Commit 802e128a authored by Praetorius, Simon's avatar Praetorius, Simon
Browse files

AMDiS now compiles with -pedantic

parent a530b34f
......@@ -91,8 +91,7 @@ public:
void buildAfterCoarsen(AdaptInfo *adaptInfo, Flag flag,
bool asmMatrix, bool asmVector)
{ FUNCNAME("ExtendedProblemStat::buildAfterCoarsen()");
{
ProblemStat_::buildAfterCoarsen(adaptInfo, flag, asmMatrix, asmVector);
#ifndef HAVE_PARALLEL_DOMAIN_AMDIS
......@@ -136,8 +135,7 @@ public:
void solve(AdaptInfo *adaptInfo,
bool createMatrixData = true,
bool storeMatrixData = false)
{ FUNCNAME("ExtendedProblemStat::solve()");
{
ProblemStat_::solve(adaptInfo, createMatrixData, storeMatrixData);
oldMeshChangeIdx = getMesh()->getChangeIndex();
......@@ -146,8 +144,6 @@ public:
/// Add arbitrary boundary condition to system
void addBoundaryCondition(BoundaryCondition *bc, int row, int col)
{
FUNCNAME("ProblemStatType::addBoundaryCondition()");
boundaryConditionSet = true;
if (systemMatrix && (*systemMatrix)[row][col])
......@@ -264,7 +260,8 @@ protected:
typedef mtl::traits::range_generator<tag::row, Matrix>::type c_type;
typedef mtl::traits::range_generator<tag::nz, c_type>::type ic_type;
for (size_t col = 0; col < getNumComponents(); col++) {
size_t numCols = static_cast<size_t>(getNumComponents());
for (size_t col = 0; col < numCols; col++) {
TEST_EXIT(getSystemMatrix(row_, col) != NULL || col != col_)
("SystemMatrix block (%d,%d) must not be NULL! Insert a Simple_ZOT(0.0) as Workaround.\n",row_,col);
if (getSystemMatrix(row_, col) == NULL)
......@@ -308,7 +305,8 @@ protected:
typedef mtl::traits::range_generator<tag::row, Matrix>::type c_type;
typedef mtl::traits::range_generator<tag::nz, c_type>::type ic_type;
for (size_t col = 0; col < getNumComponents(); col++) {
size_t numCols = static_cast<size_t>(getNumComponents());
for (size_t col = 0; col < numCols; col++) {
TEST_EXIT(getSystemMatrix(row, col) != NULL)
("SystemMatrix block (%d,%d) must not be NULL! Insert a Simple_ZOT(0.0) as Workaround.\n",row,col);
......@@ -377,12 +375,13 @@ protected:
typedef mtl::traits::range_generator<tag::row, Matrix>::type c_type;
typedef mtl::traits::range_generator<tag::nz, c_type>::type ic_type;
size_t numCols = static_cast<size_t>(getNumComponents());
TEST_EXIT(row_idx.size() == coefficients.size() && row_idx.size() == rhs.size() && rhs.size()>0)
("rhs_idx, coefficients and rhs must have the same size and size >! 0\n");
TEST_EXIT(coefficients[0].size() == getNumComponents())
TEST_EXIT(coefficients[0].size() == numCols)
("You have to give coefficients for all variables\n");
for (size_t col = 0; col < getNumComponents(); col++) {
for (size_t col = 0; col < numCols; col++) {
TEST_EXIT(getSystemMatrix(row, col) != NULL)
("SystemMatrix block (%d,%d) must not be NULL! Insert a Simple_ZOT(0.0) as Workaround.\n",row,col);
......
......@@ -251,7 +251,7 @@ class Plane : public AbstractFunction<double, WorldVector<double> >
public:
Plane(double shift_, double factor_=1.0, int component_=1) :
shift(shift_), factor(factor_), component(component_) {}
shift(shift_), component(component_), factor(factor_) {}
double operator()(const WorldVector<double>& x) const
{
return factor*(shift-x[component]);
......@@ -375,12 +375,12 @@ public:
std::vector<double> result(pos.size(),0.0);
for(int k=0; k<x.getSize(); k++) {
for (int j=0; j<pos.size(); j++) {
for (size_t j=0; j<pos.size(); j++) {
result[j] += sqr(x[k]-pos[j][k]);
}
}
double minResult = 1.e10;
for (int j=0; j<pos.size(); j++) {
for (size_t j=0; j<pos.size(); j++) {
minResult = std::min(minResult, sqrt(result[j])-radius);
}
return -minResult;
......@@ -582,7 +582,7 @@ public:
std::vector<WorldVector<double> > newVertices;
for (size_t i = 0; i < vertices.size()-1; i++) {
for (size_t j = 0; j < np-1; j++) {
for (int j = 0; j < np-1; j++) {
double lambda = static_cast<double>(j)/static_cast<double>(np - 1.0);
WorldVector<double> p = lambda*vertices[i+1] + (1.0-lambda)*vertices[i];
newVertices.push_back(p);
......
......@@ -263,7 +263,9 @@ namespace details {
association.push_back(std::make_pair(std::min(*it, idx_), std::max(*it, idx_)));
}
MSG_DBG("Nr of associations: %d\n", association.size());
#if DEBUG != 0
MSG("Nr of associations: %d\n", association.size());
#endif
}
......@@ -294,116 +296,116 @@ struct DirichletBcData {
// pos = WorldVector
DirichletBcData(int i_, int j_, WorldVector<double> pos_, double val_)
: row(i_), col(j_), pos(pos_), val0(val_),
: row(i_), col(j_), pos(pos_), val0(val_), val1(NULL), val2(NULL),
posType(0), valueType(0),
idx(0), SignedDistFct(NULL), SignedDistDOF(NULL), val1(NULL), val2(NULL),
idx(0), SignedDistFct(NULL), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) {}
DirichletBcData(int i_, int j_, WorldVector<double> pos_, DOFVector<double> &val_)
: row(i_), col(j_), pos(pos_), val1(&val_),
: row(i_), col(j_), pos(pos_), val1(&val_), val0(0.0), val2(NULL),
posType(0), valueType(1),
idx(0), SignedDistFct(NULL), SignedDistDOF(NULL), val0(0.0), val2(NULL),
idx(0), SignedDistFct(NULL), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) {}
DirichletBcData(int i_, int j_, WorldVector<double> pos_, AbstractFunction<double, WorldVector<double> > &val_)
: row(i_), col(j_), pos(pos_), val2(&val_),
: row(i_), col(j_), pos(pos_), val0(0.0), val1(NULL), val2(&val_),
posType(0), valueType(2),
idx(0), SignedDistFct(NULL), SignedDistDOF(NULL), val0(0.0), val1(NULL),
idx(0), SignedDistFct(NULL), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) {}
// pos = idx
DirichletBcData(int i_, int j_, DegreeOfFreedom idx_, double val_)
: row(i_), col(j_), idx(idx_), val0(val_),
: row(i_), col(j_), idx(idx_), val0(val_), val1(NULL), val2(NULL),
posType(1), valueType(0),
SignedDistFct(NULL), SignedDistDOF(NULL), val1(NULL), val2(NULL),
SignedDistFct(NULL), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
DirichletBcData(int i_, int j_, DegreeOfFreedom idx_, DOFVector<double> &val_)
: row(i_), col(j_), idx(idx_), val1(&val_),
: row(i_), col(j_), idx(idx_), val0(0.0), val1(&val_), val2(NULL),
posType(1), valueType(1),
SignedDistFct(NULL), SignedDistDOF(NULL), val0(0.0), val2(NULL),
SignedDistFct(NULL), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
DirichletBcData(int i_, int j_, DegreeOfFreedom idx_, AbstractFunction<double, WorldVector<double> > &val_)
: row(i_), col(j_), idx(idx_), val2(&val_),
: row(i_), col(j_), idx(idx_), val0(0.0), val1(NULL), val2(&val_),
posType(1), valueType(2),
SignedDistFct(NULL), SignedDistDOF(NULL), val0(0.0), val1(NULL),
SignedDistFct(NULL), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
// pos = SignedDistFct
DirichletBcData(int i_, int j_, AbstractFunction<double, WorldVector<double> > *SignedDistFct_, double val_)
: row(i_), col(j_), SignedDistFct(SignedDistFct_), val0(val_),
: row(i_), col(j_), SignedDistFct(SignedDistFct_), val0(val_), val1(NULL), val2(NULL),
posType(2), valueType(0),
idx(0), SignedDistDOF(NULL), val1(NULL), val2(NULL),
idx(0), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
DirichletBcData(int i_, int j_, AbstractFunction<double, WorldVector<double> > *SignedDistFct_, DOFVector<double> &val_)
: row(i_), col(j_), SignedDistFct(SignedDistFct_), val1(&val_),
: row(i_), col(j_), SignedDistFct(SignedDistFct_), val0(0.0), val1(&val_), val2(NULL),
posType(2), valueType(1),
idx(0), SignedDistDOF(NULL), val0(0.0), val2(NULL),
idx(0), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
DirichletBcData(int i_, int j_, AbstractFunction<double, WorldVector<double> > *SignedDistFct_, AbstractFunction<double, WorldVector<double> > &val_)
: row(i_), col(j_), SignedDistFct(SignedDistFct_), val2(&val_),
: row(i_), col(j_), SignedDistFct(SignedDistFct_), val0(0.0), val1(NULL), val2(&val_),
posType(2), valueType(2),
idx(0), SignedDistDOF(NULL), val0(0.0), val1(NULL),
idx(0), SignedDistDOF(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
// pos = SignedDistDOF
DirichletBcData(int i_, int j_, DOFVector<double> *SignedDistDOF_, double val_)
: row(i_), col(j_), SignedDistDOF(SignedDistDOF_), val0(val_),
: row(i_), col(j_), SignedDistDOF(SignedDistDOF_), val0(val_), val1(NULL), val2(NULL),
posType(3), valueType(0),
idx(0), SignedDistFct(NULL), val1(NULL), val2(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
DirichletBcData(int i_, int j_, DOFVector<double> *SignedDistDOF_, DOFVector<double> &val_)
: row(i_), col(j_), SignedDistDOF(SignedDistDOF_), val1(&val_),
: row(i_), col(j_), SignedDistDOF(SignedDistDOF_), val0(0.0), val1(&val_), val2(NULL),
posType(3), valueType(1),
idx(0), SignedDistFct(NULL), val0(0.0), val2(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
DirichletBcData(int i_, int j_, DOFVector<double> *SignedDistDOF_, AbstractFunction<double, WorldVector<double> > &val_)
: row(i_), col(j_), SignedDistDOF(SignedDistDOF_), val2(&val_),
: row(i_), col(j_), SignedDistDOF(SignedDistDOF_), val0(0.0), val1(NULL), val2(&val_),
posType(3), valueType(2),
idx(0), SignedDistFct(NULL), val0(0.0), val1(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(0), meshIndicator(NULL) { pos.set(0.0); }
// pos = meshindicator + boundary_nr
DirichletBcData(int i_, int j_, BoundaryType nr, AbstractFunction<bool, WorldVector<double> > *meshIndicator_, double val_)
: row(i_), col(j_), SignedDistDOF(NULL), val0(val_),
: row(i_), col(j_), SignedDistDOF(NULL), val0(val_), val1(NULL), val2(NULL),
posType(4), valueType(0),
idx(0), SignedDistFct(NULL), val1(NULL), val2(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(nr), meshIndicator(meshIndicator_) { pos.set(0.0); }
DirichletBcData(int i_, int j_, BoundaryType nr, AbstractFunction<bool, WorldVector<double> > *meshIndicator_, DOFVector<double> &val_)
: row(i_), col(j_), SignedDistDOF(NULL), val1(&val_),
: row(i_), col(j_), SignedDistDOF(NULL), val0(0.0), val1(&val_), val2(NULL),
posType(4), valueType(1),
idx(0), SignedDistFct(NULL), val0(0.0), val2(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(nr), meshIndicator(meshIndicator_) { pos.set(0.0); }
DirichletBcData(int i_, int j_, BoundaryType nr, AbstractFunction<bool, WorldVector<double> > *meshIndicator_, AbstractFunction<double, WorldVector<double> > &val_)
: row(i_), col(j_), SignedDistDOF(NULL), val2(&val_),
: row(i_), col(j_), SignedDistDOF(NULL), val0(0.0), val1(NULL), val2(&val_),
posType(4), valueType(2),
idx(0), SignedDistFct(NULL), val0(0.0), val1(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(nr), meshIndicator(meshIndicator_) { pos.set(0.0); }
// pos = meshindicator
DirichletBcData(int i_, int j_, AbstractFunction<bool, WorldVector<double> > *meshIndicator_, double val_)
: row(i_), col(j_), SignedDistDOF(NULL), val0(val_),
: row(i_), col(j_), SignedDistDOF(NULL), val0(val_), val1(NULL), val2(NULL),
posType(4), valueType(0),
idx(0), SignedDistFct(NULL), val1(NULL), val2(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(0), meshIndicator(meshIndicator_) { pos.set(0.0); }
DirichletBcData(int i_, int j_, AbstractFunction<bool, WorldVector<double> > *meshIndicator_, DOFVector<double> &val_)
: row(i_), col(j_), SignedDistDOF(NULL), val1(&val_),
: row(i_), col(j_), SignedDistDOF(NULL), val0(0.0), val1(&val_), val2(NULL),
posType(4), valueType(1),
idx(0), SignedDistFct(NULL), val0(0.0), val2(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(0), meshIndicator(meshIndicator_) { pos.set(0.0); }
DirichletBcData(int i_, int j_, AbstractFunction<bool, WorldVector<double> > *meshIndicator_, AbstractFunction<double, WorldVector<double> > &val_)
: row(i_), col(j_), SignedDistDOF(NULL), val2(&val_),
: row(i_), col(j_), SignedDistDOF(NULL), val0(0.0), val1(NULL), val2(&val_),
posType(4), valueType(2),
idx(0), SignedDistFct(NULL), val0(0.0), val1(NULL),
idx(0), SignedDistFct(NULL),
boundary_nr(0), meshIndicator(meshIndicator_) { pos.set(0.0); }
void addToList(const FiniteElemSpace *feSpace, std::vector<SingularDirichletBC> &list)
......@@ -473,7 +475,9 @@ struct DirichletBcData {
list.push_back(SingularDirichletBC(row, col, indices_[i], values_[i]));
}
MSG_DBG("Dirichle BC at %d DOFs added.\n",indices_.size());
#if DEBUG != 0
MSG("Dirichle BC at %d DOFs added.\n",indices_.size());
#endif
}
......
......@@ -113,7 +113,7 @@ namespace AMDiS {
inline void valueVector2type(std::vector<double> p, WorldVector<double>& value)
{
if (p.size() != Global::getGeo(WORLD))
if (static_cast<int>(p.size()) != Global::getGeo(WORLD))
throw(std::runtime_error("Not enough data for assignment!\n"));
for (int i = 0; i < Global::getGeo(WORLD); i++)
value[i] = p[i];
......@@ -123,7 +123,7 @@ namespace AMDiS {
{
if (p.size() == 0)
throw(std::runtime_error("Not enough data for assignment!\n"));
for (int i = 0; i < p.size(); i++)
for (size_t i = 0; i < p.size(); i++)
value.push_back(p[i]);
}
......
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