d (Slides)
d (Project)
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Riadok 70: Riadok 70:
 
: [https://dai.fmph.uniba.sk/upload/8/81/Img3.png screen 3] = Imported, translated by -0.6 in X-axis, rotated by 0.6 rad around Y-axis, rotated by 0.4 rad around Z-axis and scaled by factor 1.1, in order  
 
: [https://dai.fmph.uniba.sk/upload/8/81/Img3.png screen 3] = Imported, translated by -0.6 in X-axis, rotated by 0.6 rad around Y-axis, rotated by 0.4 rad around Z-axis and scaled by factor 1.1, in order  
  
<!--=== Stage 2 (7p) ===
+
==== Stage 2 (7p) ====
''Deadline 26.11. 31:59''
+
''Deadline 6.1.2018 23:59''
  
Enhance existing visualization tool by implementing Phong Lightning Model (PLM).
+
Enhance existing visualization tool by implementing Blinn-Phong Lightning Model
([https://dai.fmph.uniba.sk/upload/a/a2/ZPGSO2016_EX05.pdf Excercise 05 notes])
+
  
 
; Mesh display
 
; Mesh display
: implement back-face culling. Faces on the far side of mesh should not be rendered (neither PLM calculated)
+
: Implement back-face culling. Faces on the far side of mesh should not be rendered
: display solid model - each face is a drawn as a polygon filled with color (no edges)
+
: Display solid model - each face is a drawn as a polygon filled with color (no edges)
: final face color should be calculated as multiples of base color and intensity calculated by PLM
+
: Final face color should be calculated as multiples of base color and intensity calculated by Blinn-Phong
 
; Controls
 
; Controls
: Add interface to control a direction of incoming light
+
: Add an interface to control a direction of incoming light
: Always remember the original transformation and reset it using a button
+
  
 
Examples of the functional program:
 
Examples of the functional program:
 
[https://dai.fmph.uniba.sk/upload/b/bd/Zpgso_pr2_scr1.png screen 1],
 
[https://dai.fmph.uniba.sk/upload/b/bd/Zpgso_pr2_scr1.png screen 1],
 
[https://dai.fmph.uniba.sk/upload/7/71/Zpgso_pr2_scr2.png screen 2]
 
[https://dai.fmph.uniba.sk/upload/7/71/Zpgso_pr2_scr2.png screen 2]
-->
 

Verzia zo dňa a času 12:38, 11. december 2018

Fundamentals of Computer Graphics and Image Processing 1-AIN-301

Course information sheet >

Lecture
Wednesday 9:50, M-I
Excercises
Monday 18:10, F1-248

Grading

You can get 100 points (p) during semester, where 1pt = 1% of final grade

  • Final writen exam: 50p
  • Excercises: 50p (with minimum of 30p)
    • 4 home assignments: 4x10p (2 from CG part and 2 from IP)
    • Attendance: 10x1p

Materials




Excercises CG

Slides

Slides #01

Slides #02

Slides #03

Slides #04

Project

Choose programming language of your liking (suggested Python/Java/Javascript)

Finished project send to adam.riecicky@fmph.uniba.sk

Stage 1 (13p)

Deadline 9.12.2018 23:59

Create a simple visualization and transformation tool for meshes, stored in obj. file format.

Structures
implement math types Mat4 and Vec4. Add functions Multiply(Mat4, Mat4) and Multiply(Vec4, Mat4).
implement IndexedFace which contains array of Vec4 vertex positions and array of Int indices
Mesh import and display
load mesh from Wavefront file (.obj). [Download test models here]. Assume that all imported models are scaled to box (2x2).
display wireframe model in the center of a screen so that Y-axis of model directs upwards and X-axis directs right. (Z is ignored)
Transformations - must be implemented using matrix multiplication!
Add buttons which can control transformations of the model. Each time user requests transformation by clicking a button, a model matrix should be constructed. (Optionally added to the previous transformation)
Motel matrix can be reset to identity using a button
Construct projection matrix which performs primitive orthogonal projection and transforms the object into the viewport
Always store the original model. Do model transformation and projection for each point only before rendering
Examples of the functional program
screen 1 = Import only
screen 2 = Import only
screen 3 = Imported, translated by -0.6 in X-axis, rotated by 0.6 rad around Y-axis, rotated by 0.4 rad around Z-axis and scaled by factor 1.1, in order

Stage 2 (7p)

Deadline 6.1.2018 23:59

Enhance existing visualization tool by implementing Blinn-Phong Lightning Model

Mesh display
Implement back-face culling. Faces on the far side of mesh should not be rendered
Display solid model - each face is a drawn as a polygon filled with color (no edges)
Final face color should be calculated as multiples of base color and intensity calculated by Blinn-Phong
Controls
Add an interface to control a direction of incoming light

Examples of the functional program: screen 1, screen 2