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LatAnalyze/lib/Functional/Function.cpp

317 lines
8.1 KiB
C++

/*
* Function.cpp, part of LatAnalyze 3
*
* Copyright (C) 2013 - 2020 Antonin Portelli
*
* LatAnalyze 3 is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* LatAnalyze 3 is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with LatAnalyze 3. If not, see <http://www.gnu.org/licenses/>.
*/
#include <LatAnalyze/Functional/Function.hpp>
#include <LatAnalyze/includes.hpp>
using namespace std;
using namespace Latan;
/******************************************************************************
* DoubleFunction implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
DoubleFunction::DoubleFunction(const vecFunc &f, const Index nArg)
: buffer_(new DVec)
, varName_("x")
{
setFunction(f, nArg);
}
// access //////////////////////////////////////////////////////////////////////
Index DoubleFunction::getNArg(void) const
{
return buffer_->size();
}
void DoubleFunction::setFunction(const vecFunc &f, const Index nArg)
{
buffer_->resize(nArg);
f_ = f;
}
VarName & DoubleFunction::varName(void)
{
return varName_;
}
const VarName & DoubleFunction::varName(void) const
{
return varName_;
}
// error checking //////////////////////////////////////////////////////////////
void DoubleFunction::checkSize(const Index nPar) const
{
if (nPar != getNArg())
{
LATAN_ERROR(Size, "function argument vector has a wrong size (expected "
+ strFrom(getNArg()) + ", got " + strFrom(nPar)
+ ")");
}
}
// function call ///////////////////////////////////////////////////////////////
double DoubleFunction::operator()(const double *arg) const
{
return f_(arg);
}
double DoubleFunction::operator()(const DVec &arg) const
{
checkSize(arg.size());
return (*this)(arg.data());
}
double DoubleFunction::operator()(const std::vector<double> &arg) const
{
checkSize(static_cast<Index>(arg.size()));
return (*this)(arg.data());
}
double DoubleFunction::operator()(std::stack<double> &arg) const
{
for (Index i = 0; i < getNArg(); ++i)
{
if (arg.empty())
{
LATAN_ERROR(Size, "function argument stack is empty (expected "
+ strFrom(getNArg()) + "arguments, got " + strFrom(i)
+ ")");
}
(*buffer_)(getNArg() - i - 1) = arg.top();
arg.pop();
}
return (*this)(*buffer_);
}
double DoubleFunction::operator()(void) const
{
checkSize(0);
return (*this)(nullptr);
}
std::map<double, double> DoubleFunction::operator()(const std::map<double, double> &m) const
{
checkSize(1);
std::map<double, double> res;
for (auto &val: m)
{
res[val.first] = (*this)(val.second);
}
return res;
}
// bind ////////////////////////////////////////////////////////////////////////
DoubleFunction DoubleFunction::bind(const Index argIndex,
const double val) const
{
Index nArg = getNArg();
shared_ptr<DVec> buf(new DVec(nArg));
DoubleFunction copy(*this), bindFunc;
auto func = [copy, buf, argIndex, val](const double *arg)
{
FOR_VEC(*buf, i)
{
if (i < argIndex)
{
(*buf)(i) = arg[i];
}
else if (i == argIndex)
{
(*buf)(i) = val;
}
else
{
(*buf)(i) = arg[i - 1];
}
}
return copy(*buf);
};
bindFunc.setFunction(func, nArg - 1);
return bindFunc;
}
DoubleFunction DoubleFunction::bind(const Index argIndex,
const DVec &x) const
{
Index nArg = getNArg();
shared_ptr<DVec> buf(new DVec(nArg));
DoubleFunction copy(*this), bindFunc;
auto func = [copy, buf, argIndex, x](const double *arg)
{
*buf = x;
(*buf)(argIndex) = arg[0];
return copy(*buf);
};
bindFunc.setFunction(func, 1);
return bindFunc;
}
// sample //////////////////////////////////////////////////////////////////////
DVec DoubleFunction::sample(const DMat &x) const
{
if (x.cols() != getNArg())
{
LATAN_ERROR(Size, "sampling point matrix and number of arguments "
"mismatch (matrix has " + strFrom(x.cols())
+ ", number of arguments is " + strFrom(getNArg()) + ")");
}
DVec res(x.rows());
for (Index i = 0; i < res.size(); ++i)
{
res(i) = (*this)(x.row(i));
}
return res;
}
// arithmetic operators ////////////////////////////////////////////////////////
DoubleFunction DoubleFunction::operator-(void) const
{
DoubleFunction copy(*this), resFunc;
return DoubleFunction([copy](const double *arg){return -copy(arg);},
getNArg());
}
#define MAKE_SELF_FUNC_OP(op)\
DoubleFunction & DoubleFunction::operator op##=(const DoubleFunction &f)\
{\
DoubleFunction copy(*this);\
checkSize(f.getNArg());\
auto res = [f, copy](const double *arg){return copy(arg) op f(arg);};\
setFunction(res, getNArg());\
return *this;\
}\
DoubleFunction & DoubleFunction::operator op##=(const DoubleFunction and f)\
{\
*this op##= f;\
return *this;\
}
#define MAKE_SELF_SCALAR_OP(op)\
DoubleFunction & DoubleFunction::operator op##=(const double x)\
{\
DoubleFunction copy(*this);\
auto res = [x, copy](const double *arg){return copy(arg) op x;};\
setFunction(res, getNArg());\
return *this;\
}\
MAKE_SELF_FUNC_OP(+)
MAKE_SELF_FUNC_OP(-)
MAKE_SELF_FUNC_OP(*)
MAKE_SELF_FUNC_OP(/)
MAKE_SELF_SCALAR_OP(+)
MAKE_SELF_SCALAR_OP(-)
MAKE_SELF_SCALAR_OP(*)
MAKE_SELF_SCALAR_OP(/)
/******************************************************************************
* DoubleFunctionSample implementation *
******************************************************************************/
// constructors ////////////////////////////////////////////////////////////////
DoubleFunctionSample::DoubleFunctionSample(void)
: Sample<DoubleFunction>()
{}
DoubleFunctionSample::DoubleFunctionSample(const Index nSample)
: Sample<DoubleFunction>(nSample)
{}
// function call ///////////////////////////////////////////////////////////////
DSample DoubleFunctionSample::operator()(const DMatSample &arg) const
{
DSample result(size());
FOR_STAT_ARRAY((*this), s)
{
result[s] = (*this)[s](arg[s]);
}
return result;
}
DSample DoubleFunctionSample::operator()(const double *arg) const
{
DSample result(size());
FOR_STAT_ARRAY((*this), s)
{
result[s] = (*this)[s](arg);
}
return result;
}
DSample DoubleFunctionSample::operator()(const DVec &arg) const
{
return (*this)(arg.data());
}
DSample DoubleFunctionSample::operator()(const vector<double> &arg) const
{
return (*this)(arg.data());
}
// bind ////////////////////////////////////////////////////////////////////////
DoubleFunctionSample DoubleFunctionSample::bind(const Index argIndex,
const double val) const
{
DoubleFunctionSample bindFunc(size());
FOR_STAT_ARRAY(bindFunc, s)
{
bindFunc[s] = (*this)[s].bind(argIndex, val);
}
return bindFunc;
}
DoubleFunctionSample DoubleFunctionSample::bind(const Index argIndex,
const DVec &x) const
{
DoubleFunctionSample bindFunc(size());
FOR_STAT_ARRAY(bindFunc, s)
{
bindFunc[s] = (*this)[s].bind(argIndex, x);
}
return bindFunc;
}