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Adding clang-format configuration file and formatting all source files

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Co-authored-by: Jules Pénuchot <jules@penuchot.com>
Co-authored-by: Joel FALCOU <jfalcou@codereckons.com>

See merge request oss/rotgen!41
This commit is contained in:
Jules Pénuchot 2025-10-14 16:19:03 +02:00
parent e92e824a18
commit 648dd768ee
94 changed files with 6778 additions and 4722 deletions
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758
src/map/model.cpp
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@ -16,379 +16,465 @@
// Internal payload
//==================================================================================================
//==================================================================================================
// Constructors & Special Members
//==================================================================================================
CLASSNAME::CLASSNAME(TYPE CONST* ptr, Index r, Index c) : storage_(std::make_unique<payload>(ptr,r,c))
{}
//==================================================================================================
// Constructors & Special Members
//==================================================================================================
CLASSNAME::CLASSNAME(TYPE CONST* ptr, Index r, Index c)
: storage_(std::make_unique<payload>(ptr, r, c))
{
}
CLASSNAME::CLASSNAME(TYPE CONST* ptr, Index r, Index c, stride s)
: storage_(std::make_unique<payload>(ptr,r,c,payload::stride_type{s.outer(),s.inner()}))
{}
CLASSNAME::CLASSNAME(TYPE CONST* ptr, Index r, Index c, stride s)
: storage_(std::make_unique<payload>(
ptr, r, c, payload::stride_type{s.outer(), s.inner()}))
{
}
CLASSNAME::CLASSNAME(CLASSNAME const& o) : storage_(std::make_unique<payload>(o.storage_->data))
{}
#if !defined(USE_CONST)
CLASSNAME& CLASSNAME::operator=(CLASSNAME const& o)
{
if (this != &o) storage_->data = o.storage_->data;
return *this;
}
CLASSNAME& CLASSNAME::operator=(CLASSNAME&& o)
{
if (this != &o) storage_->data = std::move(o.storage_->data);
return *this;
}
#endif
CLASSNAME::CLASSNAME(CLASSNAME&&) noexcept = default;
CLASSNAME::~CLASSNAME() = default;
//==================================================================================================
// Matrix API
//==================================================================================================
rotgen::Index CLASSNAME::rows() const { return storage_->data.rows(); }
rotgen::Index CLASSNAME::cols() const { return storage_->data.cols(); }
rotgen::Index CLASSNAME::size() const { return storage_->data.size(); }
rotgen::Index CLASSNAME::innerStride() const { return storage_->data.innerStride(); }
rotgen::Index CLASSNAME::outerStride() const { return storage_->data.outerStride(); }
const TYPE* CLASSNAME::data() const { return storage_->data.data(); }
#if !defined(USE_CONST)
TYPE* CLASSNAME::data() { return storage_->data.data(); }
TYPE& CLASSNAME::operator()(Index i, Index j) { return storage_->data(i,j); }
TYPE& CLASSNAME::operator()(Index i) { return storage_->data.data()[i]; }
#endif
TYPE CLASSNAME::operator()(Index i, Index j) const { return storage_->data(i,j); }
TYPE CLASSNAME::operator()(Index i) const { return storage_->data.data()[i]; }
SOURCENAME CLASSNAME::normalized() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.normalized().eval());
return result;
}
SOURCENAME CLASSNAME::transpose() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.transpose().eval());
return result;
}
SOURCENAME CLASSNAME::conjugate() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.conjugate().eval());
return result;
}
SOURCENAME CLASSNAME::adjoint() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.adjoint().eval());
return result;
}
SOURCENAME CLASSNAME::cwiseAbs() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseAbs().eval());
return result;
}
SOURCENAME CLASSNAME::cwiseAbs2() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseAbs2().eval());
return result;
}
SOURCENAME CLASSNAME::cwiseInverse() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseInverse().eval());
return result;
}
SOURCENAME CLASSNAME::cwiseSqrt() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseSqrt().eval());
return result;
}
SOURCENAME CLASSNAME::cwiseMin(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMin(rhs.storage()->data).eval());
return result;
}
SOURCENAME CLASSNAME::cwiseMax(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMax(rhs.storage()->data).eval());
return result;
}
SOURCENAME CLASSNAME::cwiseProduct(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseProduct(rhs.storage()->data).eval());
return result;
}
SOURCENAME CLASSNAME::cwiseQuotient(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseQuotient(rhs.storage()->data).eval());
return result;
}
SOURCENAME CLASSNAME::cwiseMin(TYPE rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMin(rhs).eval());
return result;
}
SOURCENAME CLASSNAME::cwiseMax(TYPE rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMax(rhs).eval());
return result;
}
SOURCENAME CLASSNAME::inverse() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.inverse().eval());
return result;
}
CLASSNAME::CLASSNAME(CLASSNAME const& o)
: storage_(std::make_unique<payload>(o.storage_->data))
{
}
#if !defined(USE_CONST)
void CLASSNAME::normalize()
{
storage_->data.normalize();
}
CLASSNAME& CLASSNAME::operator=(CLASSNAME const& o)
{
if (this != &o) storage_->data = o.storage_->data;
return *this;
}
void CLASSNAME::transposeInPlace()
{
storage_->data.transposeInPlace();
}
void CLASSNAME::adjointInPlace()
{
storage_->data.adjointInPlace();
}
CLASSNAME& CLASSNAME::operator=(CLASSNAME&& o)
{
if (this != &o) storage_->data = std::move(o.storage_->data);
return *this;
}
#endif
TYPE CLASSNAME::dot(CLASSNAME const& rhs) const
{
return storage_->data.reshaped().dot(rhs.storage()->data.reshaped());
}
CLASSNAME::CLASSNAME(CLASSNAME&&) noexcept = default;
TYPE CLASSNAME::dot(TRANSCLASSNAME const& rhs) const
{
return storage_->data.reshaped().dot(rhs.storage()->data.reshaped());
}
CLASSNAME::~CLASSNAME() = default;
TYPE CLASSNAME::sum() const { return storage_->data.sum(); }
TYPE CLASSNAME::prod() const { return storage_->data.prod(); }
TYPE CLASSNAME::mean() const { return storage_->data.mean(); }
TYPE CLASSNAME::trace() const { return storage_->data.trace(); }
//==================================================================================================
// Matrix API
//==================================================================================================
rotgen::Index CLASSNAME::rows() const
{
return storage_->data.rows();
}
TYPE CLASSNAME::minCoeff() const { return storage_->data.minCoeff(); }
TYPE CLASSNAME::maxCoeff() const { return storage_->data.maxCoeff(); }
rotgen::Index CLASSNAME::cols() const
{
return storage_->data.cols();
}
TYPE CLASSNAME::minCoeff(Index* row, Index* col) const { return storage_->data.minCoeff(row, col); }
TYPE CLASSNAME::maxCoeff(Index* row, Index* col) const { return storage_->data.maxCoeff(row, col); }
rotgen::Index CLASSNAME::size() const
{
return storage_->data.size();
}
TYPE CLASSNAME::squaredNorm() const { return storage_->data.squaredNorm(); }
TYPE CLASSNAME::norm() const { return storage_->data.norm(); }
rotgen::Index CLASSNAME::innerStride() const
{
return storage_->data.innerStride();
}
TYPE CLASSNAME::lpNorm(int p) const
{
if (p == 1) return storage_->data.lpNorm<1>();
else if (p == 2) return storage_->data.lpNorm<2>();
else return storage_->data.lpNorm<Eigen::Infinity>();
}
rotgen::Index CLASSNAME::outerStride() const
{
return storage_->data.outerStride();
}
#if !defined(USE_CONST)
void CLASSNAME::setZero()
{
storage_->data.setZero();
}
const TYPE* CLASSNAME::data() const
{
return storage_->data.data();
}
void CLASSNAME::setOnes()
{
storage_->data.setOnes();
}
#if !defined(USE_CONST)
TYPE* CLASSNAME::data()
{
return storage_->data.data();
}
void CLASSNAME::setIdentity()
{
storage_->data.setIdentity();
}
TYPE& CLASSNAME::operator()(Index i, Index j)
{
return storage_->data(i, j);
}
void CLASSNAME::setRandom()
{
storage_->data.setRandom();
}
TYPE& CLASSNAME::operator()(Index i)
{
return storage_->data.data()[i];
}
#endif
void CLASSNAME::setConstant(TYPE s)
{
storage_->data.setConstant(s);
}
#endif
TYPE CLASSNAME::operator()(Index i, Index j) const
{
return storage_->data(i, j);
}
//==================================================================================================
// Solvers
//==================================================================================================
SOURCENAME CLASSNAME::qr_solve(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.colPivHouseholderQr().solve(rhs.storage_->data).eval());
return result;
}
TYPE CLASSNAME::operator()(Index i) const
{
return storage_->data.data()[i];
}
//==================================================================================================
// Operators
//==================================================================================================
ROTGEN_EXPORT std::ostream& operator<<(std::ostream& os,CLASSNAME const& m)
{
return os << m.storage_->data;
}
SOURCENAME CLASSNAME::normalized() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.normalized().eval());
return result;
}
ROTGEN_EXPORT std::ostream& operator<<(std::ostream& os,format<CLASSNAME> const& m)
{
return os << m.matrix_.storage_->data.format(m.format_.storage()->instance);
}
SOURCENAME CLASSNAME::transpose() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.transpose().eval());
return result;
}
ROTGEN_EXPORT bool operator==(CLASSNAME const& lhs, CLASSNAME const& rhs)
{
return lhs.storage_->data == rhs.storage_->data;
}
SOURCENAME CLASSNAME::conjugate() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.conjugate().eval());
return result;
}
ROTGEN_EXPORT bool operator!=(CLASSNAME const& lhs, CLASSNAME const& rhs)
{
return lhs.storage_->data != rhs.storage_->data;
}
SOURCENAME CLASSNAME::adjoint() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.adjoint().eval());
return result;
}
SOURCENAME CLASSNAME::operator-() const
{
SOURCENAME result;
result.storage()->assign(storage_->data);
return -result;
}
SOURCENAME CLASSNAME::cwiseAbs() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseAbs().eval());
return result;
}
#if !defined(USE_CONST)
CLASSNAME& CLASSNAME::operator+=(CLASSNAME const& rhs)
{
storage_->data += rhs.storage_->data;
return *this;
}
SOURCENAME CLASSNAME::cwiseAbs2() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseAbs2().eval());
return result;
}
CLASSNAME& CLASSNAME::operator+=(CLASSCONSTNAME const& rhs)
{
storage_->data += rhs.storage()->data;
return *this;
}
SOURCENAME CLASSNAME::cwiseInverse() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseInverse().eval());
return result;
}
CLASSNAME& CLASSNAME::operator-=(CLASSNAME const& rhs)
{
storage_->data -= rhs.storage_->data;
return *this;
}
SOURCENAME CLASSNAME::cwiseSqrt() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseSqrt().eval());
return result;
}
CLASSNAME& CLASSNAME::operator-=(CLASSCONSTNAME const& rhs)
{
storage_->data -= rhs.storage()->data;
return *this;
}
SOURCENAME CLASSNAME::cwiseMin(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMin(rhs.storage()->data).eval());
return result;
}
CLASSNAME& CLASSNAME::operator*=(CLASSNAME const& rhs)
{
storage_->data *= rhs.storage_->data;
return *this;
}
SOURCENAME CLASSNAME::cwiseMax(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMax(rhs.storage()->data).eval());
return result;
}
CLASSNAME& CLASSNAME::operator*=(CLASSCONSTNAME const& rhs)
{
storage_->data *= rhs.storage()->data;
return *this;
}
SOURCENAME CLASSNAME::cwiseProduct(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(
storage_->data.cwiseProduct(rhs.storage()->data).eval());
return result;
}
CLASSNAME& CLASSNAME::operator*=(TYPE s)
{
storage_->data *= s;
return *this;
}
SOURCENAME CLASSNAME::cwiseQuotient(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(
storage_->data.cwiseQuotient(rhs.storage()->data).eval());
return result;
}
CLASSNAME& CLASSNAME::operator/=(TYPE s)
{
storage_->data /= s;
return *this;
}
#endif
SOURCENAME CLASSNAME::cwiseMin(TYPE rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMin(rhs).eval());
return result;
}
SOURCENAME CLASSNAME::add(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data + rhs.storage_->data);
return result;
}
SOURCENAME CLASSNAME::cwiseMax(TYPE rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data.cwiseMax(rhs).eval());
return result;
}
SOURCENAME CLASSNAME::add(TRANSCLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data + rhs.storage()->data);
return result;
}
SOURCENAME CLASSNAME::inverse() const
{
SOURCENAME result;
result.storage()->assign(storage_->data.inverse().eval());
return result;
}
SOURCENAME CLASSNAME::sub(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data - rhs.storage_->data);
return result;
}
#if !defined(USE_CONST)
void CLASSNAME::normalize()
{
storage_->data.normalize();
}
SOURCENAME CLASSNAME::sub(TRANSCLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data - rhs.storage()->data);
return result;
}
void CLASSNAME::transposeInPlace()
{
storage_->data.transposeInPlace();
}
SOURCENAME CLASSNAME::mul(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data * rhs.storage_->data);
return result;
}
void CLASSNAME::adjointInPlace()
{
storage_->data.adjointInPlace();
}
#endif
SOURCENAME CLASSNAME::mul(TRANSCLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data * rhs.storage()->data);
return result;
}
TYPE CLASSNAME::dot(CLASSNAME const& rhs) const
{
return storage_->data.reshaped().dot(rhs.storage()->data.reshaped());
}
SOURCENAME CLASSNAME::mul(TYPE s) const
{
SOURCENAME result;
result.storage()->assign(storage_->data * s);
return result;
}
TYPE CLASSNAME::dot(TRANSCLASSNAME const& rhs) const
{
return storage_->data.reshaped().dot(rhs.storage()->data.reshaped());
}
SOURCENAME CLASSNAME::div(TYPE s) const
{
SOURCENAME result;
result.storage()->assign(storage_->data / s);
return result;
}
TYPE CLASSNAME::sum() const
{
return storage_->data.sum();
}
TYPE CLASSNAME::prod() const
{
return storage_->data.prod();
}
TYPE CLASSNAME::mean() const
{
return storage_->data.mean();
}
TYPE CLASSNAME::trace() const
{
return storage_->data.trace();
}
TYPE CLASSNAME::minCoeff() const
{
return storage_->data.minCoeff();
}
TYPE CLASSNAME::maxCoeff() const
{
return storage_->data.maxCoeff();
}
TYPE CLASSNAME::minCoeff(Index* row, Index* col) const
{
return storage_->data.minCoeff(row, col);
}
TYPE CLASSNAME::maxCoeff(Index* row, Index* col) const
{
return storage_->data.maxCoeff(row, col);
}
TYPE CLASSNAME::squaredNorm() const
{
return storage_->data.squaredNorm();
}
TYPE CLASSNAME::norm() const
{
return storage_->data.norm();
}
TYPE CLASSNAME::lpNorm(int p) const
{
if (p == 1) return storage_->data.lpNorm<1>();
else if (p == 2) return storage_->data.lpNorm<2>();
else return storage_->data.lpNorm<Eigen::Infinity>();
}
#if !defined(USE_CONST)
void CLASSNAME::setZero()
{
storage_->data.setZero();
}
void CLASSNAME::setOnes()
{
storage_->data.setOnes();
}
void CLASSNAME::setIdentity()
{
storage_->data.setIdentity();
}
void CLASSNAME::setRandom()
{
storage_->data.setRandom();
}
void CLASSNAME::setConstant(TYPE s)
{
storage_->data.setConstant(s);
}
#endif
//==================================================================================================
// Solvers
//==================================================================================================
SOURCENAME CLASSNAME::qr_solve(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(
storage_->data.colPivHouseholderQr().solve(rhs.storage_->data).eval());
return result;
}
//==================================================================================================
// Operators
//==================================================================================================
ROTGEN_EXPORT std::ostream& operator<<(std::ostream& os, CLASSNAME const& m)
{
return os << m.storage_->data;
}
ROTGEN_EXPORT std::ostream& operator<<(std::ostream& os,
format<CLASSNAME> const& m)
{
return os << m.matrix_.storage_->data.format(m.format_.storage()->instance);
}
ROTGEN_EXPORT bool operator==(CLASSNAME const& lhs, CLASSNAME const& rhs)
{
return lhs.storage_->data == rhs.storage_->data;
}
ROTGEN_EXPORT bool operator!=(CLASSNAME const& lhs, CLASSNAME const& rhs)
{
return lhs.storage_->data != rhs.storage_->data;
}
SOURCENAME CLASSNAME::operator-() const
{
SOURCENAME result;
result.storage()->assign(storage_->data);
return -result;
}
#if !defined(USE_CONST)
CLASSNAME& CLASSNAME::operator+=(CLASSNAME const& rhs)
{
storage_->data += rhs.storage_->data;
return *this;
}
CLASSNAME& CLASSNAME::operator+=(CLASSCONSTNAME const& rhs)
{
storage_->data += rhs.storage()->data;
return *this;
}
CLASSNAME& CLASSNAME::operator-=(CLASSNAME const& rhs)
{
storage_->data -= rhs.storage_->data;
return *this;
}
CLASSNAME& CLASSNAME::operator-=(CLASSCONSTNAME const& rhs)
{
storage_->data -= rhs.storage()->data;
return *this;
}
CLASSNAME& CLASSNAME::operator*=(CLASSNAME const& rhs)
{
storage_->data *= rhs.storage_->data;
return *this;
}
CLASSNAME& CLASSNAME::operator*=(CLASSCONSTNAME const& rhs)
{
storage_->data *= rhs.storage()->data;
return *this;
}
CLASSNAME& CLASSNAME::operator*=(TYPE s)
{
storage_->data *= s;
return *this;
}
CLASSNAME& CLASSNAME::operator/=(TYPE s)
{
storage_->data /= s;
return *this;
}
#endif
SOURCENAME CLASSNAME::add(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data + rhs.storage_->data);
return result;
}
SOURCENAME CLASSNAME::add(TRANSCLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data + rhs.storage()->data);
return result;
}
SOURCENAME CLASSNAME::sub(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data - rhs.storage_->data);
return result;
}
SOURCENAME CLASSNAME::sub(TRANSCLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data - rhs.storage()->data);
return result;
}
SOURCENAME CLASSNAME::mul(CLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data * rhs.storage_->data);
return result;
}
SOURCENAME CLASSNAME::mul(TRANSCLASSNAME const& rhs) const
{
SOURCENAME result;
result.storage()->assign(storage_->data * rhs.storage()->data);
return result;
}
SOURCENAME CLASSNAME::mul(TYPE s) const
{
SOURCENAME result;
result.storage()->assign(storage_->data * s);
return result;
}
SOURCENAME CLASSNAME::div(TYPE s) const
{
SOURCENAME result;
result.storage()->assign(storage_->data / s);
return result;
}