I recently wrote some Javascript code to generate random fake stock data as I wanted to show a chart that at first glanced looked like real stock data  but all I came up with was pretty noddy. I was just wondering if there are some resources that explain how this might be done "properly" i.e. so you get realistic looking data that has the same patterns that you see in real stock data?
I had a book Fractal Market Analysis (just got rid of it recently) that talked about the statistical properties of stock prices. Not very useful for investing, but it might have been able to help you. You'll need something that models a random process with desired statistical properties. Two examples of random processes are Gaussian white noise and a Wiener process (the latter which models Brownian motion and is also the limit of a random walk with small steps). If I remember right from the Fractal Market Analysis book, (Here's a nice readable essay that talks about the history behind the study of fractal random processes  and how the flooding of the Nile relates to the stock market  unfortunately it doesn't get into technical data, but maybe there are search terms like Hurst exponent that can get you started.) The problem becomes more difficult if you need multiple series of stock data. (in which case there is some correlation between stocks that depends on various common factors e.g. national economy, industry type, etc.) I'm not sure how you could go about that, but start with one random process first. 


A simple algorithm is to use a simple volatility number that restricts how much the stock can change within a given period (say, a single day). The higher the number, the more volatile. So each day you can compute the new price by:
A stable stock would have a volatility number of perhaps 2%. A volatility of 10% would show some pretty large swings. Not perfect, but it could look pretty realistic. Samples 





Take a look at yahoo finance, they offer free delayed data from the stock exchange and charts. Here's an article about using the feed: http://www.codeproject.com/KB/aspnet/StockQuote.aspx You'll need JQuery or you can just use XMLHttpRequest to comsume the service. FYI, there's a plugin for JQuery to process a CSV: http://code.google.com/p/jstables/ 


I wrote a quick an dirty javascript version inspired by Peter P.'s response here. I needed to create weekly, yearly and overall trends so this accepts an array of parameters and overlays these to get a more complex (fake) trend.
I put a chart on there to show the result: http://jsfiddle.net/z64Jr/3/ 


There are several answers that give a fairly textbook answer: use geometric brownian motion to model stock prices. But there's one major reason to consider this wrong. Real stock prices do not behave anything like geometric brownian motion (GBM). I'll explain this in a bit. The reason GBM is used in textbooks to model a stock price process is for simplicity. It helps you get the theory off the ground and derive some basic results which seem to be "essentially" correct. This doesn't mean you should think that's what stock prices "look like" however. That would be like deriving an equation of motion neglecting friction (which is theoretically very useful) and then thinking this is what motion looks like in real life, e.g. everyone slides around on their shoes like ice skates. One of the theoretically most useful properties of GBM is that future changes are independent of past changes. Is this true of stock prices? Nope. Not at all. Serial correlation occurs everywhere. Not only that, large decreases are usually followed by increased volatility while large increases are usually followed by decreased volatility. I suppose I might be accused of nitpicking, but these stylized facts are commonly known to investors and economists, so I think it's fair to say GBM doesn't look realistic to anybody that is familiar with stock market behavior. Econometricians have come up with plenty of models for stock prices. The one that seems to work in a lot of situations is an autoregressive model for the conditional mean combined with an (G)Arch type model for the volatility. For the volatility model, an assymetric GARCH with a fattail distribution (like Student's t) seems to work the best for a variety of financial markets. 


Here's my attempt in ruby! :) This will output a string you can copy and paste into google charts. I allow for positive, negative or no trending of the data. This code could probably be optimized and/or tweaked for randomness/regularity. Google charts: https://code.google.com/apis/ajax/playground/?type=visualization#line_chart



I wanted to reply to Jim Mischel's post above (https://stackoverflow.com/a/8597889/1360592) but since I wanted to include code, I am forced to put my reply here. Based on Jim Mischel's alorithm, I did the following Java implementation, and it worked well for my needs, generating numbers that when graphed, produced visually appealing, realisticlooking stock ticker prices. Java:
Note that, as wiggles pointed out in his comment, I needed to divide percentage by 100 when declaring the changeAmount variable. 


Jason S was close though. Markets are natural and therefore fractal. Here is the best way to generate stock markets: 


Here is the code that I created for my usage. The prices are created for new candlestick that includes Open, High, Low, Close, and Volume. The new prices are generated based on % of volatility. I used total 5% for prices. The code is C# based.
Usage: Create an instance of PriceBar, fill the previous bar's prices. Feed the PriceBar instance to the function GenerateRandomBar(). It will return a PriceBar with new values. 

