I have figured it out. I used Platt's algorithm to extract the probability of a positive classification and sorted the dataset, highest probability first. I iterated through the dataset, any positive example (real positive, not classified as positive) increments the truepositive count while any negative example (real negative, not classified as negative) increments the falsepositive count.
Think of it as the support vector on the SVM which separates the two classes (+ve and -ve) moving gradually from one side of the svm to the other. Here i'm imagining points on a 2d plane. As the support vector moves, it uncovers examples. Any examples which are labelled as positive are truepostives, any negatives are falsepositives.
Hope this helps. It took me days to figure out something so trivial due to the lack information on the net (or just my lack of understanding of SVMs in general). This is especially aimed at those who are using CvSVM in the OpenCV package. As you might be aware, CvSVM does not return probability values. Instead, it returns a value based on the distance function. You do not need to use Platt's algorithm to extract an ROC curve based on probabilities, instead, you could use the distance values themselves. Say for example, you start the distance at 10, and you decrement it slowly until you've covered all of the dataset. I found using probabilities better to visualise, so to each his own.
Please mind my english as it's not my first language