/*************************************************************************
Serializer: unserialization
-- ALGLIB --
Copyright 14.03.2011 by Bochkanov Sergey
*************************************************************************/
public static void dfunserialize(alglib.serializer s,
decisionforest forest)
{
int i0 = 0;
int i1 = 0;
//
// check correctness of header
//
i0 = s.unserialize_int();
alglib.ap.assert(i0 == scodes.getrdfserializationcode(), "DFUnserialize: stream header corrupted");
i1 = s.unserialize_int();
alglib.ap.assert(i1 == dffirstversion, "DFUnserialize: stream header corrupted");
//
// Unserialize data
//
forest.nvars = s.unserialize_int();
forest.nclasses = s.unserialize_int();
forest.ntrees = s.unserialize_int();
forest.bufsize = s.unserialize_int();
apserv.unserializerealarray(s, ref forest.trees);
}
/*************************************************************************
Serializer: unserialization
-- ALGLIB --
Copyright 14.03.2011 by Bochkanov Sergey
*************************************************************************/
public static void mlpunserialize(alglib.serializer s,
multilayerperceptron network)
{
int i0 = 0;
int i1 = 0;
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;
bool issoftmax = new bool();
int[] layersizes = new int[0];
//
// check correctness of header
//
i0 = s.unserialize_int();
alglib.ap.assert(i0 == scodes.getmlpserializationcode(), "MLPUnserialize: stream header corrupted");
i1 = s.unserialize_int();
alglib.ap.assert(i1 == mlpfirstversion, "MLPUnserialize: stream header corrupted");
//
// Create network
//
issoftmax = s.unserialize_bool();
apserv.unserializeintegerarray(s, ref layersizes);
alglib.ap.assert((alglib.ap.len(layersizes) == 2 || alglib.ap.len(layersizes) == 3) || alglib.ap.len(layersizes) == 4, "MLPUnserialize: too many hidden layers!");
nin = layersizes[0];
nout = layersizes[alglib.ap.len(layersizes) - 1];
if (alglib.ap.len(layersizes) == 2)
{
if (issoftmax)
{
mlpcreatec0(layersizes[0], layersizes[1], network);
}
else
{
mlpcreate0(layersizes[0], layersizes[1], network);
}
}
if (alglib.ap.len(layersizes) == 3)
{
if (issoftmax)
{
mlpcreatec1(layersizes[0], layersizes[1], layersizes[2], network);
}
else
{
mlpcreate1(layersizes[0], layersizes[1], layersizes[2], network);
}
}
if (alglib.ap.len(layersizes) == 4)
{
if (issoftmax)
{
mlpcreatec2(layersizes[0], layersizes[1], layersizes[2], layersizes[3], network);
}
else
{
mlpcreate2(layersizes[0], layersizes[1], layersizes[2], layersizes[3], network);
}
}
//
// Load neurons and weights
//
for (i = 1; i <= alglib.ap.len(layersizes) - 1; i++)
{
for (j = 0; j <= layersizes[i] - 1; j++)
{
fkind = s.unserialize_int();
threshold = s.unserialize_double();
mlpsetneuroninfo(network, i, j, fkind, threshold);
for (k = 0; k <= layersizes[i - 1] - 1; k++)
{
v0 = s.unserialize_double();
mlpsetweight(network, i - 1, k, i, j, v0);
}
}
}
//
// Load standartizator
//
for (j = 0; j <= nin - 1; j++)
{
v0 = s.unserialize_double();
v1 = s.unserialize_double();
mlpsetinputscaling(network, j, v0, v1);
}
for (j = 0; j <= nout - 1; j++)
{
v0 = s.unserialize_double();
v1 = s.unserialize_double();
mlpsetoutputscaling(network, j, v0, v1);
}
}
/*************************************************************************
Serializer: unserialization
-- ALGLIB --
Copyright 14.03.2011 by Bochkanov Sergey
*************************************************************************/
public static void mlpeunserialize(alglib.serializer s,
mlpensemble ensemble)
{
int i0 = 0;
int i1 = 0;
//
// check correctness of header
//
i0 = s.unserialize_int();
alglib.ap.assert(i0 == scodes.getmlpeserializationcode(), "MLPEUnserialize: stream header corrupted");
i1 = s.unserialize_int();
alglib.ap.assert(i1 == mlpefirstversion, "MLPEUnserialize: stream header corrupted");
//
// Create network
//
ensemble.ensemblesize = s.unserialize_int();
apserv.unserializerealarray(s, ref ensemble.weights);
apserv.unserializerealarray(s, ref ensemble.columnmeans);
apserv.unserializerealarray(s, ref ensemble.columnsigmas);
mlpbase.mlpunserialize(s, ensemble.network);
//
// Allocate termoraries
//
ensemble.y = new double[mlpbase.mlpgetoutputscount(ensemble.network)];
}
/*************************************************************************
Serializer: unserialization
-- ALGLIB --
Copyright 14.03.2011 by Bochkanov Sergey
*************************************************************************/
public static void kdtreeunserialize(alglib.serializer s,
kdtree tree)
{
int i0 = 0;
int i1 = 0;
//
// check correctness of header
//
i0 = s.unserialize_int();
alglib.ap.assert(i0 == scodes.getkdtreeserializationcode(), "KDTreeUnserialize: stream header corrupted");
i1 = s.unserialize_int();
alglib.ap.assert(i1 == kdtreefirstversion, "KDTreeUnserialize: stream header corrupted");
//
// Unserialize data
//
tree.n = s.unserialize_int();
tree.nx = s.unserialize_int();
tree.ny = s.unserialize_int();
tree.normtype = s.unserialize_int();
apserv.unserializerealmatrix(s, ref tree.xy);
apserv.unserializeintegerarray(s, ref tree.tags);
apserv.unserializerealarray(s, ref tree.boxmin);
apserv.unserializerealarray(s, ref tree.boxmax);
apserv.unserializeintegerarray(s, ref tree.nodes);
apserv.unserializerealarray(s, ref tree.splits);
kdtreealloctemporaries(tree, tree.n, tree.nx, tree.ny);
}
/*************************************************************************
Unserialization: complex value
*************************************************************************/
public static void unserializerealmatrix(alglib.serializer s,
ref double[,] v)
{
int i = 0;
int j = 0;
int n0 = 0;
int n1 = 0;
double t = 0;
v = new double[0, 0];
n0 = s.unserialize_int();
n1 = s.unserialize_int();
if (n0 == 0 || n1 == 0)
{
return;
}
v = new double[n0, n1];
for (i = 0; i <= n0 - 1; i++)
{
for (j = 0; j <= n1 - 1; j++)
{
t = s.unserialize_double();
v[i, j] = t;
}
}
}
/*************************************************************************
Unserialization: complex value
*************************************************************************/
public static void unserializeintegerarray(alglib.serializer s,
ref int[] v)
{
int n = 0;
int i = 0;
int t = 0;
v = new int[0];
n = s.unserialize_int();
if (n == 0)
{
return;
}
v = new int[n];
for (i = 0; i <= n - 1; i++)
{
t = s.unserialize_int();
v[i] = t;
}
}
/*************************************************************************
Unserialization: complex value
*************************************************************************/
public static void unserializerealarray(alglib.serializer s,
ref double[] v)
{
int n = 0;
int i = 0;
double t = 0;
v = new double[0];
n = s.unserialize_int();
if (n == 0)
{
return;
}
v = new double[n];
for (i = 0; i <= n - 1; i++)
{
t = s.unserialize_double();
v[i] = t;
}
}
/*************************************************************************
Serializer: unserialization
-- ALGLIB --
Copyright 02.02.2012 by Bochkanov Sergey
*************************************************************************/
public static void rbfunserialize(alglib.serializer s,
rbfmodel model)
{
int i0 = 0;
int i1 = 0;
int nx = 0;
int ny = 0;
//
// Header
//
i0 = s.unserialize_int();
alglib.ap.assert(i0 == scodes.getrbfserializationcode(), "RBFUnserialize: stream header corrupted");
i1 = s.unserialize_int();
alglib.ap.assert(i1 == rbffirstversion, "RBFUnserialize: stream header corrupted");
//
// Unserialize primary model parameters, initialize model.
//
// It is necessary to call RBFCreate() because some internal fields
// which are NOT unserialized will need initialization.
//
nx = s.unserialize_int();
ny = s.unserialize_int();
rbfcreate(nx, ny, model);
model.nc = s.unserialize_int();
model.nl = s.unserialize_int();
nearestneighbor.kdtreeunserialize(s, model.tree);
apserv.unserializerealmatrix(s, ref model.xc);
apserv.unserializerealmatrix(s, ref model.wr);
model.rmax = s.unserialize_double();
apserv.unserializerealmatrix(s, ref model.v);
}