/************************************************************************* Serializer: allocation -- ALGLIB -- Copyright 14.03.2011 by Bochkanov Sergey *************************************************************************/ public static void kdtreealloc(alglib.serializer s, kdtree tree) { // // Header // s.alloc_entry(); s.alloc_entry(); // // Data // s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); apserv.allocrealmatrix(s, tree.xy, -1, -1); apserv.allocintegerarray(s, tree.tags, -1); apserv.allocrealarray(s, tree.boxmin, -1); apserv.allocrealarray(s, tree.boxmax, -1); apserv.allocintegerarray(s, tree.nodes, -1); apserv.allocrealarray(s, tree.splits, -1); }
/************************************************************************* Serializer: allocation -- ALGLIB -- Copyright 14.03.2011 by Bochkanov Sergey *************************************************************************/ public static void dfalloc(alglib.serializer s, decisionforest forest) { s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); apserv.allocrealarray(s, forest.trees, forest.bufsize); }
/************************************************************************* Serializer: allocation -- ALGLIB -- Copyright 14.03.2011 by Bochkanov Sergey *************************************************************************/ public static void mlpalloc(alglib.serializer s, multilayerperceptron network) { int i = 0; int j = 0; int k = 0; int fkind = 0; double threshold = 0; double v0 = 0; double v1 = 0; int nin = 0; int nout = 0; nin = network.hllayersizes[0]; nout = network.hllayersizes[ap.len(network.hllayersizes) - 1]; s.alloc_entry(); s.alloc_entry(); s.alloc_entry(); apserv.allocintegerarray(s, network.hllayersizes, -1); for(i = 1; i <= ap.len(network.hllayersizes) - 1; i++) { for(j = 0; j <= network.hllayersizes[i] - 1; j++) { mlpgetneuroninfo(network, i, j, ref fkind, ref threshold); s.alloc_entry(); s.alloc_entry(); for(k = 0; k <= network.hllayersizes[i - 1] - 1; k++) { s.alloc_entry(); } } } for(j = 0; j <= nin - 1; j++) { mlpgetinputscaling(network, j, ref v0, ref v1); s.alloc_entry(); s.alloc_entry(); } for(j = 0; j <= nout - 1; j++) { mlpgetoutputscaling(network, j, ref v0, ref v1); s.alloc_entry(); s.alloc_entry(); } }
/************************************************************************* Allocation of serializer: real matrix *************************************************************************/ public static void allocrealmatrix(alglib.serializer s, double[,] v, int n0, int n1) { int i = 0; int j = 0; if(n0 < 0) { n0 = ap.rows(v); } if(n1 < 0) { n1 = ap.cols(v); } s.alloc_entry(); s.alloc_entry(); for(i = 0; i <= n0 - 1; i++) { for(j = 0; j <= n1 - 1; j++) { s.alloc_entry(); } } }
/************************************************************************* Allocation of serializer: Integer array *************************************************************************/ public static void allocintegerarray(alglib.serializer s, int[] v, int n) { int i = 0; if(n < 0) { n = ap.len(v); } s.alloc_entry(); for(i = 0; i <= n - 1; i++) { s.alloc_entry(); } }
/************************************************************************* Allocation of serializer: complex value *************************************************************************/ public static void alloccomplex(alglib.serializer s, complex v) { s.alloc_entry(); s.alloc_entry(); }