/usr/include/odindata/utils.h is in libodin-dev 1.8.4-1ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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mri_utils.h - description
-------------------
begin : Wed Feb 9 2005
copyright : (C) 2005 by Thies H. Jochimsen
email :
***************************************************************************/
/***************************************************************************
* *
* This program 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 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#ifndef UTILS_H
#define UTILS_H
#include <odindata/data.h>
/**
* @addtogroup odindata
* @{
*/
//////////////////////////////////////////////////////////////////
/**
* returns integer next to zero of float arrays
*/
template <int N_rank>
Array<float,N_rank> truncate_float(Array<float,N_rank> a){
Array<float,N_rank> result(a.shape());
result=where(a <= 0, ceil(a),floor(a));
return result;
}
/**
* wraps phase of a float array (in rad !!!)
*/
template <int N_rank>
void wrapPhase(Array<float,N_rank> ph){
ph=ph-(truncate_float(Array<float,N_rank>(ph/(2.*PII))))*2.*PII;
ph=ph-(truncate_float(Array<float,N_rank>(ph/PII)))*2.*PII;
}
/**
* unwraps phase of a float array in last dimension
*/
template <int N_rank>
void unwrapPhase1d(Data<float,N_rank> ph){
unsigned long i,j,dim;
float add1;
dim=ph.extent(ph.dimensions()-1);
Array<float,1> phu(dim);
wrapPhase(ph);
for(i=0;i<(unsigned)ph.size()/dim;i++){
phu(0)=ph(ph.create_index(i*dim));
add1=0;
for(j=1;j<dim;j++){
if ((ph(ph.create_index(i*dim+j))-ph(ph.create_index(i*dim+j-1))) > PII) add1=add1-2.*PII;
if ((ph(ph.create_index(i*dim+j))-ph(ph.create_index(i*dim+j-1))) < -PII) add1=add1+2.*PII;
phu(j)=ph(ph.create_index(i*dim+j))+add1;
}
add1=phu(dim/2);
add1=(int)(add1/2./PII)*2.*PII+(int)((add1-(int)(add1/2./PII)*2.*PII)/PII)*2.*PII;
for(j=0;j<dim;j++)
ph(ph.create_index(i*dim+j))=phu(j)-add1;
}
}
//////////////////////////////////////////////////////////
/**
* matrix-vector product
*/
template<typename T>
Array<T,1> matrix_product(const Array<T,2>& matrix, const Array<T,1>& vector) {
Log<OdinData> odinlog("","matrix_product");
int nrows=matrix.extent()(0);
int ncols=matrix.extent()(1);
Array<T,1> result(nrows);
result=0;
int vector_extent=vector.extent(0);
if(vector.extent(0)!=ncols) {
ODINLOG(odinlog,errorLog) << "size mismatch (vector_extent=" << vector_extent << ") != (ncols=" << ncols << ")" << STD_endl;
return result;
}
for(int icol=0; icol<ncols; icol++) {
for(int irow=0; irow<nrows; irow++) {
result(irow)+=matrix(irow,icol)*vector(icol);
}
}
return result;
}
//////////////////////////////////////////////////////////
/**
* matrix-matrix product
*/
template<typename T>
Array<T,2> matrix_product(const Array<T,2>& matrix1, const Array<T,2>& matrix2) {
Log<OdinData> odinlog("","matrix_product");
int nrows=matrix1.extent()(0);
int ncols=matrix2.extent()(1);
ODINLOG(odinlog,normalDebug) << "nrows/ncols=" << nrows << "/" << ncols << STD_endl;
Array<T,2> result(nrows,ncols);
result=0;
if(matrix1.extent(1)!=matrix2.extent(0)) {
ODINLOG(odinlog,errorLog) << "size mismatch (matrix1=" << matrix1.shape() << ", matrix2=" << matrix2.shape() << ")" << STD_endl;
return result;
}
int nprod=matrix1.extent(1);
ODINLOG(odinlog,normalDebug) << "nprod=" << nprod << STD_endl;
for(int irow=0; irow<nrows; irow++) {
for(int icol=0; icol<ncols; icol++) {
T scalprod(0);
for(int iprod=0; iprod<nprod; iprod++) {
scalprod+= matrix1(irow,iprod)*matrix2(iprod,icol);
}
result(irow,icol)=scalprod;
}
}
return result;
}
//////////////////////////////////////////////////////////
/**
* cross (vector) product (always in 3 dimensions)
*/
template<typename T>
Array<T,1> vector_product(const Array<T,1>& u, const Array<T,1>& v) {
Log<OdinData> odinlog("","vector_product");
Array<T,1> result(3);
if(u.extent(0)!=3 || v.extent(0)!=3) {
ODINLOG(odinlog,errorLog) << "input size != 3" << STD_endl;
return result;
}
result(0)=u(1)*v(2)-u(2)*v(1);
result(1)=u(2)*v(0)-u(0)*v(2);
result(2)=u(0)*v(1)-u(1)*v(0);
return result;
}
//////////////////////////////////////////////////////////
/**
* Equal-comparison operator for TinyVectors
*/
template<typename T, int N_rank>
bool operator == (const TinyVector<T,N_rank>& t1, const TinyVector<T,N_rank>& t2) {
return sum(abs(t1-t2))==0;
}
//////////////////////////////////////////////////////////
/**
* Unequal-comparison operator for TinyVectors
*/
template<typename T, int N_rank>
bool operator != (const TinyVector<T,N_rank>& t1, const TinyVector<T,N_rank>& t2) {
return !(t1==t2);
}
//////////////////////////////////////////////////////////
/**
* Compares array shapes, returns true if equal
*/
template<typename T, int N_rank>
bool same_shape(const Array<T,N_rank>& a1, const Array<T,N_rank>& a2) {
return a1.shape()==a2.shape();
}
////////////////////////////////////////////////////////
/**
* Limits value 'val' to range (min,max)
*/
template <typename T>
bool check_range(T& val, T min, T max) {
bool in_range=true;
if(val<min) {val=min; in_range=false;}
if(val>max) {val=max; in_range=false;}
return in_range;
}
/** @}
*/
#endif
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