1
0
mirror of https://github.com/aportelli/LatAnalyze.git synced 2024-11-10 00:45:36 +00:00

dimension resized automatically for solvers

This commit is contained in:
Antonin Portelli 2015-11-13 14:30:10 +00:00
parent ae62a3225d
commit aeda59adfa
12 changed files with 54 additions and 29 deletions

View File

@ -34,7 +34,7 @@ int main(void)
// fit
DVec init = DVec::Constant(2, 0.5);
FitResult p;
MinuitMinimizer minimizer(2);
MinuitMinimizer minimizer;
data.fitAllPoints();
p = data.fit(minimizer, init, f);

View File

@ -18,7 +18,7 @@ int main(int argc, char* argv[])
source = argv[1];
DoubleFunction f = compile(source, 1);
MinuitMinimizer minimize(1);
MinuitMinimizer minimize;
DVec init(1);
double min;

View File

@ -11,7 +11,7 @@ int main(void)
DoubleFunction f1([a](const double *x){return a*(1.-x[0]);}, 2);
DoubleFunction f2([b](const double *x){return b*(x[1]-x[0]*x[0]);}, 2);
vector<DoubleFunction *> system = {&f1, &f2};
GslHybridRootFinder solve(2);
GslHybridRootFinder solve;
DVec init(2), x;
solve.setVerbosity(Solver::Verbosity::Debug);

View File

@ -95,7 +95,7 @@ GslHybridRootFinder::operator()(const vector<DoubleFunction *> &func)
}
if (res.size() != nArg)
{
res.conservativeResize(nArg);
resize(nArg);
}
solver_ = gsl_multiroot_fsolver_alloc(gsl_multiroot_fsolver_hybrids, nFunc);
x = gsl_vector_alloc(nFunc);

View File

@ -33,7 +33,8 @@ BEGIN_LATAN_NAMESPACE
class GslHybridRootFinder: public RootFinder
{
public:
// constructor
// constructors
GslHybridRootFinder(void) = default;
explicit GslHybridRootFinder(const Index dim);
// destructor
virtual ~GslHybridRootFinder(void) = default;

View File

@ -26,15 +26,18 @@ using namespace Latan;
// constructor /////////////////////////////////////////////////////////////////
Minimizer::Minimizer(const Index dim)
: Solver(dim)
, highLimit_(dim)
, lowLimit_(dim)
, hasHighLimit_(dim)
, hasLowLimit_(dim)
{
highLimit_.fill(0.);
lowLimit_.fill(0.);
hasHighLimit_.fill(false);
hasLowLimit_.fill(false);
resize(dim);
}
// access //////////////////////////////////////////////////////////////////////
void Minimizer::resize(const Index dim)
{
Solver::resize(dim);
highLimit_.conservativeResize(dim);
lowLimit_.conservativeResize(dim);
hasHighLimit_.conservativeResize(dim);
hasLowLimit_.conservativeResize(dim);
}
// limits //////////////////////////////////////////////////////////////////////

View File

@ -35,9 +35,12 @@ class Minimizer: public Solver
{
public:
// constructor
Minimizer(void) = default;
explicit Minimizer(const Index dim);
// destructor
virtual ~Minimizer(void) = default;
// access
virtual void resize(const Index dim);
// limits
virtual double getHighLimit(const Index i) const ;
virtual const DVec & getHighLimit(const PlaceHolder ph = _) const;

View File

@ -61,11 +61,17 @@ double MinuitMinimizer::MinuitFunction::Up(void) const
return 1.;
}
// constructor /////////////////////////////////////////////////////////////////
// constructors ////////////////////////////////////////////////////////////////
MinuitMinimizer::MinuitMinimizer(const Algorithm algorithm)
{
setAlgorithm(algorithm);
}
MinuitMinimizer::MinuitMinimizer(const Index dim, const Algorithm algorithm)
: Minimizer(dim)
, algorithm_(algorithm)
{}
{
setAlgorithm(algorithm);
}
// access //////////////////////////////////////////////////////////////////////
MinuitMinimizer::Algorithm MinuitMinimizer::getAlgorithm(void) const
@ -100,7 +106,7 @@ const DVec & MinuitMinimizer::operator()(const DoubleFunction &f)
if (f.getNArg() != x.size())
{
LATAN_ERROR(Size, "function to minimize number of arguments mismatch");
resize(f.getNArg());
}
// set parameters

View File

@ -54,7 +54,8 @@ private:
const DoubleFunction *f_;
};
public:
// constructor
// constructors
MinuitMinimizer(const Algorithm algorithm = Algorithm::Migrad);
explicit MinuitMinimizer(const Index dim,
const Algorithm algorithm = Algorithm::Migrad);
// destructor

View File

@ -33,7 +33,8 @@ BEGIN_LATAN_NAMESPACE
class RootFinder: public Solver
{
public:
// constructor
// constructors
RootFinder(void) = default;
explicit RootFinder(const Index dim);
// destructor
virtual ~RootFinder(void) = default;

View File

@ -26,15 +26,20 @@ using namespace Latan;
/******************************************************************************
* Solver implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
Solver::Solver(const Index dim, const double precision,
const unsigned int maxIteration)
: x_(dim)
// constructors ////////////////////////////////////////////////////////////////
Solver::Solver(const double precision, const unsigned int maxIteration)
{
setMaxIteration(maxIteration);
setPrecision(precision);
}
Solver::Solver(const Index dim, const double precision,
const unsigned int maxIteration)
: Solver(precision, maxIteration)
{
resize(dim);
}
// access //////////////////////////////////////////////////////////////////////
Index Solver::getDim(void) const
{
@ -65,13 +70,10 @@ void Solver::setInit(const DVec &x0)
{
if (x0.size() != x_.size())
{
LATAN_ERROR(Size, "initial vector state with invalid size");
resize(x0.size());
}
else
{
x_ = x0;
}
}
void Solver::setMaxIteration(const unsigned int maxIteration)
{
@ -87,3 +89,8 @@ void Solver::setVerbosity(const Verbosity verbosity)
{
verbosity_ = verbosity;
}
void Solver::resize(const Index dim)
{
x_.resize(dim);
}

View File

@ -41,7 +41,9 @@ public:
Debug = 2
};
public:
// constructor
// constructors
Solver(const double precision = defaultPrec,
const unsigned int maxIteration = defaultMaxIteration);
explicit Solver(const Index dim, const double precision = defaultPrec,
const unsigned int maxIteration = defaultMaxIteration);
// destructor
@ -55,6 +57,7 @@ public:
virtual void setPrecision(const double precision);
virtual void setMaxIteration(const unsigned int maxIteration);
void setVerbosity(const Verbosity verbosity);
virtual void resize(const Index dim);
protected:
// access
DVec & getState(void);