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CAP4730: Computational Structures in Computer Graphics. Triangle Scan Conversion. Triangle Area Filling Algorithms. Why do we care about triangles? Edge Equations Edge Walking. We want something easier. It is easier to do 1 thing VERY fast than 2 things pretty fast. - PowerPoint PPT Presentation
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CAP4730: Computational Structures in Computer Graphics
Triangle Scan Conversion
Triangle Area Filling Algorithms
• Why do we care about triangles?
• Edge Equations
• Edge Walking
We want something easier
• It is easier to do 1 thing VERY fast than 2 things pretty fast.
• Why? Think about how you code.– Scan conversion
• Polygon
• Circle
– Clipping
Do something easier!
• Instead of polygons, let’s do something easy!
• TRIANGLES! Why? 1) All polygons can be broken into triangles
2) Easy to specify
3) Always convex
4) Going to 3D is MUCH easier
Polygons can be broken down
Triangulate - Dividing a polygon into triangles.
Is it always possible? Why?
Any object can be broken down into polygons
Specifying a model
• For polygons, we had to worry about connectivity AND vertices.
• How would you specify a triangle? (What is the minimum you need to draw one?)– Only vertices
(x1,y1) (x2,y2) (x3,y3)
– No ambiguity– Line equations
A1x1+B1y1+C1=0 A2x2+B2y2+C2=0 A3x3+B3y3+C3=0
Triangles are always convex
• What is a convex shape?
An object is convex if and only if any line segment connecting two points on its boundary is contained entirely within the object or one of its boundaries. Think about scan lines again!
Scan Converting a Triangle
• Recap what we are trying to do
• Two main ways to rasterize a triangle– Edge Equations
• A1x1+B1y1+C1=0
• A2x2+B2y2+C2=0
• A3x3+B3y3+C3=0
– Edge Walking
Types of Triangles
What determines the spans? Can you think of an easy way to compute spans?
What is the special vertex here?
Edge Walking
• 1. Sort vertices in y and then x
• 2. Determine the middle vertex
• 3. Walk down edges from P0
• 4. Compute spans
P0
P1
P2
Edge Walking Pros and Cons
Pros• Fast• Easy to implement in
hardware
Cons• Special Cases• Interpolation can be
tricky
Color Interpolating
P0
P1
P2
(?, ?, ?)
(?, ?, ?)
Edge Equations
• A1x1+B1y1+C1=0
• A2x2+B2y2+C2=0
• A3x3+B3y3+C3=0
• How do you go from:
x1, y1 - x2, y2 toA1x1+B1y1+C1?
P0
P1P2
Given 2 points, compute A,B,C
0
0
11
00
CByAx
CByAx
0
0
11
00
C
C
B
A
yx
yx
C
C
B
A
yx
yx
11
00
1
1
11
00 CB
A
yx
yx
01
01
0110 xx
yy
yxyx
C
B
A
C = x0y1 – x1y0
A = y0 – y1
B = x1 – x0
Edge Equations• What does the edge equation
mean?
• A1x1+B1y1+C1=0
• Pt1[2,1], Pt2[6,11]• A=-10, B=4, C=16• What is the value of the
equation for the: – gray part
– yellow part
– the boundary line
• What happens when we reverse P0 and P1?
P0
P1
Positive Interior
• We add the C element from each edge– area = edge0.C + edge1.C + edge2.C– if (area>0) then inside points are in the positive
half spaces– if (area<0) then what should we do?– What happens if area=0?
Combining all edge equations
1) Determine edge equations for all three edges
2) Find out if we should reverse the edges
3) Create a bounding box
4) Test all pixels in the bounding box whether they too reside on the same side
P2
P1
P0
Edge Equations: Interpolating Color
• Given colors (and later, other parameters) at the vertices, how to interpolate across?
• Idea: triangles are planar in any space:– This is the “redness”
parameter space– Note:plane follows form
z = Ax + By + C– Look familiar?
Taken w/ permission from: David Luebke, UVAhttp://www.cs.virginia.edu/~gfx/Courses/2003/Intro.spring.03/lecture17.ppt
Edge Equations: Interpolating Color
• Given redness at the 3 vertices, set up the linear system of equations:
• The solution works out to:
Edge Equations:Interpolating Color
• Notice that the columns in the matrix are exactly the coefficients of the edge equations!
• So the setup cost per parameter is basically a matrix multiply
• Per-pixel cost (the inner loop) cost equates to tracking another edge equation value (which is?)– A: 1 add
Pros and Cons of Edge Equations
• Pros• If you have the right
hardware (PixelPlanes) then it is very fast
• Fast tests• Easy to interpolate
colors
• Cons• Can be expensive if
you don’t have hardware
• 50% efficient
Recap
P0
P1
P2
P1
P2
P0