In the field of stock market technical analysis there is the concept of rectangular price congestion levels, that is: the price goes up and down essentially never breaking the previous high and low price levels for some time, forming the figure of a rectangule. E.g.: http://cf.ydcdn.net/126.96.36.199/images/invest/congestion%20area.jpg.
Edit: to me clearer: the stock as well as the forex market is made by sets of movements called "impulse" and "correction", the first one being in the direction of the current stock's trendand the other in the opposite. When the stock is moving in the direction of the trend, the impulse movement is always bigger than the following correction, but sometimes what happens is a that the correction end-up being at the same size of the impulse. So for example, in a stock with a positive trend, the impulse movement moved from price $10,00 to $15,00, and than a correction appeared dropping the price to $12,00. When the new impulse appeared, thought, instead of passing the previous high value ($15,00), it stooped exactly on it, being followed by a new correction that dropped the price exactly to the previous low price ($12,00). So now we may draw two paralel horizontal lines in the stock's graph: one in the $15,00 price and other in the $12,00, forming a channel where the price is "congestioned" inside. And if we draw two vertical bars in the extreme sides, we have a rectangle: one that has its top bar in the high level and other in the low one.
I'm trying to create an algorithm in C++/Qt capable of detecting such patterns with candlestick data inside a list container (using Qt -> QList), but currently I'm doing research to see if anybody knows about someone who already did such code so I save lots of efforts and time in developing such algorithm.
So my first question will be: does anybody knows and open-source code that can detect such figure? - Obviously doesn't have to be exactly in this conditions, but if there is a code that do a similar taks, only needing for me to do the adjustments, that would be fine.
In the other hand, how could I create such algorithm anyway? It's clear the the high spot is to detect the high and low levels and than just control when those levels are 'broken' to detect the end of the figure, but how could I do that in an efficient way? Today the best thing I'm able to do is to detect high-and-low levels using time as parameter (e.g. "the highest price in four candles", and this using a very expensive code.