Illumination and Shading with GLSL/WebGL
|
|
|
- Lily Kelley
- 6 years ago
- Views:
Transcription
1 Illumination and Shading with GLSL/WebGL
2 Illumination with Shaders! Remember the local illumination model (Phong illumination) Illumination = ambient + diffuse + specular = Ka x Ia + Kd x Id x (N.L) + Ks x Is x (R.V) n Ambient Diffuse Specular
3 What you need to do in your WebGL code! Define the light(s ) position and its ambient, diffuse, and specular intensities (Ia, Id, Is in R,G,B)! Define the vertex normals (create a VBO)! Define object material properties (ambient, diffuse, and specular reflectance coefficients Ka, Kd, Ks)! Compute the normal transformation matrix (inverse-transpose of modelview matrix)
4 Uniforms or Attributes?! The light properties are definitely defined as uniforms (do not change per vertex)! The normals are attributes each vertex has its own normal! The material properties can be attributes or uniforms depends on whether you want to change them (Ka, Kd, Ks) per vertex
![Define and Pass Lights var light_ambient = [0,0,0,1]; var light_diffuse= [.8,.8,.8,1]; var light_specular = [1,1,1,1]; var light_pos = [10,10,0,1]; Variables defined in your shaders var l1 = gl.](/docs-images/79/78911165/images/5-0.jpg "getuniformlocation(programobject, \"light_ambient\"); var l2 = gl.getuniformlocation(programobject, \"light_diffuse\"); var l3 = gl.getuniformlocation(programobject, \"light_specular\"); var lp = gl.")
5 Define and Pass Lights var light_ambient = [0,0,0,1]; var light_diffuse= [.8,.8,.8,1]; var light_specular = [1,1,1,1]; var light_pos = [10,10,0,1]; Variables defined in your shaders var l1 = gl.getuniformlocation(programobject, "light_ambient"); var l2 = gl.getuniformlocation(programobject, "light_diffuse"); var l3 = gl.getuniformlocation(programobject, "light_specular"); var lp = gl.getuniformlocation(programobject, "light_pos"); gl.uniform4f(l1, light_ambient[0], light_ambient[1], light_ambient[2], 1.0); gl.uniform4f(l2, light_diffuse[0], light_diffuse[1], light_diffuse[2], 1.0); gl.uniform4f(l3, light_specular[0], light_specular[1], light_specular[2],1.0); gl.uniform4f(lp, light_pos[0], light_pos[1], light_pos[2], light_pos[3]);
6 Define and Pass Materials Here I am setting materials as uniforms (not per vertex) var mat_ambient = [0, 0, 0, 1]; var mat_diffuse= [1, 1, 0, 1]; var mat_specular = [.9,.9,.9,1]; Var mat_shine = [50]; Variables defined in your shaders var d1 = gl.getuniformlocation(programobject, "ambient_coef"); var d2 = gl.getuniformlocation(programobject, "diffuse_coef"); var d3 = gl.getuniformlocation(programobject, "specular_coef"); var d4 = gl.getuniformlocation(programobject, "mat_shininess"); gl.uniform4f(d1, mat_ambient[0], mat_ambient[1], mat_ambient[2], 1.0); gl.uniform4f(d2, mat_diffuse[0], mat_diffuse[1], mat_diffuse[2], 1.0); gl.uniform4f(d3, mat_specular[0], mat_specular[1], mat_specular[2],1.0); gl.uniform1f(d4, mat_shine[0]);
![Define a normal for each vertex and pass with the VBO /// Define the Vertex attributes location[4]; normal[4]; color[4]; v2 Create](/docs-images/79/78911165/images/7-1.jpg "VBOs for normals as well n v1 The vertex normal n = v 1 cross product v2 Note:make the fourth component of the normal Normal[3] = 0.")
7 Define a normal for each vertex and pass with the VBO /// Define the Vertex attributes location[4]; normal[4]; color[4]; v2 Create VBOs for normals as well n v1 The vertex normal n = v 1 cross product v2 Note:make the fourth component of the normal Normal[3] = 0.0
8 Where do I calculate lighting! You need to calculate lighting in eye space! Lighting cannot be calculated in clip space because the shape of the object, therefore all the angles, are distorted! This means that you need to pass the modelview matrix to the shader as uniforms! Why? Modelview matrix transforms your vertices from local space to eye space
9 Normals need to be transformed too! Like you vertex positions need to be transformed to eye space, the normals need to be transformed too! The normal [u,v,w] will have the form [u,v,w,0] in the homogeneous space! The matrix to transform the normal is the inverse transpose of the modelview matrix normal matrix = (modelview -1 ) T normal_matrix = mat4.inverse(modelview); normal_matrix = mat4.transpose(normal_matrix);
10 Pass the matrices var m1 = gl.getuniformlocation(programobject, ummatrix"); // model matrix var m2 = gl.getuniformlocation(programobject, uvmatrix"); // view matrix var m3 = gl.getuniformlocation(programobject, upmatrix"); // projection matrix var m4 = gl.getuniformlocation(programobject, unmatrix); // normal matrix gl.uniformmatrix4fv(m1, false, mmatrix); gl.uniformmatrix4fv(m2, false, vmatrix); gl.uniformmatrix4fv(m3, false, pmatrix); gl.uniformmatrix4fv(m4, false, nmatrix); Variables defined in your javascript
11 Vertex Shader precision mediump float; attribute vec3 avertexposition; attribute vec3 avertexnormal; attribute vec4 avertexcolor; uniform mat4 ummatrix; uniform mat4 uvmatrix; uniform mat4 upmatrix; uniform mat4 unmatrix; uniform vec4 ambient_coef; uniform vec4 diffuse_coef; uniform vec4 specular_coef; uniform float mat_shininess; uniform vec4 light_pos; uniform vec4 light_ambient; uniform vec4 light_diffuse; uniform vec4 light_specular; varying vec4 eye_pos; //vertex position in eye space varying vec3 v_normal; // vertex normal main(){ // will discuss the implementation in class }
12 Fragment Shader precision mediump float; uniform mat4 ummatrix; uniform mat4 uvmatrix; uniform mat4 upmatrix; uniform mat4 unmatrix; uniform vec4 ambient_coef; uniform vec4 diffuse_coef; uniform vec4 specular_coef; uniform float mat_shininess; uniform vec4 light_pos; uniform vec4 light_ambient; uniform vec4 light_diffuse; uniform vec4 light_specular; varying vec4 eye_pos; //vertex position in eye space varying vec3 v_normal; // vertex normal main(){ // will discuss the implementation in class }
CS 418: Interactive Computer Graphics. Basic Shading in WebGL. Eric Shaffer
CS 48: Interactive Computer Graphics Basic Shading in WebGL Eric Shaffer Some slides adapted from Angel and Shreiner: Interactive Computer Graphics 7E Addison-Wesley 205 Phong Reflectance Model Blinn-Phong
Lighting and Shading II. Angel and Shreiner: Interactive Computer Graphics 7E Addison-Wesley 2015
Lighting and Shading II 1 Objectives Continue discussion of shading Introduce modified Phong model Consider computation of required vectors 2 Ambient Light Ambient light is the result of multiple interactions
Illumination & Shading I
CS 543: Computer Graphics Illumination & Shading I Robert W. Lindeman Associate Professor Interactive Media & Game Development Department of Computer Science Worcester Polytechnic Institute gogo@wpi.edu
Computer Graphics Coursework 1
Computer Graphics Coursework 1 Deadline Deadline: 4pm, 24/10/2016 4pm 23/10/2015 Outline The aim of the coursework is to modify the vertex and fragment shaders in the provided OpenGL framework to implement
CS452/552; EE465/505. Lighting & Shading
CS452/552; EE465/505 Lighting & Shading 2-17 15 Outline! More on Lighting and Shading Read: Angel Chapter 6 Lab2: due tonight use ASDW to move a 2D shape around; 1 to center Local Illumination! Approximate
Computer Graphics with OpenGL ES (J. Han) Chapter 6 Fragment shader
Computer Graphics with OpenGL ES (J. Han) Chapter 6 Fragment shader Vertex and Fragment Shaders The inputs to the fragment shader Varyings: The per-vertex output variables produced by the vertex shader
Illumination and Shading
Illumination and Shading Illumination (Lighting)! Model the interaction of light with surface points to determine their final color and brightness! The illumination can be computed either at vertices or
CS 148, Summer 2012 Introduction to Computer Graphics and Imaging
http://www.ann.jussieu.fr/~frey/papers/scivi/cook%20r.l.,%20a%20reflectance%20model%20for%20computer%20graphics.pdf CS 148, Summer 2012 Introduction to Computer Graphics and Imaging f(~v 2 ) A 3 A 1 f(~v
5.2 Shading in OpenGL
Fall 2017 CSCI 420: Computer Graphics 5.2 Shading in OpenGL Hao Li http://cs420.hao-li.com 1 Outline Normal Vectors in OpenGL Polygonal Shading Light Sources in OpenGL Material Properties in OpenGL Example:
Shading in OpenGL. Outline. Defining and Maintaining Normals. Normalization. Enabling Lighting and Lights. Outline
CSCI 420 Computer Graphics Lecture 10 Shading in OpenGL Normal Vectors in OpenGL Polygonal Shading Light Source in OpenGL Material Properties in OpenGL Approximating a Sphere [Angel Ch. 6.5-6.9] Jernej
CGT520 Lighting. Lighting. T-vertices. Normal vector. Color of an object can be specified 1) Explicitly as a color buffer
CGT520 Lighting Lighting Color of an object can be specified 1) Explicitly as a color buffer Bedrich Benes, Ph.D. Purdue University Department of Computer Graphics 2) Implicitly from the illumination model.
CS 432 Interactive Computer Graphics
CS 432 Interactive Computer Graphics Lecture 6 Part 2 Lighting and Shading in OpenGL Matt Burlick - Drexel University - CS 430 1 OpenGL Shading Need Vertex Normals Material properties Lights Position of
Lecture 17: Shading in OpenGL. CITS3003 Graphics & Animation
Lecture 17: Shading in OpenGL CITS3003 Graphics & Animation E. Angel and D. Shreiner: Interactive Computer Graphics 6E Addison-Wesley 2012 Objectives Introduce the OpenGL shading methods - per vertex shading
Introduction to Computer Graphics with WebGL
1 Introduction to Computer Graphics with WebGL Ed Angel Lighting in WebGL WebGL lighting Application must specify - Normals - Material properties - Lights State-based shading functions have been deprecated
Objectives Shading in OpenGL. Front and Back Faces. OpenGL shading. Introduce the OpenGL shading methods. Discuss polygonal shading
Objectives Shading in OpenGL Introduce the OpenGL shading methods - per vertex shading vs per fragment shading - Where to carry out Discuss polygonal shading - Flat - Smooth - Gouraud CITS3003 Graphics
Illumination Model. The governing principles for computing the. Apply the lighting model at a set of points across the entire surface.
Illumination and Shading Illumination (Lighting) Model the interaction of light with surface points to determine their final color and brightness OpenGL computes illumination at vertices illumination Shading
CS 4731: Computer Graphics Lecture 16: Phong Illumination and Shading. Emmanuel Agu
CS 4731: Computer Graphics Lecture 16: Phong Illumination and Shading Emmanuel Agu Recall: Setting Light Property Define colors and position a light GLfloat light_ambient[] = {0.0, 0.0, 0.0, 1.0}; GLfloat
Phong Lighting & Materials. Some slides modified from: David Kabala Others from: Andries Van Damm, Brown Univ.
Phong Lighting & Materials Some slides modified from: David Kabala Others from: Andries Van Damm, Brown Univ. Lighting and Shading Lighting, or illumination, is the process of computing the intensity and
Computer Graphics (CS 543) Lecture 8a: Per-Vertex lighting, Shading and Per-Fragment lighting
Computer Graphics (CS 543) Lecture 8a: Per-Vertex lighting, Shading and Per-Fragment lighting Prof Emmanuel Agu Computer Science Dept. Worcester Polytechnic Institute (WPI) Computation of Vectors To calculate
Illumination and Shading
Illumination and Shading Illumination (Lighting) Model the interaction of light with surface points to determine their final color and brightness OpenGL computes illumination at vertices illumination Shading
CS 4600 Fall Utah School of Computing
Lighting CS 4600 Fall 2015 Utah School of Computing Objectives Learn to shade objects so their images appear three-dimensional Introduce the types of light-material interactions Build a simple reflection
CS Computer Graphics: Illumination and Shading I
CS 543 - Computer Graphics: Illumination and Shading I by Robert W. Lindeman gogo@wpi.edu (with help from Emmanuel Agu ;-) Illumination and Shading Problem: Model light/surface point interactions to determine
CS Computer Graphics: Illumination and Shading I
CS 543 - Computer Graphics: Illumination and Shading I by Robert W. Lindeman gogo@wpi.edu (with help from Emmanuel Agu ;-) Illumination and Shading Problem: Model light/surface point interactions to determine
INSTANCE VARIABLES (1/2) P. 1
SHADOWS: THE CODE 1 OUTLINE 2 INSTANCE VARIABLES (1/2) P. 1 private GLCanvas mycanvas; private Material thismaterial; private String[] vblinn1shadersource, vblinn2shadersource, fblinn2shadersource; private
-=Bui Tuong Phong's Lighting=- University of Utah, but with shaders. Anton Gerdelan Trinity College Dublin
-=Bui Tuong Phong's Lighting=- University of Utah, 1973 but with shaders Anton Gerdelan Trinity College Dublin Before we do anything - normals Q. What does a normal do? Q. How do we usually calculate them?
Shading and Illumination
Shading and Illumination OpenGL Shading Without Shading With Shading Physics Bidirectional Reflectance Distribution Function (BRDF) f r (ω i,ω ) = dl(ω ) L(ω i )cosθ i dω i = dl(ω ) L(ω i )( ω i n)dω
Shadows. Prof. George Wolberg Dept. of Computer Science City College of New York
Shadows Prof. George Wolberg Dept. of Computer Science City College of New York Objectives Introduce Shadow Algorithms Expand to projective textures 2 Flashlight in the Eye Graphics When do we not see
INFOGR Computer Graphics
INFOGR Computer Graphics Jacco Bikker & Debabrata Panja - April-July 2018 Lecture 10: Shaders Welcome! Ƹ Ƹ Ƹ x M final = T totorso R T down R = x y z 1 0 0 0 0 1 0 0 0 0 1 0 0 0 0 1 Operations: 1. Translate
CS559 Computer Graphics Fall 2015
CS559 Computer Graphics Fall 2015 Practice Midterm Exam Time: 2 hrs 1. [XX Y Y % = ZZ%] MULTIPLE CHOICE SECTION. Circle or underline the correct answer (or answers). You do not need to provide a justification
UNIT 7 LIGHTING AND SHADING. 1. Explain phong lighting model. Indicate the advantages and disadvantages. (Jun2012) 10M
UNIT 7 LIGHTING AND SHADING 1. Explain phong lighting model. Indicate the advantages and disadvantages. (Jun2012) 10M Ans: Phong developed a simple model that can be computed rapidly It considers three
Mobile Application Programing: Android. OpenGL Operation
Mobile Application Programing: Android OpenGL Operation Activities Apps are composed of activities Activities are self-contained tasks made up of one screen-full of information Activities start one another
Game Graphics & Real-time Rendering
Game Graphics & Real-time Rendering CMPM 163, W2018 Prof. Angus Forbes (instructor) angus@ucsc.edu Lucas Ferreira (TA) lferreira@ucsc.edu creativecoding.soe.ucsc.edu/courses/cmpm163 github.com/creativecodinglab
INFOGR Computer Graphics
INFOGR Computer Graphics Jacco Bikker & Debabrata Panja - April-July 2017 Lecture 10: Shaders Welcome! INFOGR2016/17 Today s Agenda: Recap: Diffuse Materials The Phong Shading Model Environment
Pipeline Operations. CS 4620 Lecture Steve Marschner. Cornell CS4620 Spring 2018 Lecture 11
Pipeline Operations CS 4620 Lecture 11 1 Pipeline you are here APPLICATION COMMAND STREAM 3D transformations; shading VERTEX PROCESSING TRANSFORMED GEOMETRY conversion of primitives to pixels RASTERIZATION
Ambient and Diffuse Light
Ambient and Diffuse Light Lecture 20 Robb T. Koether Hampden-Sydney College Mon, Oct 12, 2015 Robb T. Koether (Hampden-Sydney College) Ambient and Diffuse Light Mon, Oct 12, 2015 1 / 29 Outline 1 Lighting
Lighting. CSC 7443: Scientific Information Visualization
Lighting Why Lighting? What light source is used and how the object response to the light makes difference Ocean looks bright bluish green in sunny day but dim gray green in cloudy day Lighting gives you
Computer Graphics (CS 4731) Lecture 18: Lighting, Shading and Materials (Part 3)
Computer Graphics (CS 4731) Lecture 18: Lighting, Shading and Materials (Part 3) Prof Emmanuel Agu Computer Science Dept. Worcester Polytechnic Institute (WPI) Recall: Flat Shading compute lighting once
Objectives. Introduce the OpenGL shading Methods 1) Light and material functions on MV.js 2) per vertex vs per fragment shading 3) Where to carry out
Objectives Introduce the OpenGL shading Methods 1) Light and material functions on MV.js 2) per vertex vs per fragment shading 3) Where to carry out 1 Steps in OpenGL shading Enable shading and select
Pipeline Operations. CS 4620 Lecture 14
Pipeline Operations CS 4620 Lecture 14 2014 Steve Marschner 1 Pipeline you are here APPLICATION COMMAND STREAM 3D transformations; shading VERTEX PROCESSING TRANSFORMED GEOMETRY conversion of primitives
REALISTIC RENDERING IN WEBGL
REALISTIC RENDERING IN WEBGL 1 LI YU, 2 XIAOMENG MAO 1 Assoc Prof., School of Information Technology, Shanghai Jianqiao University, Shanghai 2 Lecturer, School of Information Technology, Shanghai Jianqiao
Mobile Application Programing: Android. OpenGL Operation
Mobile Application Programing: Android OpenGL Operation Activities Apps are composed of activities Activities are self-contained tasks made up of one screen-full of information Activities start one another
CS 130 Final. Fall 2015
CS 130 Final Fall 2015 Name Student ID Signature You may not ask any questions during the test. If you believe that there is something wrong with a question, write down what you think the question is trying
BCA611 Video Oyunları için 3B Grafik
BCA611 Video Oyunları için 3B Grafik WebGL - Shader Programming Zümra Kavafoğlu Canvas element The HTML element is used to draw graphics on a web page. Create canvas with id, width and height
Graphics Processing Units (GPUs) V1.2 (January 2010) Outline. High-Level Pipeline. 1. GPU Pipeline:
Graphics Processing Units (GPUs) V1.2 (January 2010) Anthony Steed Based on slides from Jan Kautz (v1.0) Outline 1. GPU Pipeline: s Lighting Rasterization Fragment Operations 2. Vertex Shaders 3. Pixel
CS452/552; EE465/505. Intro to Lighting
CS452/552; EE465/505 Intro to Lighting 2-10 15 Outline! Projection Normalization! Introduction to Lighting (and Shading) Read: Angel Chapter 5., sections 5.4-5.7 Parallel Projections Chapter 6, sections
Lessons Learned from HW4. Shading. Objectives. Why we need shading. Shading. Scattering
Lessons Learned from HW Shading CS Interactive Computer Graphics Prof. David E. Breen Department of Computer Science Only have an idle() function if something is animated Set idle function to NULL, when
Lecture 10: Shading Languages. Kayvon Fatahalian CMU : Graphics and Imaging Architectures (Fall 2011)
Lecture 10: Shading Languages Kayvon Fatahalian CMU 15-869: Graphics and Imaging Architectures (Fall 2011) Review: role of shading languages Renderer handles surface visibility tasks - Examples: clip,
C O M P U T E R G R A P H I C S. Computer Graphics. Three-Dimensional Graphics V. Guoying Zhao 1 / 65
Computer Graphics Three-Dimensional Graphics V Guoying Zhao 1 / 65 Shading Guoying Zhao 2 / 65 Objectives Learn to shade objects so their images appear three-dimensional Introduce the types of light-material
GLSL Introduction. Fu-Chung Huang. Thanks for materials from many other people
GLSL Introduction Fu-Chung Huang Thanks for materials from many other people Programmable Shaders //per vertex inputs from main attribute aposition; attribute anormal; //outputs to frag. program varying
Shading Language Update
3 Shading Language Update Bill Licea-Kane Copyright Khronos Group, 2007 - Page 1 About this talk - Caveat BOFor Contributions to arb-glsl workgroup - NOT final, subject to (minor?) changes Not exhaustive
Introduction to Programmable GPUs CPSC 314. Real Time Graphics
Introduction to Programmable GPUs CPSC 314 Introduction to GPU Programming CS314 Gordon Wetzstein, 02/2011 Real Time Graphics Introduction to GPU Programming CS314 Gordon Wetzstein, 02/2011 1 GPUs vs CPUs
Shading , Fall 2004 Nancy Pollard Mark Tomczak
15-462, Fall 2004 Nancy Pollard Mark Tomczak Shading Shading Concepts Shading Equations Lambertian, Gouraud shading Phong Illumination Model Non-photorealistic rendering [Shirly, Ch. 8] Announcements Written
CS 4620 Midterm, October 23, 2018 SOLUTION
1. [20 points] Transformations CS 4620 Midterm, October 23, 2018 SOLUTION (a) Describe the action of each of the following matrices, as transformations in homogeneous coordinates, in terms of rotation,
ECS 175 COMPUTER GRAPHICS. Ken Joy.! Winter 2014
ECS 175 COMPUTER GRAPHICS Ken Joy Winter 2014 Shading To be able to model shading, we simplify Uniform Media no scattering of light Opaque Objects No Interreflection Point Light Sources RGB Color (eliminating
The Graphics Pipeline and OpenGL III: OpenGL Shading Language (GLSL 1.10)!
! The Graphics Pipeline and OpenGL III: OpenGL Shading Language (GLSL 1.10)! Gordon Wetzstein! Stanford University! EE 267 Virtual Reality! Lecture 4! stanford.edu/class/ee267/! Updates! for 24h lab access:
Mobile Application Programming: Android. OpenGL Operation
Mobile Application Programming: Android OpenGL Operation OpenGL ES C-Based Performance-Oriented Graphics Library Wrapper libraries provided for Java, C#, etc. Produces 2D images from 2D or 3D geometric
Illumination and Shading
CT4510: Computer Graphics Illumination and Shading BOCHANG MOON Photorealism The ultimate goal of rendering is to produce photo realistic images. i.e., rendered images should be indistinguishable from
Appendix D: POL A Binary File Format for Polygonal Models
Appendix D: POL A Binary File Format for Polygonal Models InnovMetric Software has devised POL, a binary file format that allows the description of polygonal models with grouping information, material
Illumination Model. The governing principles for computing the. Apply the lighting model at a set of points across the entire surface.
Illumination and Shading Illumination (ighting) Model the interaction of light with surface oints to determine their final color and brightness OenG comutes illumination at vertices illumination Shading
Lab 9 - Metal and Glass
Lab 9 - Metal and Glass Let the form of an object be what it may, light, shade, and perspective will always make it beautiful. -John Constable Prologue Support code: /course/cs1230/src/labs/lab09 This
Supplement to Lecture 22
Supplement to Lecture 22 Programmable GPUs Programmable Pipelines Introduce programmable pipelines - Vertex shaders - Fragment shaders Introduce shading languages - Needed to describe shaders - RenderMan
CS5620 Intro to Computer Graphics
So Far wireframe hidden surfaces Next step 1 2 Light! Need to understand: How lighting works Types of lights Types of surfaces How shading works Shading algorithms What s Missing? Lighting vs. Shading
Rendering. Illumination Model. Wireframe rendering simple, ambiguous Color filling flat without any 3D information
llumination Model Wireframe rendering simple, ambiguous Color filling flat without any 3D information Requires modeling interaction of light with the object/surface to have a different color (shade in
1 of 5 9/10/ :11 PM
Shader programs Summary: This tutorial shows how to write a simple shader in X3D. Shader program definition Keywords: tutorial, X3D, world, rendering Author(s): Yvonne Jung Date: 2007-02-05 First an example
C P S C 314 S H A D E R S, O P E N G L, & J S RENDERING PIPELINE. Mikhail Bessmeltsev
C P S C 314 S H A D E R S, O P E N G L, & J S RENDERING PIPELINE UGRAD.CS.UBC.C A/~CS314 Mikhail Bessmeltsev 1 WHAT IS RENDERING? Generating image from a 3D scene 2 WHAT IS RENDERING? Generating image
Orthogonal Projection Matrices. Angel and Shreiner: Interactive Computer Graphics 7E Addison-Wesley 2015
Orthogonal Projection Matrices 1 Objectives Derive the projection matrices used for standard orthogonal projections Introduce oblique projections Introduce projection normalization 2 Normalization Rather
CSE 4431/ M Advanced Topics in 3D Computer Graphics. TA: Margarita Vinnikov
CSE 4431/5331.03M Advanced Topics in 3D Computer Graphics TA: Margarita Vinnikov mvinni@cse.yorku.ca Debugging Shaders Can't print a number from a shader, but you can "print" a colour, most of our value-checking
Computer Viewing. CS 537 Interactive Computer Graphics Prof. David E. Breen Department of Computer Science
Computer Viewing CS 537 Interactive Computer Graphics Prof. David E. Breen Department of Computer Science 1 Objectives Introduce the mathematics of projection Introduce OpenGL viewing functions Look at
Graphics Processing Units (GPUs) V2.2 (January 2013) Jan Kautz, Anthony Steed, Tim Weyrich
Graphics Processing Units (GPUs) V2.2 (January 2013) Jan Kautz, Anthony Steed, Tim Weyrich Outline 1. Traditional OpenGL Pipeline: 2. Modern OpenGL Pipeline 3. Vertex Shaders 4. Pixel Shaders 5. Example:
The Graphics Pipeline and OpenGL III: OpenGL Shading Language (GLSL 1.10)!
! The Graphics Pipeline and OpenGL III: OpenGL Shading Language (GLSL 1.10)! Gordon Wetzstein! Stanford University! EE 267 Virtual Reality! Lecture 4! stanford.edu/class/ee267/! Lecture Overview! Review
CG Surfaces: Materials, Shading, and Texturing
CG Surfaces: Materials, Shading, and Texturing ART/CSC/FST 220 Spring 2007 From text: 3D for Beginners, Chapter 7 Art of Maya (pages 116-126, 185-194) Shading and texturing involves materials and their
OpenGL Lighting Computer Graphics Spring Frank Palermo
OpenGL Lighting 15-462 Computer Graphics Spring 2009 Frank Palermo OpenGL is just a bunch of hacks. -Adrien Treuille What Adrien Means... What Adrien means is that OpenGL was designed to produce reasonable-looking
OPENGL RENDERING PIPELINE
CPSC 314 03 SHADERS, OPENGL, & JS UGRAD.CS.UBC.CA/~CS314 Textbook: Appendix A* (helpful, but different version of OpenGL) Alla Sheffer Sep 2016 OPENGL RENDERING PIPELINE 1 OPENGL RENDERING PIPELINE Javascript
To Do. Demo for mytest3. Methodology for Lecture. Importance of Lighting. Brief primer on Color. Computer Graphics
Computer Graphics CSE 167 [Win 17], Lecture 7: OpenGL Shading Ravi Ramamoorthi http://viscomp.ucsd.edu/classes/cse167/wi17 To Do This week s lectures have all info for HW 2 Start EARLY Methodology for
Computer Graphics (CS 4731) Lecture 16: Lighting, Shading and Materials (Part 1)
Computer Graphics (CS 4731) Lecture 16: Lighting, Shading and Materials (Part 1) Prof Emmanuel Agu Computer Science Dept. Worcester Polytechnic Institute (WPI) Why do we need Lighting & shading? Sphere
INF3320 Computer Graphics and Discrete Geometry
INF3320 Computer Graphics and Discrete Geometry Visual appearance Christopher Dyken and Martin Reimers 23.09.2009 Page 1 Visual appearance Real Time Rendering: Chapter 5 Light Sources and materials Shading
CS770/870 Spring 2017 Open GL Shader Language GLSL
Preview CS770/870 Spring 2017 Open GL Shader Language GLSL Review traditional graphics pipeline CPU/GPU mixed pipeline issues Shaders GLSL graphics pipeline Based on material from Angel and Shreiner, Interactive
CS770/870 Spring 2017 Open GL Shader Language GLSL
CS770/870 Spring 2017 Open GL Shader Language GLSL Based on material from Angel and Shreiner, Interactive Computer Graphics, 6 th Edition, Addison-Wesley, 2011 Bailey and Cunningham, Graphics Shaders 2
Computer Graphics (CS 543) Lecture 7b: Intro to lighting, Shading and Materials + Phong Lighting Model
Computer Graphics (CS 543) Lecture 7b: Intro to lighting, Shading and Materials + Phong Lighting Model Prof Emmanuel Agu Computer Science Dept. Worcester Polytechnic Institute (WPI) Why do we need Lighting
Interactive Real-Time Raycasting
Interactive Real-Time Raycasting CS184 AS4 Due 2009-02-26 11:00pm We start our exploration of Rendering - the process of converting a high-level object-based description into a graphical image for display.
Introduction to Computer Graphics. Hardware Acceleration Review
Introduction to Computer Graphics Hardware Acceleration Review OpenGL Project Setup Create a command-line style project in Xcode 4 Select the project file and click Build Phases tab Add OpenGL.framework
Introduction to Computer Graphics with WebGL
Introduction to Computer Graphics with WebGL Ed Angel Classical Viewing Computer Graphics with WebGL Ed Angel, 204 Classical Viewing Viewing requires three basic elements - One or more objects - A viewer
Shading. Brian Curless CSE 457 Spring 2017
Shading Brian Curless CSE 457 Spring 2017 1 Reading Optional: Angel and Shreiner: chapter 5. Marschner and Shirley: chapter 10, chapter 17. Further reading: OpenGL red book, chapter 5. 2 Basic 3D graphics
Lighting and Shading Computer Graphics I Lecture 7. Light Sources Phong Illumination Model Normal Vectors [Angel, Ch
15-462 Computer Graphics I Lecture 7 Lighting and Shading February 12, 2002 Frank Pfenning Carnegie Mellon University http://www.cs.cmu.edu/~fp/courses/graphics/ Light Sources Phong Illumination Model
Ligh%ng in OpenGL. The Phong Illumina%on Model. Vector Background
Ligh%ng in OpenGL The Phong Illumina%on Model Vector Background 1 Vector Dot Product The dot product of two vectors is a number:! x $ # 1 v 1 = # y 1 # " z 1 %! x $ # 2 v 2 = # y 2 # " z 2 % In GLSL you
Introduction to Programmable GPUs CPSC 314. Introduction to GPU Programming CS314 Gordon Wetzstein, 09/03/09
Introduction to Programmable GPUs CPSC 314 News Homework: no new homework this week (focus on quiz prep) Quiz 2 this Friday topics: everything after transformations up until last Friday's lecture questions
CS GPU and GPGPU Programming Lecture 3: GPU Architecture 2. Markus Hadwiger, KAUST
CS 380 - GPU and GPGPU Programming Lecture 3: GPU Architecture 2 Markus Hadwiger, KAUST Reading Assignment #2 (until Feb. 9) Read (required): GLSL book, chapter 4 (The OpenGL Programmable Pipeline) GPU
GLSL Introduction. Fu-Chung Huang. Thanks for materials from many other people
GLSL Introduction Fu-Chung Huang Thanks for materials from many other people Shader Languages Currently 3 major shader languages Cg (Nvidia) HLSL (Microsoft) Derived from Cg GLSL (OpenGL) Main influences
Introduction to Computer Graphics with WebGL
Introduction to Computer Graphics with WebGL Ed Angel Professor Emeritus of Computer Science Founding Director, Arts, Research, Technology and Science Laboratory University of New Mexico 1 Computer Viewing
Ligh%ng and Shading. Ligh%ng and Shading. q Is this a plate or a ball? q What color should I set for each pixel?
Ligh%ng and Shading Ligh%ng and Shading Is this a plate or a ball? What color should I set for each pixel? 1 Physical Reality As light hits the surface: Part is absorbed Part is reflected Visible light
Game Graphics & Real-time Rendering
Game Graphics & Real-time Rendering CMPM 163, W2018 Prof. Angus Forbes (instructor) angus@ucsc.edu Lucas Ferreira (TA) lferreira@ucsc.edu creativecoding.soe.ucsc.edu/courses/cmpm163 github.com/creativecodinglab
SUMMARY. CS380: Introduction to Computer Graphics Projection Chapter 10. Min H. Kim KAIST School of Computing 18/04/12. Smooth Interpolation
CS38: Introduction to Computer Graphics Projection Chapter Min H. Kim KAIST School of Computing Smooth Interpolation SUMMARY 2 Cubic Bezier Spline To evaluate the function c(t) at any value of t, we perform
surface: reflectance transparency, opacity, translucency orientation illumination: location intensity wavelength point-source, diffuse source
walters@buffalo.edu CSE 480/580 Lecture 18 Slide 1 Illumination and Shading Light reflected from nonluminous objects depends on: surface: reflectance transparency, opacity, translucency orientation illumination:
Specular Reflection. Lecture 19. Robb T. Koether. Hampden-Sydney College. Wed, Oct 4, 2017
Specular Reflection Lecture 19 Robb T. Koether Hampden-Sydney College Wed, Oct 4, 2017 Robb T. Koether (Hampden-Sydney College) Specular Reflection Wed, Oct 4, 2017 1 / 22 Outline 1 Specular Reflection
To Do. Demo for mytest3. Methodology for Lecture. Importance of Lighting. Brief primer on Color. Foundations of Computer Graphics (Spring 2012)
Foundations of Computer Graphics (Spring 2012) CS 184, Lecture 7: OpenGL Shading http://inst.eecs.berkeley.edu/~cs184 To Do Submit HW 1 (due tomorrow) Must include partners for HW 2 (speak with TA to find
Deferred Rendering Due: Wednesday November 15 at 10pm
CMSC 23700 Autumn 2017 Introduction to Computer Graphics Project 4 November 2, 2017 Deferred Rendering Due: Wednesday November 15 at 10pm 1 Summary This assignment uses the same application architecture
OpenGl Pipeline. triangles, lines, points, images. Per-vertex ops. Primitive assembly. Texturing. Rasterization. Per-fragment ops.
OpenGl Pipeline Individual Vertices Transformed Vertices Commands Processor Per-vertex ops Primitive assembly triangles, lines, points, images Primitives Fragments Rasterization Texturing Per-fragment
University of Victoria CSC 305 Shading. Brian Wyvill 2016
University of Victoria CSC 305 Shading Brian Wyvill 2016 The illuminating Hemisphere Energy and Intensity Energy is the intensity integrated over the solid angle through which it acts. Intensity is not
Shaders. Slide credit to Prof. Zwicker
Shaders Slide credit to Prof. Zwicker 2 Today Shader programming 3 Complete model Blinn model with several light sources i diffuse specular ambient How is this implemented on the graphics processor (GPU)?
GLSL 1: Basics. J.Tumblin-Modified SLIDES from:
GLSL 1: Basics J.Tumblin-Modified SLIDES from: Ed Angel Professor of Computer Science, Electrical and Computer Engineering, and Media Arts Director, Arts Technology Center University of New Mexico and