Camera (in radians).

Value is set using setFieldOfView(). Default value is pi/4 radians. This value is meaningless if the Camera type() is Camera::ORTHOGRAPHIC.

The field of view corresponds the one used in gluPerspective (see manual). It sets the Y (vertical) aperture of the Camera. The X (horizontal) angle is inferred from the window aspect ratio (see aspectRatio() and horizontalFieldOfView()).

Use setFOVToFitScene() to adapt the fieldOfView() to a given scene.

Definition at line 170 of file camera.h.

Referenced by Camera::Camera(), Camera::computeProjectionMatrix(), Camera::convertClickToLine(), Camera::domElement(), Camera::draw(), Camera::fitScreenRegion(), Camera::fitSphere(), Camera::getFrustumPlanesCoefficients(), Camera::initFromDOMElement(), ManipulatedCameraFrame::mouseMoveEvent(), ManipulatedFrame::mouseMoveEvent(), Camera::operator=(), Camera::pixelGLRatio(), Camera::setSceneRadius(), and Camera::setType().

void fitBoundingBox ( const Vec min,
const Vec max 
)
slot

Moves the Camera so that the (world axis aligned) bounding box (min, max) is entirely visible, using fitSphere().

Definition at line 1044 of file camera.cpp.

References Camera::fitSphere().

void fitScreenRegion ( const QRect &  rectangle)
slot

Moves the Camera so that the rectangular screen region defined by rectangle (pixel units, with origin in the upper left corner) fits the screen.

The Camera is translated (its orientation() is unchanged) so that rectangle is entirely visible. Since the pixel coordinates only define a frustum in 3D, it's the intersection of this frustum with a plane (orthogonal to the viewDirection() and passing through the sceneCenter()) that is used to define the 3D rectangle that is eventually fitted.

Definition at line 1058 of file camera.cpp.

References Camera::aspectRatio(), Camera::convertClickToLine(), Camera::distanceToSceneCenter(), Camera::fieldOfView(), Camera::frame(), Camera::horizontalFieldOfView(), Camera::pivotPoint(), Frame::setPositionWithConstraint(), Camera::type(), and Camera::viewDirection().

Referenced by ManipulatedCameraFrame::mouseReleaseEvent().

void fitSphere ( const Vec center,
float  radius 
)
slot

Moves the Camera so that the sphere defined by (center, radius) is visible and fits in the frustum.

The Camera is simply translated to center the sphere in the screen and make it fit the frustum. Its orientation() and its fieldOfView() are unchanged.

You should therefore orientate the Camera before you call this method. See lookAt(), setOrientation() and setUpVector().

Definition at line 1020 of file camera.cpp.

References Camera::fieldOfView(), Camera::frame(), Camera::horizontalFieldOfView(), Camera::pivotPoint(), Frame::setPositionWithConstraint(), Camera::type(), and Camera::viewDirection().

Referenced by Camera::fitBoundingBox(), and Camera::showEntireScene().

float flySpeed ( ) const

Returns the fly speed of the Camera.

Simply returns frame()->flySpeed(). See the ManipulatedCameraFrame::flySpeed() documentation. This value is only meaningful when the MouseAction bindings is QGLViewer::MOVE_FORWARD or QGLViewer::MOVE_BACKWARD.

Set to 1% of the sceneRadius() by setSceneRadius(). See also setFlySpeed().

Definition at line 1263 of file camera.cpp.

References ManipulatedCameraFrame::flySpeed(), and Camera::frame().

float focusDistance ( ) const
inline

Returns the focus distance used by stereo display, expressed in OpenGL units.

This is the distance in the virtual world between the Camera and the plane where the horizontal stereo parallax is null (the stereo left and right cameras' lines of sigth cross at this distance).

This distance is the virtual world equivalent of the real-world physicalDistanceToScreen().

Attention
This value is modified by QGLViewer::setSceneRadius(), setSceneRadius() and setFieldOfView(). When one of these values is modified, focusDistance() is set to sceneRadius() / tan(fieldOfView()/2), which provides good results.

Definition at line 452 of file camera.h.

Referenced by Camera::domElement(), Camera::initFromDOMElement(), Camera::loadModelViewMatrixStereo(), Camera::loadProjectionMatrixStereo(), and Camera::operator=().

ManipulatedCameraFrame* frame ( ) const
inline

Returns the ManipulatedCameraFrame attached to the Camera.

This ManipulatedCameraFrame defines its position() and orientation() and can translate mouse events into Camera displacement. Set using setFrame().

Definition at line 334 of file camera.h.

Referenced by Camera::addKeyFrameToPath(), Camera::Camera(), Camera::cameraCoordinatesOf(), Camera::centerScene(), Camera::computeModelViewMatrix(), CameraConstraint::constrainTranslation(), Camera::distanceToSceneCenter(), Camera::domElement(), RenderWorld::draw(), Camera::draw(), QGLViewer::drawVisualHints(), Camera::fitScreenRegion(), Camera::fitSphere(), Camera::flySpeed(), RenderWorld::init(), Camera::initFromDOMElement(), Camera::interpolateTo(), Camera::interpolateToFitScene(), Camera::interpolateToZoomOnPixel(), ManipulatedFrame::mouseDoubleClickEvent(), ManipulatedCameraFrame::mouseMoveEvent(), ManipulatedFrame::mouseMoveEvent(), QGLViewer::mouseMoveEvent(), QGLViewer::mousePressEvent(), QGLViewer::mouseReleaseEvent(), Camera::orientation(), Camera::pivotPoint(), Camera::pixelGLRatio(), Camera::position(), RenderWorld::resourceChanged(), Camera::rightVector(), QGLViewer::setCamera(), Camera::setFlySpeed(), Camera::setFrame(), QGLViewer::setManipulatedFrame(), QGLViewer::setMouseGrabber(), Camera::setOrientation(), Camera::setPivotPoint(), Camera::setPosition(), Camera::setSceneRadius(), Camera::setUpVector(), Camera::setViewDirection(), QGLViewer::toggleCameraMode(), Camera::upVector(), Camera::viewDirection(), QGLViewer::wheelEvent(), and Camera::worldCoordinatesOf().

void getCameraCoordinatesOf ( const float  src[3],
float  res[3] 
) const

Same as cameraCoordinatesOf(), but with float[3] parameters (src and res may be identical pointers).

Definition at line 1482 of file camera.cpp.

References Camera::cameraCoordinatesOf().

void getFrustumPlanesCoefficients ( GLdouble  coef[6][4]) const

Returns the 6 plane equations of the Camera frustum.

The six 4-component vectors of coef respectively correspond to the left, right, near, far, top and bottom Camera frustum planes. Each vector holds a plane equation of the form:

a*x + b*y + c*z + d = 0

where a, b, c and d are the 4 components of each vector, in that order.

See the frustumCulling example for an application.

This format is compatible with the glClipPlane() function. One camera frustum plane can hence be applied in an other viewer to visualize the culling results:

// Retrieve plane equations
GLdouble coef[6][4];
mainViewer->camera()->getFrustumPlanesCoefficients(coef);
// These two additional clipping planes (which must have been enabled)
// will reproduce the mainViewer's near and far clipping.
glClipPlane(GL_CLIP_PLANE0, coef[2]);
glClipPlane(GL_CLIP_PLANE1, coef[3]);

Definition at line 2121 of file camera.cpp.

References Camera::fieldOfView(), Camera::getOrthoWidthHeight(), Camera::horizontalFieldOfView(), Camera::position(), Camera::rightVector(), Camera::type(), Camera::upVector(), Camera::viewDirection(), Camera::zFar(), and Camera::zNear().

void getModelViewMatrix ( GLfloat  m[16]) const

Overloaded getModelViewMatrix(GLdouble m[16]) method using a float array instead.

Definition at line 662 of file camera.cpp.

Referenced by Camera::getModelViewProjectionMatrix().

void getModelViewMatrix ( GLdouble  m[16]) const

Fills m with the Camera modelView matrix values.

First calls computeModelViewMatrix() to define the Camera modelView matrix.

Note that this matrix may not be the one you would get from a glGetDoublev(GL_MODELVIEW_MATRIX, m). It actually represents the state of the GL_MODELVIEW after QGLViewer::preDraw(), at the beginning of QGLViewer::draw(). It converts from the world to the Camera coordinate system. As soon as you modify the GL_MODELVIEW in your QGLViewer::draw() method (using glTranslate, glRotate... or similar methods), the two matrices differ.

The result is an OpenGL 4x4 matrix, which is given in column-major order (see glMultMatrix man page for details).

See also getProjectionMatrix() and setFromModelViewMatrix().

Definition at line 651 of file camera.cpp.

References Camera::computeModelViewMatrix().

void getModelViewProjectionMatrix ( GLfloat  m[16]) const

Overloaded getModelViewProjectionMatrix(GLdouble m[16]) method using a float array instead.

Definition at line 693 of file camera.cpp.

void getModelViewProjectionMatrix ( GLdouble  m[16]) const

Fills m with the product of the ModelView and Projection matrices.

Calls getModelViewMatrix() and getProjectionMatrix() and then fills m with the product of these two matrices.

Definition at line 673 of file camera.cpp.

References Camera::getModelViewMatrix(), and Camera::getProjectionMatrix().

void getOrthoWidthHeight ( GLdouble &  halfWidth,
GLdouble &  halfHeight 
) const
virtual

Returns the halfWidth and halfHeight of the Camera orthographic frustum.

These values are only valid and used when the Camera is of type() Camera::ORTHOGRAPHIC. They are expressed in OpenGL units and are used by loadProjectionMatrix() to define the projection matrix using:

glOrtho( -halfWidth, halfWidth, -halfHeight, halfHeight, zNear(), zFar() )

These values are proportional to the Camera (z projected) distance to the pivotPoint(). When zooming on the object, the Camera is translated forward and its frustum is narrowed, making the object appear bigger on screen, as intuitively expected.

Overload this method to change this behavior if desired, as is done in the standardCamera example.

Reimplemented in StandardCamera.

Definition at line 324 of file camera.cpp.

References Camera::aspectRatio(), Camera::cameraCoordinatesOf(), and Camera::pivotPoint().

Referenced by Camera::computeProjectionMatrix(), Camera::convertClickToLine(), Camera::draw(), Camera::getFrustumPlanesCoefficients(), ManipulatedCameraFrame::mouseMoveEvent(), ManipulatedFrame::mouseMoveEvent(), and Camera::pixelGLRatio().

void getProjectedCoordinatesOf ( const float  src[3],
float  res[3],
const Frame frame = NULL 
) const

Same as projectedCoordinatesOf(), but with float parameters (src and res can be identical pointers).

Definition at line 1644 of file camera.cpp.

References Camera::projectedCoordinatesOf().

void getProjectionMatrix ( GLfloat  m[16]) const

Overloaded getProjectionMatrix(GLdouble m[16]) method using a float array instead.

Definition at line 629 of file camera.cpp.

Referenced by Camera::getModelViewProjectionMatrix().

void getProjectionMatrix ( GLdouble  m[16]) const

Fills m with the Camera projection matrix values.

Based on computeProjectionMatrix() to make sure the Camera projection matrix is up to date.

This matrix only reflects the Camera's internal parameters and it may differ from the GL_PROJECTION matrix retrieved using glGetDoublev(GL_PROJECTION_MATRIX, m). It actually represents the state of the GL_PROJECTION after QGLViewer::preDraw(), at the beginning of QGLViewer::draw(). If you modified the GL_PROJECTION matrix (for instance using QGLViewer::startScreenCoordinatesSystem()), the two results differ.

The result is an OpenGL 4x4 matrix, which is given in column-major order (see glMultMatrix man page for details).

See also getModelViewMatrix() and setFromProjectionMatrix().

Definition at line 621 of file camera.cpp.

References Camera::computeProjectionMatrix().

void getUnprojectedCoordinatesOf ( const float  src[3],
float  res[3],
const Frame frame = NULL 
) const

Same as unprojectedCoordinatesOf(), but with float parameters (src and res can be identical pointers).

Definition at line 1652 of file camera.cpp.

References Camera::unprojectedCoordinatesOf().

void getViewport ( GLint  viewport[4]) const

Fills viewport with the Camera OpenGL viewport.

This method is mainly used in conjunction with gluProject, which requires such a viewport. Returned values are (0, screenHeight(), screenWidth(), - screenHeight()), so that the origin is located in the upper left corner of the window (Qt style coordinate system).

Definition at line 1502 of file camera.cpp.

References Camera::screenHeight(), and Camera::screenWidth().

Referenced by QGLViewer::beginSelection(), Camera::projectedCoordinatesOf(), and Camera::unprojectedCoordinatesOf().

void getWorldCoordinatesOf ( const float  src[3],
float  res[3] 
) const

Same as worldCoordinatesOf(), but with float[3] parameters (src and res may be identical pointers).

Definition at line 1490 of file camera.cpp.

References Camera::worldCoordinatesOf().

float horizontalFieldOfView ( ) const
inline

Returns the horizontal field of view of the Camera (in radians).

Value is set using setHorizontalFieldOfView() or setFieldOfView(). These values are always linked by:

horizontalFieldOfView() = 2.0 * atan ( tan(fieldOfView()/2.0) * aspectRatio() ).

Definition at line 179 of file camera.h.

Referenced by Camera::fitScreenRegion(), Camera::fitSphere(), Camera::getFrustumPlanesCoefficients(), Camera::loadModelViewMatrixStereo(), and Camera::loadProjectionMatrixStereo().

void initFromDOMElement ( const QDomElement &  element)
virtualslot

Restores the Camera state from a QDomElement created by domElement().

Use the following code to retrieve a Camera state from a file created using domElement():

// Load DOM from file
QDomDocument document;
QFile f("myCamera.xml");
if (f.open(IO_ReadOnly))
{
document.setContent(&f);
f.close();
}
// Parse the DOM tree
QDomElement main = document.documentElement();
myCamera->initFromDOMElement(main);

The frame() pointer is not modified by this method. The frame() state is however modified.

Attention
The original keyFrameInterpolator() are deleted and should be copied first if they are shared.

Definition at line 1869 of file camera.cpp.

References Camera::deletePath(), Camera::fieldOfView(), Camera::focusDistance(), Camera::frame(), ManipulatedCameraFrame::initFromDOMElement(), KeyFrameInterpolator::initFromDOMElement(), Camera::keyFrameInterpolator(), Camera::sceneRadius(), Camera::setFieldOfView(), Camera::setFocusDistance(), Camera::setIODistance(), Camera::setKeyFrameInterpolator(), Camera::setPhysicalScreenWidth(), Camera::setSceneCenter(), Camera::setSceneRadius(), Camera::setType(), Camera::setZClippingCoefficient(), Camera::setZNearCoefficient(), and Camera::type().

Referenced by QGLViewer::initFromDOMElement().

void interpolateTo ( const Frame fr,
float  duration 
)
slot

Smoothly interpolates the Camera on a KeyFrameInterpolator path so that it goes to fr.

fr is expressed in world coordinates. duration tunes the interpolation speed (default is 1 second).

See also interpolateToFitScene() and interpolateToZoomOnPixel().

Definition at line 942 of file camera.cpp.

References KeyFrameInterpolator::addKeyFrame(), KeyFrameInterpolator::deletePath(), Camera::frame(), KeyFrameInterpolator::interpolationIsStarted(), KeyFrameInterpolator::startInterpolation(), and KeyFrameInterpolator::stopInterpolation().

void interpolateToZoomOnPixel ( const QPoint &  pixel)
slot
float IODistance ( ) const
inline

Returns the user's inter-ocular distance (in meters).

Default value is 0.062m, which fits most people.

loadProjectionMatrixStereo() uses this value to define the Camera offset and frustum. See setIODistance().

Definition at line 425 of file camera.h.

Referenced by Camera::domElement(), Camera::loadModelViewMatrixStereo(), Camera::loadProjectionMatrixStereo(), and Camera::operator=().

KeyFrameInterpolator * keyFrameInterpolator ( int  i) const

Returns the KeyFrameInterpolator that defines the Camera path number i.

If path i is not defined for this index, the method returns a NULL pointer.

Definition at line 1664 of file camera.cpp.

Referenced by Camera::initFromDOMElement(), and QGLViewer::keyPressEvent().

void loadModelViewMatrix ( bool  reset = true) const
virtual

Loads the OpenGL GL_MODELVIEW matrix with the modelView matrix corresponding to the Camera.

Calls computeModelViewMatrix() to compute the Camera's modelView matrix.

This method is used by QGLViewer::preDraw() (called before user's QGLViewer::draw() method) to set the GL_MODELVIEW matrix according to the viewer's QGLViewer::camera() position() and orientation().

As a result, the vertices used in QGLViewer::draw() can be defined in the so called world coordinate system. They are multiplied by this matrix to get converted to the Camera coordinate system, before getting projected using the GL_PROJECTION matrix (see loadProjectionMatrix()).

When reset is true (default), the method loads (overwrites) the GL_MODELVIEW matrix. Setting reset to false simply calls glMultMatrixd (might be useful for some applications).

Overload this method or simply call glLoadMatrixd() at the beginning of QGLViewer::draw() if you want your Camera to use an exotic modelView matrix. See also loadProjectionMatrix().

getModelViewMatrix() returns the 4x4 modelView matrix.

Attention
glMatrixMode is set to GL_MODELVIEW
If you use several OpenGL contexts and bypass the Qt main refresh loop, you should call QGLWidget::makeCurrent() before this method in order to activate the right OpenGL context.

Definition at line 500 of file camera.cpp.

References Camera::computeModelViewMatrix().

Referenced by QGLViewer::beginSelection(), QGLViewer::postDraw(), and QGLViewer::preDraw().

void loadModelViewMatrixStereo ( bool  leftBuffer = true) const
virtual

Same as loadModelViewMatrix() but for a stereo setup.

Only the Camera::PERSPECTIVE type() is supported for stereo mode. See QGLViewer::setStereoDisplay().

The modelView matrix is almost identical to the mono-vision one. It is simply translated along its horizontal axis by a value that depends on stereo parameters (see focusDistance(), IODistance(), and physicalScreenWidth()).

When leftBuffer is true, computes the modelView matrix associated to the left eye (right eye otherwise).

loadProjectionMatrixStereo() explains how to retrieve to resulting matrix.

See the stereoViewer and the anaglyph examples for an illustration.

Attention
glMatrixMode is set to GL_MODELVIEW.

Definition at line 591 of file camera.cpp.

References Camera::computeModelViewMatrix(), Camera::focusDistance(), Camera::horizontalFieldOfView(), Camera::IODistance(), and Camera::physicalScreenWidth().

Referenced by QGLViewer::preDrawStereo().

void loadProjectionMatrix ( bool  reset = true) const
virtual

Loads the OpenGL GL_PROJECTION matrix with the Camera projection matrix.

The Camera projection matrix is computed using computeProjectionMatrix().

When reset is true (default), the method clears the previous projection matrix by calling glLoadIdentity before setting the matrix. Setting reset to false is useful for GL_SELECT mode, to combine the pushed matrix with a picking matrix. See QGLViewer::beginSelection() for details.

This method is used by QGLViewer::preDraw() (called before user's QGLViewer::draw() method) to set the GL_PROJECTION matrix according to the viewer's QGLViewer::camera() settings.

Use getProjectionMatrix() to retrieve this matrix. Overload this method if you want your Camera to use an exotic projection matrix. See also loadModelViewMatrix().

Attention
glMatrixMode is set to GL_PROJECTION.
If you use several OpenGL contexts and bypass the Qt main refresh loop, you should call QGLWidget::makeCurrent() before this method in order to activate the right OpenGL context.

Definition at line 463 of file camera.cpp.

References Camera::computeProjectionMatrix().

Referenced by QGLViewer::beginSelection(), and QGLViewer::preDraw().

void loadProjectionMatrixStereo ( bool  leftBuffer = true) const
virtual

Same as loadProjectionMatrix() but for a stereo setup.

Only the Camera::PERSPECTIVE type() is supported for stereo mode. See QGLViewer::setStereoDisplay().

Uses focusDistance(), IODistance(), and physicalScreenWidth() to compute cameras offset and asymmetric frustums.

When leftBuffer is true, computes the projection matrix associated to the left eye (right eye otherwise). See also loadModelViewMatrixStereo().

See the stereoViewer and the anaglyph examples for an illustration.

To retrieve this matrix, use a code like:

glMatrixMode(GL_PROJECTION);
glPushMatrix();
glGetFloatv(GL_PROJECTION_MATRIX, m);
glPopMatrix();

Note that getProjectionMatrix() always returns the mono-vision matrix.

Attention
glMatrixMode is set to GL_PROJECTION.

Definition at line 536 of file camera.cpp.

References Camera::aspectRatio(), Camera::focusDistance(), Camera::horizontalFieldOfView(), Camera::IODistance(), Camera::physicalScreenWidth(), Camera::type(), Camera::zFar(), and Camera::zNear().

Referenced by QGLViewer::preDrawStereo().

void lookAt ( const Vec target)
slot

Sets the Camera orientation(), so that it looks at point target (defined in the world coordinate system).

The Camera position() is not modified. Simply setViewDirection().

See also setUpVector(), setOrientation(), showEntireScene(), fitSphere() and fitBoundingBox().

Definition at line 1008 of file camera.cpp.

References Camera::position(), and Camera::setViewDirection().

Referenced by Camera::interpolateToZoomOnPixel().

Quaternion orientation ( ) const

Returns the Camera orientation, defined in the world coordinate system.

Actually returns frame()->orientation(). Use setOrientation(), setUpVector() or lookAt() to set the Camera orientation.

Definition at line 1237 of file camera.cpp.

References Camera::frame(), and Frame::orientation().

Referenced by Camera::interpolateToFitScene(), Camera::interpolateToZoomOnPixel(), RenderWorld::keyPressEvent(), Camera::operator=(), and Camera::setUpVector().

float physicalDistanceToScreen ( ) const
inline

Returns the physical distance between the user's eyes and the screen (in meters).

physicalDistanceToScreen() and focusDistance() represent the same distance. The former is expressed in physical real world units, while the latter is expressed in OpenGL virtual world units.

This is a helper function. It simply returns physicalScreenWidth() / 2.0 / tan(horizontalFieldOfView() / 2.0);

Definition at line 434 of file camera.h.

float physicalScreenWidth ( ) const
inline

Returns the physical screen width, in meters.

Default value is 0.5m (average monitor width).

Used for stereo display only (see loadModelViewMatrixStereo() and loadProjectionMatrixStereo()). Set using setPhysicalScreenWidth().

Definition at line 440 of file camera.h.

Referenced by Camera::domElement(), Camera::loadModelViewMatrixStereo(), Camera::loadProjectionMatrixStereo(), and Camera::operator=().

Vec pivotPoint ( ) const

The point the Camera pivots around with the QGLViewer::ROTATE mouse binding.

Defined in world coordinate system.

Default value is the sceneCenter().

Attention
setSceneCenter() changes this value.

Definition at line 1275 of file camera.cpp.

References Camera::frame(), and ManipulatedCameraFrame::pivotPoint().

Referenced by QGLViewer::drawVisualHints(), Camera::fitScreenRegion(), Camera::fitSphere(), Camera::getOrthoWidthHeight(), Camera::setPivotPoint(), and Camera::setUpVector().

float pixelGLRatio ( const Vec position) const

Returns the ratio between pixel and OpenGL units at position.

A line of n * pixelGLRatio() OpenGL units, located at position in the world coordinates system, will be projected with a length of n pixels on screen.

Use this method to scale objects so that they have a constant pixel size on screen. The following code will draw a 20 pixel line, starting at sceneCenter() and always directed along the screen vertical direction:

glBegin(GL_LINES);
glVertex3fv(sceneCenter());
glVertex3fv(sceneCenter() + 20 * pixelGLRatio(sceneCenter()) * camera()->upVector());
glEnd();

Definition at line 819 of file camera.cpp.

References Camera::fieldOfView(), Camera::frame(), Camera::getOrthoWidthHeight(), Camera::screenHeight(), and Camera::type().

void playPath ( int  i)
virtualslot

Makes the Camera follow the path of keyFrameInterpolator() number i.

If the interpolation is started, it stops it instead.

This method silently ignores undefined (empty) paths (see keyFrameInterpolator()).

The default keyboard shortcut for this method is F[1-12]. Set QGLViewer::pathKey() and QGLViewer::playPathKeyboardModifiers().

Definition at line 1726 of file camera.cpp.

Referenced by QGLViewer::keyPressEvent().

Vec pointUnderPixel ( const QPoint &  pixel,
bool &  found 
) const

Returns the coordinates of the 3D point located at pixel (x,y) on screen.

Calls a glReadPixel to get the pixel depth and applies an unprojectedCoordinatesOf() to the result. found indicates whether a point was found or not (i.e. background pixel, result's depth is zFar() in that case).

x and y are expressed in pixel units with an origin in the upper left corner. Use screenHeight() - y to convert to OpenGL standard.

Attention
This method assumes that a GL context is available, and that its content was drawn using the Camera (i.e. using its projection and modelview matrices). This method hence cannot be used for offscreen Camera computations. Use cameraCoordinatesOf() and worldCoordinatesOf() to perform similar operations in that case.
Note
The precision of the z-Buffer highly depends on how the zNear() and zFar() values are fitted to your scene. Loose boundaries will result in imprecision along the viewing direction.

Definition at line 971 of file camera.cpp.

References Camera::screenHeight(), and Camera::unprojectedCoordinatesOf().

Referenced by Camera::interpolateToZoomOnPixel(), Camera::setPivotPointFromPixel(), and Camera::setSceneCenterFromPixel().

Vec position ( ) const

Returns the Camera position (the eye), defined in the world coordinate system.

Use setPosition() to set the Camera position. Other convenient methods are showEntireScene() or fitSphere(). Actually returns frame()->position().

This position corresponds to the projection center of a Camera::PERSPECTIVE Camera. It is not located in the image plane, which is at a zNear() distance ahead.

Definition at line 1200 of file camera.cpp.

References Camera::frame(), and Frame::position().

Referenced by Camera::computeModelViewMatrix(), Camera::convertClickToLine(), Camera::getFrustumPlanesCoefficients(), Camera::interpolateToFitScene(), Camera::interpolateToZoomOnPixel(), Camera::lookAt(), ManipulatedFrame::mouseDoubleClickEvent(), and Camera::operator=().

Vec projectedCoordinatesOf ( const Vec src,
const Frame frame = NULL 
) const

Returns the screen projected coordinates of a point src defined in the frame coordinate system.

When frame in NULL (default), src is expressed in the world coordinate system.

The x and y coordinates of the returned Vec are expressed in pixel, (0,0) being the upper left corner of the window. The z coordinate ranges between 0.0 (near plane) and 1.0 (excluded, far plane). See the gluProject man page for details.

unprojectedCoordinatesOf() performs the inverse transformation.

See the screenCoordSystem example.

This method only uses the intrinsic Camera parameters (see getModelViewMatrix(), getProjectionMatrix() and getViewport()) and is completely independent of the OpenGL GL_MODELVIEW, GL_PROJECTION and viewport matrices. You can hence define a virtual Camera and use this method to compute projections out of a classical rendering context.

Attention
However, if your Camera is not attached to a QGLViewer (used for offscreen computations for instance), make sure the Camera matrices are updated before calling this method. Call computeModelViewMatrix() and computeProjectionMatrix() to do so.

If you call this method several times with no change in the matrices, consider precomputing the projection times modelview matrix to save computation time if required (P x M in the gluProject man page).

Here is the code corresponding to what this method does (kindly submitted by Robert W. Kuhn) :

Vec project(Vec point)
{
GLint Viewport[4];
GLdouble Projection[16], Modelview[16];
GLdouble matrix[16];
// Precomputation begin
glGetIntegerv(GL_VIEWPORT , Viewport);
glGetDoublev (GL_MODELVIEW_MATRIX , Modelview);
glGetDoublev (GL_PROJECTION_MATRIX, Projection);
for (unsigned short m=0; m<4; ++m)
{
for (unsigned short l=0; l<4; ++l)
{
double sum = 0.0;
for (unsigned short k=0; k<4; ++k)
sum += Projection[l+4*k]*Modelview[k+4*m];
matrix[l+4*m] = sum;
}
}
// Precomputation end
GLdouble v[4], vs[4];
v[0]=point[0]; v[1]=point[1]; v[2]=point[2]; v[3]=1.0;
vs[0]=matrix[0 ]*v[0] + matrix[4 ]*v[1] + matrix[8 ]*v[2] + matrix[12 ]*v[3];
vs[1]=matrix[1 ]*v[0] + matrix[5 ]*v[1] + matrix[9 ]*v[2] + matrix[13 ]*v[3];
vs[2]=matrix[2 ]*v[0] + matrix[6 ]*v[1] + matrix[10]*v[2] + matrix[14 ]*v[3];
vs[3]=matrix[3 ]*v[0] + matrix[7 ]*v[1] + matrix[11]*v[2] + matrix[15 ]*v[3];
vs[0] /= vs[3];
vs[1] /= vs[3];
vs[2] /= vs[3];
vs[0] = vs[0] * 0.5 + 0.5;
vs[1] = vs[1] * 0.5 + 0.5;
vs[2] = vs[2] * 0.5 + 0.5;
vs[0] = vs[0] * Viewport[2] + Viewport[0];
vs[1] = vs[1] * Viewport[3] + Viewport[1];
return Vec(vs[0], Viewport[3]-vs[1], vs[2]);
}

Definition at line 1584 of file camera.cpp.

References Camera::getViewport(), and Frame::inverseCoordinatesOf().

Referenced by ManipulatedFrame::checkIfGrabsMouse(), QGLViewer::drawVisualHints(), Camera::getProjectedCoordinatesOf(), ManipulatedCameraFrame::mouseMoveEvent(), and ManipulatedFrame::mouseMoveEvent().

void resetPath ( int  i)
virtualslot

Resets the path of the keyFrameInterpolator() number i.

If this path is not being played (see playPath() and KeyFrameInterpolator::interpolationIsStarted()), resets it to its starting position (see KeyFrameInterpolator::resetInterpolation()). If the path is played, simply stops interpolation.

Definition at line 1741 of file camera.cpp.

Referenced by QGLViewer::keyPressEvent().

Vec rightVector ( ) const

Returns the normalized right vector of the Camera, defined in the world coordinate system.

This vector lies in the Camera horizontal plane, directed along the X axis (orthogonal to upVector() and to viewDirection()). Set using setUpVector(), lookAt() or setOrientation().

Simply returns frame()->inverseTransformOf(Vec(1.0, 0.0, 0.0)).

Definition at line 1228 of file camera.cpp.

References Camera::frame(), and Frame::inverseTransformOf().

Referenced by Camera::getFrustumPlanesCoefficients().

Vec sceneCenter ( ) const
inline

Returns the position of the scene center, defined in the world coordinate system.

The scene observed by the Camera should be roughly centered on this position, and included in a sceneRadius() sphere. This approximate description of the scene permits a zNear() and zFar() clipping planes definition, and allows convenient positioning methods such as showEntireScene().

Default value is (0,0,0) (world origin). Use setSceneCenter() to change it. See also setSceneBoundingBox().

Note that QGLViewer::sceneCenter() (resp. QGLViewer::setSceneCenter()) simply calls this method (resp. setSceneCenter()) on its associated QGLViewer::camera().

Definition at line 297 of file camera.h.

Referenced by Camera::centerScene(), Camera::distanceToSceneCenter(), Camera::domElement(), Camera::operator=(), Camera::setSceneCenter(), and Camera::showEntireScene().

float sceneRadius ( ) const
inline

Returns the radius of the scene observed by the Camera.

You need to provide such an approximation of the scene dimensions so that the Camera can adapt its zNear() and zFar() values. See the sceneCenter() documentation.

See also setSceneBoundingBox().

Note that QGLViewer::sceneRadius() (resp. QGLViewer::setSceneRadius()) simply call this method (resp. setSceneRadius()) on its associated QGLViewer::camera().

Definition at line 284 of file camera.h.

Referenced by Camera::domElement(), Camera::drawAllPaths(), Camera::initFromDOMElement(), Camera::operator=(), Camera::setFieldOfView(), Camera::setFOVToFitScene(), Camera::setSceneRadius(), Camera::showEntireScene(), Camera::zFar(), and Camera::zNear().

int screenHeight ( ) const
inline

Returns the height (in pixels) of the Camera screen.

Set using setScreenWidthAndHeight(). This value is automatically fitted to the QGLViewer's window dimensions when the Camera is attached to a QGLViewer. See also QGLWidget::height()

Definition at line 195 of file camera.h.

Referenced by Camera::convertClickToLine(), ManipulatedFrame::deformedBallQuaternion(), ManipulatedFrame::deltaWithPrevPos(), Camera::getViewport(), ManipulatedCameraFrame::mouseMoveEvent(), ManipulatedFrame::mouseMoveEvent(), Camera::operator=(), Camera::pixelGLRatio(), and Camera::pointUnderPixel().

int screenWidth ( ) const
inline

Returns the width (in pixels) of the Camera screen.

Set using setScreenWidthAndHeight(). This value is automatically fitted to the QGLViewer's window dimensions when the Camera is attached to a QGLViewer. See also QGLWidget::width()

Definition at line 190 of file camera.h.

Referenced by Camera::convertClickToLine(), ManipulatedFrame::deformedBallQuaternion(), ManipulatedFrame::deltaWithPrevPos(), Camera::getViewport(), ManipulatedCameraFrame::mouseMoveEvent(), ManipulatedFrame::mouseMoveEvent(), and Camera::operator=().

void setAspectRatio ( float  aspect)
inlineslot

Defines the Camera aspectRatio().

This value is actually inferred from the screenWidth() / screenHeight() ratio. You should use setScreenWidthAndHeight() instead.

This method might however be convenient when the Camera is not associated with a QGLViewer. It actually sets the screenHeight() to 100 and the screenWidth() accordingly. See also setFOVToFitScene().

Note
If you absolutely need an aspectRatio() that does not correspond to your viewer's window dimensions, overload loadProjectionMatrix() or multiply the created GL_PROJECTION matrix by a scaled diagonal matrix in your QGLViewer::draw() method.

Definition at line 262 of file camera.h.

void setFieldOfView ( float  fov)
slot

Sets the vertical fieldOfView() of the Camera (in radians).

Note that focusDistance() is set to sceneRadius() / tan(fieldOfView()/2) by this method.

Definition at line 245 of file camera.cpp.

References Camera::sceneRadius(), and Camera::setFocusDistance().

Referenced by Camera::initFromDOMElement(), Camera::operator=(), Camera::setFOVToFitScene(), and Camera::setFromProjectionMatrix().

void setFlySpeed ( float  speed)
slot

Sets the Camera flySpeed().

Attention
This value is modified by setSceneRadius().

Definition at line 1268 of file camera.cpp.

References Camera::frame(), and ManipulatedCameraFrame::setFlySpeed().

void setFocusDistance ( float  distance)
inlineslot

Sets the focusDistance(), in OpenGL scene units.

Definition at line 466 of file camera.h.

Referenced by Camera::initFromDOMElement(), Camera::operator=(), Camera::setFieldOfView(), and Camera::setSceneRadius().

void setFOVToFitScene ( )
slot

Changes the Camera fieldOfView() so that the entire scene (defined by QGLViewer::sceneCenter() and QGLViewer::sceneRadius()) is visible from the Camera position().

The position() and orientation() of the Camera are not modified and you first have to orientate the Camera in order to actually see the scene (see lookAt(), showEntireScene() or fitSphere()).

This method is especially useful for shadow maps computation. Use the Camera positioning tools (setPosition(), lookAt()) to position a Camera at the light position. Then use this method to define the fieldOfView() so that the shadow map resolution is optimally used:

// The light camera needs size hints in order to optimize its fieldOfView
lightCamera->setSceneRadius(sceneRadius());
lightCamera->setSceneCenter(sceneCenter());
// Place the light camera.
lightCamera->setPosition(lightFrame->position());
lightCamera->lookAt(sceneCenter());
lightCamera->setFOVToFitScene();

See the (soon available) shadowMap contribution example for a practical implementation.

Attention
The fieldOfView() is clamped to M_PI/2.0. This happens when the Camera is at a distance lower than sqrt(2.0) * sceneRadius() from the sceneCenter(). It optimizes the shadow map resolution, although it may miss some parts of the scene.

Definition at line 861 of file camera.cpp.

References Camera::distanceToSceneCenter(), Camera::sceneRadius(), and Camera::setFieldOfView().

void setFrame ( ManipulatedCameraFrame *const  mcf)
slot

Sets the Camera frame().

If you want to move the Camera, use setPosition() and setOrientation() or one of the Camera positioning methods (lookAt(), fitSphere(), showEntireScene()...) instead.

If you want to save the Camera position(), there's no need to call this method either. Use addKeyFrameToPath() and playPath() instead.

This method is actually mainly useful if you derive the ManipulatedCameraFrame class and want to use an instance of your new class to move the Camera.

A NULL mcf pointer will silently be ignored. The calling method is responsible for deleting the previous frame() pointer if needed in order to prevent memory leaks.

Definition at line 285 of file camera.cpp.

References Camera::frame(), and KeyFrameInterpolator::setFrame().

Referenced by Camera::Camera(), Camera::interpolateToFitScene(), and Camera::interpolateToZoomOnPixel().

void setFromModelViewMatrix ( const GLdouble *const  modelViewMatrix)

Sets the Camera's position() and orientation() from an OpenGL ModelView matrix.

This enables a Camera initialisation from an other OpenGL application. modelView is a 16 GLdouble vector representing a valid OpenGL ModelView matrix, such as one can get using:

GLdouble mvm[16];
glGetDoublev(GL_MODELVIEW_MATRIX, mvm);
myCamera->setFromModelViewMatrix(mvm);

After this method has been called, getModelViewMatrix() returns a matrix equivalent to modelView.

Only the orientation() and position() of the Camera are modified.

Note
If you defined your matrix as GLdouble mvm[4][4], pass &(mvm[0][0]) as a parameter.

Definition at line 1294 of file camera.cpp.

References Quaternion::rotate(), Camera::setOrientation(), and Camera::setPosition().

void setFromProjectionMatrix ( const float  matrix[12])

Defines the Camera position(), orientation() and fieldOfView() from a projection matrix.

matrix has to be given in the format used by vision algorithm. It has 3 lines and 4 columns. It transforms a point from the world homogeneous coordinate system (4 coordinates: sx, sy, sz and s) into a point in the screen homogeneous coordinate system (3 coordinates: sx, sy, and s, where x and y are the pixel coordinates on the screen).

Its three lines correspond to the homogeneous coordinates of the normals to the planes x=0, y=0 and z=0, defined in the Camera coordinate system.

The elements of the matrix are ordered in line major order: you can call setFromProjectionMatrix(&(matrix[0][0])) if you defined your matrix as a float matrix[3][4].

Attention
Passing the result of getProjectionMatrix() or getModelViewMatrix() to this method is not possible (purposefully incompatible matrix dimensions). matrix is more likely to be the product of these two matrices, without the last line.

Use setFromModelViewMatrix() to set position() and orientation() from a GL_MODELVIEW matrix. fieldOfView() can also be retrieved from a perspective GL_PROJECTION matrix using 2.0 * atan(1.0/projectionMatrix[5]).

This code was written by Sylvain Paris.

Definition at line 1332 of file camera.cpp.

References Vec::normalize(), Camera::setFieldOfView(), Camera::setOrientation(), and Camera::setPosition().

void setHorizontalFieldOfView ( float  hfov)
inlineslot

Sets the horizontalFieldOfView() of the Camera (in radians).

horizontalFieldOfView() and fieldOfView() are linked by the aspectRatio(). This method actually calls setFieldOfView(( 2.0 * atan (tan(hfov / 2.0) / aspectRatio()) )) so that a call to horizontalFieldOfView() returns the expected value.

Definition at line 246 of file camera.h.

void setIODistance ( float  distance)
inlineslot

Sets the IODistance().

Definition at line 455 of file camera.h.

Referenced by Camera::Camera(), Camera::initFromDOMElement(), and Camera::operator=().

void setKeyFrameInterpolator ( int  i,
KeyFrameInterpolator *const  kfi 
)
slot

Sets the KeyFrameInterpolator that defines the Camera path of index i.

The previous keyFrameInterpolator() is lost and should be deleted by the calling method if needed.

The KeyFrameInterpolator::interpolated() signal of kfi probably needs to be connected to the Camera's associated QGLViewer::update() slot, so that when the Camera position is interpolated using kfi, every interpolation step updates the display:

myViewer.camera()->deletePath(3);
myViewer.camera()->setKeyFrameInterpolator(3, myKeyFrameInterpolator);
connect(myKeyFrameInterpolator, SIGNAL(interpolated()), myViewer, SLOT(update());
Note
These connections are done automatically when a Camera is attached to a QGLViewer, or when a new KeyFrameInterpolator is defined using the QGLViewer::addKeyFrameKeyboardModifiers() and QGLViewer::pathKey() (default is Alt+F[1-12]). See the keyboard page for details.

Definition at line 1690 of file camera.cpp.

Referenced by Camera::addKeyFrameToPath(), and Camera::initFromDOMElement().

void setOrientation ( const Quaternion q)
slot

Sets the Camera orientation(), defined in the world coordinate system.

Definition at line 1150 of file camera.cpp.

References Camera::frame(), and Frame::setOrientation().

Referenced by RenderWorld::keyPressEvent(), Camera::setFromModelViewMatrix(), Camera::setFromProjectionMatrix(), and Camera::setOrientation().

void setOrientation ( float  theta,
float  phi 
)
slot

Sets the orientation() of the Camera using polar coordinates.

theta rotates the Camera around its Y axis, and then phi rotates it around its X axis. The polar coordinates are defined in the world coordinates system: theta = phi = 0 means that the Camera is directed towards the world Z axis. Both angles are expressed in radians.

See also setUpVector(). The position() of the Camera is unchanged, you may want to call showEntireScene() after this method to move the Camera.

This method can be useful to create Quicktime VR panoramic sequences, see the QGLViewer::saveSnapshot() documentation for details.

Definition at line 1140 of file camera.cpp.

References Camera::setOrientation().

void setPhysicalDistanceToScreen ( float  distance)
inlineslot

This method is deprecated.

Use setPhysicalScreenWidth() instead.

Definition at line 459 of file camera.h.

void setPhysicalScreenWidth ( float  width)
inlineslot

Sets the physical screen (monitor or projected wall) width (in meters).

Definition at line 463 of file camera.h.

Referenced by Camera::Camera(), Camera::initFromDOMElement(), and Camera::operator=().

void setPivotPoint ( const Vec point)
slot

Changes the pivotPoint() to point (defined in the world coordinate system).

Definition at line 770 of file camera.cpp.

References Camera::cameraCoordinatesOf(), Camera::frame(), Camera::pivotPoint(), and ManipulatedCameraFrame::setPivotPoint().

Referenced by Camera::setPivotPointFromPixel(), and Camera::setSceneCenter().

bool setPivotPointFromPixel ( const QPoint &  pixel)
slot

The pivotPoint() is set to the point located under pixel on screen.

Returns true if a pointUnderPixel() was found. If no point was found under pixel, the pivotPoint() is left unchanged.

pixel is expressed in Qt format (origin in the upper left corner of the window). See pointUnderPixel().

See also setSceneCenterFromPixel().

Definition at line 796 of file camera.cpp.

References Camera::pointUnderPixel(), and Camera::setPivotPoint().

void setPosition ( const Vec pos)
slot

Sets the Camera position() (the eye), defined in the world coordinate system.

Definition at line 1240 of file camera.cpp.

References Camera::frame(), and Frame::setPosition().

Referenced by Camera::setFromModelViewMatrix(), and Camera::setFromProjectionMatrix().

void setSceneBoundingBox ( const Vec min,
const Vec max 
)
slot

Similar to setSceneRadius() and setSceneCenter(), but the scene limits are defined by a (world axis aligned) bounding box.

Definition at line 723 of file camera.cpp.

References Camera::setSceneCenter(), and Camera::setSceneRadius().

void setSceneCenter ( const Vec center)
slot
bool setSceneCenterFromPixel ( const QPoint &  pixel)
slot

setSceneCenter() to the result of pointUnderPixel(pixel).

Returns true if a pointUnderPixel() was found and sceneCenter() was actually changed.

See also setPivotPointFromPixel(). See the pointUnderPixel() documentation.

Definition at line 745 of file camera.cpp.

References Camera::pointUnderPixel(), and Camera::setSceneCenter().

void setSceneRadius ( float  radius)
slot
void setScreenWidthAndHeight ( int  width,
int  height 
)
slot

Sets Camera screenWidth() and screenHeight() (expressed in pixels).

You should not call this method when the Camera is associated with a QGLViewer, since the latter automatically updates these values when it is resized (hence overwritting your values).

Non-positive dimension are silently replaced by a 1 pixel value to ensure frustrum coherence.

If your Camera is used without a QGLViewer (offscreen rendering, shadow maps), use setAspectRatio() instead to define the projection matrix.

Definition at line 166 of file camera.cpp.

Referenced by Camera::Camera(), QGLViewer::initFromDOMElement(), Camera::operator=(), QGLViewer::resizeGL(), and QGLViewer::setCamera().

void setType ( Type  type)
slot

Defines the Camera type().

Changing the camera Type alters the viewport and the objects' sizes can be changed. This method garantees that the two frustum match in a plane normal to viewDirection(), passing through the pivotPoint().

Prefix the type with Camera if needed, as in:

camera()->setType(Camera::ORTHOGRAPHIC);
// or even qglviewer::Camera::ORTHOGRAPHIC if you do not use namespace

Definition at line 261 of file camera.cpp.

References Camera::fieldOfView(), and Camera::type().

Referenced by Camera::Camera(), Camera::initFromDOMElement(), and Camera::operator=().

void setUpVector ( const Vec up,
bool  noMove = true 
)
slot

Rotates the Camera so that its upVector() becomes up (defined in the world coordinate system).

The Camera is rotated around an axis orthogonal to up and to the current upVector() direction. Use this method in order to define the Camera horizontal plane.

When noMove is set to false, the orientation modification is compensated by a translation, so that the pivotPoint() stays projected at the same position on screen. This is especially useful when the Camera is used as an observer of the scene (default mouse binding).

When noMove is true (default), the Camera position() is left unchanged, which is an intuitive behavior when the Camera is in a walkthrough fly mode (see the QGLViewer::MOVE_FORWARD and QGLViewer::MOVE_BACKWARD QGLViewer::MouseAction).

The frame()'s ManipulatedCameraFrame::sceneUpVector() is set accordingly.

See also setViewDirection(), lookAt() and setOrientation().

Definition at line 1116 of file camera.cpp.

References Camera::frame(), Camera::orientation(), Camera::pivotPoint(), Frame::rotate(), and Frame::setPosition().

void setViewDirection ( const Vec direction)
slot

Rotates the Camera so that its viewDirection() is direction (defined in the world coordinate system).

The Camera position() is not modified. The Camera is rotated so that the horizon (defined by its upVector()) is preserved. See also lookAt() and setUpVector().

Definition at line 1161 of file camera.cpp.

References Camera::frame(), Frame::inverseTransformOf(), Quaternion::setFromRotatedBasis(), Frame::setOrientationWithConstraint(), Vec::squaredNorm(), and Camera::upVector().

Referenced by Camera::lookAt().

void setZClippingCoefficient ( float  coef)
inlineslot
void setZNearCoefficient ( float  coef)
inlineslot

Sets the zNearCoefficient() value.

Definition at line 266 of file camera.h.

Referenced by Camera::Camera(), Camera::initFromDOMElement(), and Camera::operator=().

void showEntireScene ( )
slot

Moves the Camera so that the entire scene is visible.

Simply calls fitSphere() on a sphere defined by sceneCenter() and sceneRadius().

You will typically use this method in QGLViewer::init() after you defined a new sceneRadius().

Definition at line 987 of file camera.cpp.

References Camera::fitSphere(), Camera::sceneCenter(), and Camera::sceneRadius().

Referenced by Camera::interpolateToFitScene().

Type type ( ) const
inline

Returns the Camera::Type of the Camera.

Set by setType(). Mainly used by loadProjectionMatrix().

A Camera::PERSPECTIVE Camera uses a classical projection mainly defined by its fieldOfView().

With a Camera::ORTHOGRAPHIC type(), the fieldOfView() is meaningless and the width and height of the Camera frustum are inferred from the distance to the pivotPoint() using getOrthoWidthHeight().

Both types use zNear() and zFar() (to define their clipping planes) and aspectRatio() (for frustum shape).

Definition at line 158 of file camera.h.

Referenced by Camera::computeProjectionMatrix(), Camera::convertClickToLine(), Camera::domElement(), Camera::draw(), Camera::fitScreenRegion(), Camera::fitSphere(), Camera::getFrustumPlanesCoefficients(), Camera::initFromDOMElement(), Camera::loadProjectionMatrixStereo(), ManipulatedCameraFrame::mouseMoveEvent(), ManipulatedFrame::mouseMoveEvent(), Camera::operator=(), Camera::pixelGLRatio(), Camera::setType(), and Camera::zNear().

Vec unprojectedCoordinatesOf ( const Vec src,
const Frame frame = NULL 
) const

Returns the world unprojected coordinates of a point src defined in the screen coordinate system.

The src.x and src.y input values are expressed in pixels, (0,0) being the upper left corner of the window. src.z is a depth value ranging in [0..1[ (respectively corresponding to the near and far planes). Note that src.z is not a linear interpolation between zNear and zFar. /code src.z = zFar() / (zFar() - zNear()) * (1.0f - zNear() / z); /endcode Where z is the distance from the point you project to the camera, along the viewDirection(). See the gluUnProject man page for details.

The result is expressed in the frame coordinate system. When frame is NULL (default), the result is expressed in the world coordinates system. The possible frame Frame::referenceFrame() are taken into account.

projectedCoordinatesOf() performs the inverse transformation.

This method only uses the intrinsic Camera parameters (see getModelViewMatrix(), getProjectionMatrix() and getViewport()) and is completely independent of the OpenGL GL_MODELVIEW, GL_PROJECTION and viewport matrices. You can hence define a virtual Camera and use this method to compute un-projections out of a classical rendering context.

Attention
However, if your Camera is not attached to a QGLViewer (used for offscreen computations for instance), make sure the Camera matrices are updated before calling this method (use computeModelViewMatrix(), computeProjectionMatrix()). See also setScreenWidthAndHeight().

This method is not computationally optimized. If you call it several times with no change in the matrices, you should buffer the entire inverse projection matrix (modelview, projection and then viewport) to speed-up the queries. See the gluUnProject man page for details.

Definition at line 1631 of file camera.cpp.

References Frame::coordinatesOf(), and Camera::getViewport().

Referenced by Camera::getUnprojectedCoordinatesOf(), and Camera::pointUnderPixel().

Vec upVector ( ) const

Returns the normalized up vector of the Camera, defined in the world coordinate system.

Set using setUpVector() or setOrientation(). It is orthogonal to viewDirection() and to rightVector().

It corresponds to the Y axis of the associated frame() (actually returns frame()->inverseTransformOf(Vec(0.0, 1.0, 0.0)) ).

Definition at line 1209 of file camera.cpp.

References Camera::frame(), and Frame::inverseTransformOf().

Referenced by Camera::getFrustumPlanesCoefficients(), and Camera::setViewDirection().

Vec viewDirection ( ) const

Returns the normalized view direction of the Camera, defined in the world coordinate system.

Change this value using setViewDirection(), lookAt() or setOrientation(). It is orthogonal to upVector() and to rightVector().

This corresponds to the negative Z axis of the frame() ( frame()->inverseTransformOf(Vec(0.0, 0.0, -1.0)) ).

Definition at line 1220 of file camera.cpp.

References Camera::frame(), and Frame::inverseTransformOf().

Referenced by Camera::centerScene(), Camera::convertClickToLine(), Camera::fitScreenRegion(), Camera::fitSphere(), Camera::getFrustumPlanesCoefficients(), and ManipulatedFrame::mouseDoubleClickEvent().

Vec worldCoordinatesOf ( const Vec src) const

Returns the world coordinates of the point whose position src is defined in the Camera coordinate system.

cameraCoordinatesOf() performs the inverse transformation.

Definition at line 1254 of file camera.cpp.

References Camera::frame(), and Frame::inverseCoordinatesOf().

Referenced by Camera::convertClickToLine(), and Camera::getWorldCoordinatesOf().

float zClippingCoefficient ( ) const
inline

Returns the coefficient used to position the near and far clipping planes.

The near (resp. far) clipping plane is positioned at a distance equal to zClippingCoefficient() * sceneRadius() in front of (resp. behind) the sceneCenter(). This garantees an optimal use of the z-buffer range and minimizes aliasing. See the zNear() and zFar() documentations.

Default value is square root of 3.0 (so that a cube of size sceneRadius() is not clipped).

However, since the sceneRadius() is used for other purposes (see showEntireScene(), flySpeed(), ...) and you may want to change this value to define more precisely the location of the clipping planes. See also zNearCoefficient().

For a total control on clipping planes' positions, an other option is to overload the zNear() and zFar() methods. See the standardCamera example.

Attention
When QGLViewer::cameraPathAreEdited(), this value is set to 5.0 so that the Camera paths are not clipped. The previous zClippingCoefficient() value is restored back when you leave this mode.

Definition at line 229 of file camera.h.

Referenced by Camera::domElement(), QGLViewer::initFromDOMElement(), Camera::operator=(), QGLViewer::setCamera(), QGLViewer::setCameraIsEdited(), Camera::zFar(), and Camera::zNear().

float zFar ( ) const
virtual

Returns the far clipping plane distance used by the Camera projection matrix.

The far clipping plane is positioned at a distance equal to zClippingCoefficient() * sceneRadius() behind the sceneCenter():

See the zNear() documentation for details.

Reimplemented in StandardCamera.

Definition at line 236 of file camera.cpp.

References Camera::distanceToSceneCenter(), Camera::sceneRadius(), and Camera::zClippingCoefficient().

Referenced by Camera::computeProjectionMatrix(), Camera::draw(), Camera::getFrustumPlanesCoefficients(), and Camera::loadProjectionMatrixStereo().

float zNear ( ) const
virtual

Returns the near clipping plane distance used by the Camera projection matrix.

The clipping planes' positions depend on the sceneRadius() and sceneCenter() rather than being fixed small-enough and large-enough values. A good scene dimension approximation will hence result in an optimal precision of the z-buffer.

The near clipping plane is positioned at a distance equal to zClippingCoefficient() * sceneRadius() in front of the sceneCenter():

In order to prevent negative or too small zNear() values (which would degrade the z precision), zNearCoefficient() is used when the Camera is inside the sceneRadius() sphere:

const float zMin = zNearCoefficient() * zClippingCoefficient() * sceneRadius();
if (zNear < zMin)
zNear = zMin;
// With an ORTHOGRAPHIC type, the value is simply clamped to 0.0

See also the zFar(), zClippingCoefficient() and zNearCoefficient() documentations.

If you need a completely different zNear computation, overload the zNear() and zFar() methods in a new class that publicly inherits from Camera and use QGLViewer::setCamera():

class myCamera :: public qglviewer::Camera
{
virtual float Camera::zNear() const { return 0.001; };
virtual float Camera::zFar() const { return 100.0; };
}

See the standardCamera example for an application.

Attention
The value is always positive although the clipping plane is positioned at a negative z value in the Camera coordinate system. This follows the gluPerspective standard.

Reimplemented in StandardCamera.

Definition at line 211 of file camera.cpp.

References Camera::distanceToSceneCenter(), Camera::sceneRadius(), Camera::type(), Camera::zClippingCoefficient(), and Camera::zNearCoefficient().

Referenced by Camera::computeProjectionMatrix(), Camera::draw(), Camera::getFrustumPlanesCoefficients(), and Camera::loadProjectionMatrixStereo().

float zNearCoefficient ( ) const
inline

Returns the coefficient which is used to set zNear() when the Camera is inside the sphere defined by sceneCenter() and zClippingCoefficient() * sceneRadius().

In that case, the zNear() value is set to zNearCoefficient() * zClippingCoefficient() * sceneRadius(). See the zNear() documentation for details.

Default value is 0.005, which is appropriate for most applications. In case you need a high dynamic ZBuffer precision, you can increase this value (~0.1). A lower value will prevent clipping of very close objects at the expense of a worst Z precision.

Only meaningful when Camera type is Camera::PERSPECTIVE.

Definition at line 210 of file camera.h.

Referenced by Camera::domElement(), Camera::operator=(), and Camera::zNear().


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