Difference between revisions of "256a-fall-2014/hw2"

From CCRMA Wiki
Jump to: navigation, search
Line 10: Line 10:
=== Specification (part 0 of 3): Reading ===
=== Specification (part 0 of 3): Reading ===
* '''please read this:''' http://www.gewang.com/publish/files/2014-icmc-viz.pdf Principles of Visual Design for Computer Music]
* '''please read this:''' [http://www.gewang.com/publish/files/2014-icmc-viz.pdf Principles of Visual Design for Computer Music]
* the original OpenGL (1.1) reference: [http://www.glprogramming.com/red/ "The Red Book"]
* the original OpenGL (1.1) reference: [http://www.glprogramming.com/red/ "The Red Book"]
* download and play with [http://ccrma.stanford.edu/~ge/software/sndpeek sndpeek]
* download and play with [http://ccrma.stanford.edu/~ge/software/sndpeek sndpeek]

Latest revision as of 13:12, 6 May 2015

Homework #2: Sound Peeking

Due date: 2014.10.14 11:59:59pm, Tuesday.


In this assignment, you are to visualize sound in real-time, using OpenGL for the graphics programming.

Specification (part 0 of 3): Reading

Specification (part 1 of 3): Naming + Compilation

  • choose a name for your program
  • get a framework compiling on your system (keep in mind the final deliverable must be compilable/runnable on the CCRMA machines)
  • might wish to start from the VisualSine example from lecture (time domain waveform rendering)
  • use the chuck_fft.* files found here NOTE: this library ONLY works with single-precision floating point numbers (e.g., float)

Specification (part 2 of 3): Visualizing the spectrum

  • implement short time fourier transform, and visualize the spectrum over time
  • considerations:
    • windowing (rectangular, hann, hamming)
    • window size
    • FFT size
    • hop size (for now, hop size can equal window size)
  • implement either a waterfall plot (like sndpeek) or a real-time scrolling spectrogram

Specification (part 3 of 3): Visualize something about the sound

  • implement and visualize your choice of one of the following:
    • vowel vs. consonant
    • pitch tracking
    • an audio feature
    • use the sound to control some type of animation
    • (or something of your choosing)


  • have fun with it!!!
  • comment your code!
  • choose your own coding conventions - but be consistent
  • you are welcome to work together, but you must do/turn in your own work (you'll likely get more out of it this way)


turn in all files by putting them in your CCRMA webpage, accessible via Library/Web/256a/hw2/ directory, and concise online documentation + readme

  • 0) source code to the project (*.h, *.cpp, *.c makefile, etc.)
  • 1) screenshots of your visualizer!
  • 2) online page for your project (should be viewable at http://ccrma.stanford.edu/~YOURID/256a/hw2/). It should include:
    • links to your files of various kinds
    • instructions on building the project (for example, anyone in the class should be able to download
    • a short README text section that:
      • conveys your ideas/comments in constructing each program
      • describes any difficulties you encountered in the process
      • lists any collaborators
  • 3) upload to coursework, under a new folder hw2