Homework #1: Real-time Audio, Buffers, and Waveforms

Due date: 2008.10.8 11:59:59pm (or thereabout), Wednesday.

Let's get cookin'.

Specification (part 1 of 2): Real-time Audio

• create a program that is capable of real-time audio input/output
• start with a blank C++ program
• create a minimally compilable program (e.g., something like HelloWorld):
  • if you'd like, you can start with this very basic makefile (may need to make changes)
• next, add real-time, using the RtAudio Library (version 4.0.4)
  • download it from here
  • even though it's useful to briefly look through the package, the only files you'll need are:
    • RtAudio.h (the header file for RtAudio, it contains the class definitions)
    • RtAudio.cpp (the implementation)
    • RtError.h (header containing various error handling constructs for RtAudio)
• this is similar to (but not identical to) the example we did in class (see HelloSine):
  • your program is using an updated RtAudio interface, which is different from the one we used in class, please study
  • it may be also useful to browse the RtAudio documentation, the example programs in the RtAudio distribution
  • NOTE: even though the code is nearly all there, it's infinitely more useful to actually write the code from scratch - even if you type it in line by line!
• implement the callback function to generate the expect number of samples per call for a sine wave at 440Hz
• the overall behavior when you run the program should be a continuous sine tone at 440hz...
• to quit: press ctrl-c

Specification (part 2 of 2): Waveforms

Note

• Have fun with it!!!

Deliverables

turn in all files by putting them in your Library/Web/154/hw1/ directory, and concise online documentation + readme

• 1) source code to the project (*.h, *.cpp, *.c makefile, etc.)
• 2) online page for your project (should be viewable at http://ccrma.stanford.edu/~YOURID/154/hw1/). 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
• 3) email Ge with the link to your web page, as a confirmation that you are turning the homework in