Computer Graphics - graphics.cmlab.csie.ntu.edu.twrobin/courses/3dcg08/ppt/3... · Classical...
Transcript of Computer Graphics - graphics.cmlab.csie.ntu.edu.twrobin/courses/3dcg08/ppt/3... · Classical...
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Computer Graphics
Bing-Yu ChenNational Taiwan University
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Viewing in 3D
3D Viewing ProcessClassical Viewing and Projections3D Synthetic Camera Model Specification of an Arbitrary 3D ViewParallel ProjectionPerspective Projection3D Clipping for Canonical View Volume
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3D Viewing Process
Transforminto viewportin 2D devicecoordinatesfor display
Project ontoprojection
plane
Clip againstview
volume
2D devicecoordinates
Clippedworld
coordinates
3D world-coordinateoutput primitives
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Classical ViewingViewing requires three basic elements
One or more objectsA viewer with a projection surfaceProjectors that go from the object(s) to the projection surface
Classical views are based on the relationship among these elements
The viewer picks up the object and orients it how she would like to see it
Each object is assumed to constructed from flat principal faces
Buildings, polyhedra, manufactured objects
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Classical Projections
Front elevation Elevation oblique Plan oblique
Isometric One-point perspective Three-point perspective
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The synthetic camera model involves two components, specified independently:
objects (a.k.a geometry)viewer (a.k.a camera)
3D Synthetic Camera Model
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Imaging with the Synthetic Camera
center of projection
image plane
projector
P
projection of P
The image is rendered onto an image plane or project plane (usually in front of the camera).Projectors emanate from the center of projection(COP) at the center of the lens (or pinhole).The image of an object point P is at the intersection of the projector through P and the image plane.
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Specifying a Viewer
Camera specification requires four kinds of parameters:Position: the COP.Orientation: rotations about axes with origin at the COP.Focal length: determines the size of the image on the film plane, or the field of view.Film plane: its width and height, and possibly orientation.
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ProjectionsProjections transform points in n-space to m-space, where m < n.In 3D, we map points from 3-space to the projection plane (PP) along projectors emanating from the center of projection (COP).
There are two basic type of projections:Perspective – distance from COP to PP finiteParallel – distance from COP to PP infinite
COP
PP
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Perspective vs. Parallel Projections
Computer graphics treats all projections the same and implements them with a single pipelineClassical viewing developed different techniques for drawing each type of projectionFundamental distinction is between parallel and perspective viewing even though mathematically parallel viewing is the limit of perspective viewing
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Perspective vs. Parallel Projections
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Taxonomy ofPlanar Geometric Projections
parallel perspective
axonometricmultivieworthographic
oblique
isometric dimetric trimetric
2 point1 point 3 point
planar geometric projections
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Orthographic Projection
Projectors are orthogonal to projection surface
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Multiview Orthographic ProjectionProjection plane parallel to principal faceUsually form front, top, side views
isometric (not multivieworthographic view) front
sidetop
in CAD and architecture, we often display three multiviews plus isometric
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Advantages and Disadvantages
Preserves both distances and anglesShapes preservedCan be used for measurements
Building plansManuals
Cannot see what object really looks like because many surfaces hidden from view
Often we add the isometric
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Axonometric Projections
classify by how many angles ofa corner of a projected cube are the same
none: trimetrictwo: dimetricthree: isometric
θ 1θ 3θ 2
Allow projection plane to move relative to object
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Types ofAxonometric Projections
IsometricTrimetricDimetric
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Advantages and DisadvantagesLines are scaled (foreshortened) but can find scaling factorsLines preserved but angles are not
Projection of a circle in a plane not parallel to the projection plane is an ellipse
Can see three principal faces of a box-like objectSome optical illusions possible
Parallel lines appear to divergeDoes not look real because far objects are scaled the same as near objectsUsed in CAD applications
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Oblique ProjectionArbitrary relationship between projectors and projection plane
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Advantages and DisadvantagesCan pick the angles to emphasize a particular face
Architecture: plan oblique, elevation obliqueAngles in faces parallel to projection plane are preserved while we can still see “around” side
In physical world, cannot create with simple camera; possible with bellows camera or special lens (architectural)
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Specification ofan Arbitrary 3D View
VRP: view reference pointVPN: view-plane normalVUP: view-up vector
nu
VUP
VPN
VRP
v
Viewplane
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VRC:the viewing-reference coordinate system
CW: center of the window
nu
VPN
VRP
v
CWViewplane
(umax,vmax)
(umin,vmin)
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Infinite Parallelepiped View Volume
DOP: direction of projectionPRP: projection reference point
PRP
DOP
CWViewplane
n
VPNVRP
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Truncated View Volume for an Orthographic Parallel Projection
DOP
VPN
VRP
ViewplaneFront
Clippingplane
BackClippingplane
F
B
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The Mathematics ofOrthographic Parallel Projection
⎥⎥⎥⎥
⎦
⎤
⎢⎢⎢⎢
⎣
⎡
=
===
1000000000100001
0;;
ort
ppp
M
zyyxx
y
x
z
z
P(x, y, z)
P(x, y, z)
yp
xp
View along x axis
View along y axis
Projectionplane
Projectionplane
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The Steps of Implementation ofOrthographic Parallel Projection
Translate the VRP to the originRotate VRC such that the VPN becomes the z axisShear such that the DOP becomes parallel to the z axisTranslate and scale into the parallel-projection canonical view volume
)( VRPTRSHTSN parparparpar −••••=
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Perspective Projection
Projectors converge at center of projection
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Truncated View Volume for an Perspective Projection
VPN
VRP
ViewplaneFront
Clippingplane
BackClippingplane
F B
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Perspective Projection(Pinhole Camera)
y
x
z
z
P(x, y, z)
P(x, y, z)
d
d
yp
xp
View along x axis
View along y axis
Projectionplane
Projectionplane
⎥⎥⎥⎥
⎦
⎤
⎢⎢⎢⎢
⎣
⎡
=
==
==
0/100010000100001
/;
/
;
d
M
dzyy
dzxx
zy
dy
zx
dx
per
pp
pp
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Perspective Division
However W ≠ 1, so we must divide by W to return from homogeneous coordinates
⎥⎥⎥⎥⎥
⎦
⎤
⎢⎢⎢⎢⎢
⎣
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=
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⎦
⎤
⎢⎢⎢⎢
⎣
⎡
•
⎥⎥⎥⎥
⎦
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=•=
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dzzyx
zyx
d
PM
WZYX
zyx
perp
p
p
10/100010000100001
1
( ) ⎟⎠⎞
⎜⎝⎛=⎟
⎠⎞
⎜⎝⎛= d
dzy
dzx
WZ
WY
WXzyx ppp ,
/,
/,,,,
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The Steps of Implementation ofPerspective Projection
Translate the VRP to the originRotate VRC such that the VPN becomes the z axisTranslate such that the PRP is at the originShear such that the DOP becomes parallel to the z axisScale such that the view volume becomes the canonical perspective view volume
)()( VRPTRPRPTSHSN perperper −••−••=
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Alternative Perspective Projection
y
z
z
P(x, y, z)
P(x, y, z)
d
d
yp
xp
View along x axis
View along y axis
Projectionplane at z=0
Projectionplane at z=0
⎥⎥⎥⎥
⎦
⎤
⎢⎢⎢⎢
⎣
⎡
=′
+=
+=
+=
+=
1/100000000100001
1)/(;
1)/(
;
d
M
dzyy
dzxx
dzy
dy
dzx
dx
per
pp
pp
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Vanishing Points
Parallel lines (not parallel to the projection plan) on the object converge at a single point in the projection (the vanishing point) Drawing simple perspectives by hand uses these vanishing point(s)
vanishing point
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Three-Point PerspectiveNo principal face parallel to projection planeThree vanishing points for cube
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Two-Point PerspectiveOn principal direction parallel to projection planeTwo vanishing points for cube
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One-Point Perspective
One principal face parallel to projection planeOne vanishing point for cube
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Advantages and DisadvantagesObjects further from viewer are projected smaller than the same sized objects closer to the viewer (diminuition)
Looks realisticEqual distances along a line are not projected into equal distances (nonuniformforeshortening)Angles preserved only in planes parallel to the projection planeMore difficult to construct by hand than parallel projections (but not more difficult by computer)
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Canonical View Volume forOrthographic Parallel Projection
x = -1, y = -1, z = 0x = 1, y = 1, z = -1
-1
-1
1
-z
x or y
Backplane Front
plane
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The Extension ofthe Cohen-Sutherland Algorithm
bit 1 – point is above view volume y > 1bit 2 – point is below view volume y < -1bit 3 – point is right of view volume x > 1bit 4 – point is left of view volume x < -1bit 5 – point is behind view volume z < -1bit 6 – point is in front of view volume z > 0
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Intersection of a 3D Line
a line from to can be represented as
so when y = 1
10 ≤≤ t
),,( 0000 zyxP ),,( 1111 zyxP
)()(
)(
010
010
010
zztzzyytyyxxtxx
−+=−+=−+=
01
0100
01
0100
))(1(
))(1(
yyzzyzz
yyxxyxx
−−−
+=
−−−
+=
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Canonical View Volume forPerspective Projection
x = z, y = z, z = -zmin
x = -z, y = -z, z = -1
-1
-1
1
-z
x or y
Backplane Front
plane
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The Extension ofthe Cohen-Sutherland Algorithm
bit 1 – point is above view volume y > -zbit 2 – point is below view volume y < zbit 3 – point is right of view volume x > -zbit 4 – point is left of view volume x < zbit 5 – point is behind view volume z < -1bit 6 – point is in front of view volume z > zmin
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Intersection of a 3D Line
so when y = z
yzzzyy
yzyyyy
zzyyyzxxxx
=−−−
−−+=
−−−−−
+=
)()())(()()(
))((
0101
00010
0101
00010
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Clipping inHomogeneous Coordinates
Why clip inhomogeneous coordinates ?
it is possible to transform the perspective-projection canonical view volume into the parallel-projection canonical view volume
1,
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10000100001
min
min
min
min
−≠
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zz
zM
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Clipping inHomogeneous Coordinates
The corresponding plane equations areX = -WX = WY = -WY = WZ = -WZ = 0