Option 1 is actually pretty reasonable. If you save the model in libsvm's C format through matlab, then it is straightforward to work with the model in C/C++ using functions provided by libsvm. Trying to work with matlab-formatted data in C++ will probably be much more difficult.
main function in "svm-predict.c" (located in the root directory of the libsvm package) probably has most of what you need:
fprintf(stderr,"can't open model file %s\n",argv[i+1]);
To predict a label for example
x using the model, you can run
int predict_label = svm_predict(model,x);
The trickiest part of this will be to transfer your data into the libsvm format (unless your data is in the libsvm text file format, in which case you can just use the
predict function in "svm-predict.c").
A libsvm vector,
x, is an array of
struct svm_node that represents a sparse array of data. Each svm_node has an index and a value, and the vector must be terminated by an index that is set to -1. For instance, to encode the vector
[0,1,0,5], you could do the following:
struct svm_node *x = (struct svm_node *) malloc(3*sizeof(struct svm_node));
x.index=2; //NOTE: libsvm indices start at 1
For SVM types other than the classifier (C_SVC), look at the
predict function in "svm-predict.c".