DoorKeeper/include/doorkeeper/implem/tilecoords.inl

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/* Copyright 2015, Michele Santullo
* This file is part of DoorKeeper.
*
* DoorKeeper 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.
*
* DoorKeeper 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 DoorKeeper. If not, see <http://www.gnu.org/licenses/>.
*/
namespace dk {
namespace implem {
///----------------------------------------------------------------------
///Equivalent to (parA + parB) % parDiv
///----------------------------------------------------------------------
inline CoordinateScalarType sum_mod (CoordinateScalarType parA, CoordinateScalarType parB, CoordinateScalarType parDiv) {
//const auto sum = m_pos[index] + parValue;
//const auto sz = m_size[index] + 1;
//const auto remainder = sum - (sum / sz) * sz;
//m_pos[index] = remainder;
//parValue /= sz;
const auto rounded_sum = sum_div(parA, parB, parDiv) * parDiv;
return std::max(parA, parB) - rounded_sum + std::min(parA, parB);
}
///----------------------------------------------------------------------
///Equivalent to (parA + parB) / parDiv
///----------------------------------------------------------------------
inline CoordinateScalarType sum_div (CoordinateScalarType parA, CoordinateScalarType parB, CoordinateScalarType parDiv) {
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DK_ASSERT(parA >= 0 and parB >= 0 and parDiv > 0);
DK_ASSERT(std::numeric_limits<CoordinateScalarType>::max() - (parA % parDiv) >= (parB % parDiv));
const auto x = ((parA % parDiv) + (parB % parDiv)) / parDiv;
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DK_ASSERT(std::numeric_limits<CoordinateScalarType>::max() - parA / parDiv >= parB / parDiv);
DK_ASSERT(std::numeric_limits<CoordinateScalarType>::max() - parA / parDiv - parB / parDiv >= x);
return parA / parDiv + parB / parDiv + x;
}
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inline CoordinateScalarType sub_mod (CoordinateScalarType parA, CoordinateScalarType parB, CoordinateScalarType parDiv) {
typedef std::make_unsigned<CoordinateScalarType>::type unsigned_coord;
const unsigned_coord rounded_sum = static_cast<unsigned_coord>(sub_div(parA, parB, parDiv) * parDiv);
const unsigned_coord ret = static_cast<unsigned_coord>(parA) - rounded_sum - static_cast<unsigned_coord>(parB);
return static_cast<CoordinateScalarType>(ret);
}
inline CoordinateScalarType sub_div (CoordinateScalarType parA, CoordinateScalarType parB, CoordinateScalarType parDiv) {
const auto x = ((parA % parDiv) + (parB % parDiv)) / parDiv;
return parA / parDiv - parB / parDiv + x;
}
} //namespace implem
template <uint32_t D>
inline CoordinateDistType to_index (const Vector<D>& parPos, const Vector<D>& parUpper) {
CoordinateDistType index = 0;
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for (uint32_t d = 0; d < D; ++d) {
auto pos = static_cast<CoordinateDistType>(parPos[D - 1 - d]);
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for (uint32_t p = 0; p < D - 1 - d; ++p) {
pos *= static_cast<CoordinateDistType>(parUpper[p] + 1);
}
index += pos;
}
return index;
}
#if defined(NDEBUG)
template <>
inline CoordinateDistType to_index<2> (const Vector<2>& parPos, const Vector<2>& parUpper) {
return parPos.y() * (parUpper.x() + 1) + parPos.x();
}
#endif
template <uint32_t D>
inline CoordinateDistType to_index (const TileCoords<D>& parTC) {
return to_index<D>(parTC.position(), parTC.upper());
}
template <uint32_t D>
TileCoords<D>::TileCoords (const coords& parSize) :
m_pos(CoordinateScalarType(0)),
m_size(parSize)
{
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DK_ASSERT(m_pos <= m_size);
DK_ASSERT(m_size < coords(std::numeric_limits<CoordinateScalarType>::max()));
}
template <uint32_t D>
TileCoords<D>::TileCoords (const coords& parValue, const coords& parSize) :
m_pos(parValue),
m_size(parSize)
{
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DK_ASSERT(m_pos <= m_size);
DK_ASSERT(m_size < coords(std::numeric_limits<CoordinateScalarType>::max()));
}
template <uint32_t D>
TileCoords<D>& TileCoords<D>::operator++ () {
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static_assert(D > 0, "Dimention must be a positive number");
const coords lower(0);
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for (uint32_t d = 0; d < D - 1; ++d) {
++m_pos[d];
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if (m_pos[d] > m_size[d])
m_pos[d] = lower[d];
else
return *this;
}
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++m_pos[D - 1];
return *this;
}
template <uint32_t D>
TileCoords<D> TileCoords<D>::operator++ (int) {
TileCoords<D> retval(*this);
++(*this);
return retval;
}
template <uint32_t D>
TileCoords<D>& TileCoords<D>::operator-- () {
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static_assert(D > 0, "Dimention must be a positive number");
const coords lower(0);
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for (uint32_t d = 0; d < D; ++d) {
if (m_pos[d] > lower[d]) {
--m_pos[d];
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return *this;
}
else {
m_pos[d] = m_size[d];
}
}
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++m_pos[D - 1];
return *this;
}
template <uint32_t D>
TileCoords<D> TileCoords<D>::operator-- (int) {
TileCoords<D> retval(*this);
--(*this);
return retval;
}
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template <uint32_t D>
const TileCoords<D>& TileCoords<D>::operator-= (CoordinateScalarType parValue) {
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uint32_t index = 0;
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if (parValue > 0) {
while (parValue) {
const auto t = parValue % (m_size[index] + 1);
DK_ASSERT(t >= 0);
const CoordinateScalarType r = (t > m_pos[index] ? 1 : 0);
m_pos[index] = (m_size[index] + 1) * r + m_pos[index] - t;
parValue /= (m_size[index] + 1);
parValue += r;
++index;
}
}
else if (parValue < 0) {
while (parValue) {
const auto new_pos = implem::sub_mod(m_pos[index], parValue, m_size[index] + 1);
parValue = -implem::sub_div(m_pos[index], parValue, m_size[index] + 1);
m_pos[index] = new_pos;
++index;
}
}
return *this;
}
template <uint32_t D>
const TileCoords<D>& TileCoords<D>::operator+= (CoordinateScalarType parValue) {
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uint32_t index = 0;
if (parValue > 0) {
while (parValue) {
//naïve implementation
//parValue += m_pos[index];
//m_pos[index] = parValue % (m_size[index] + 1);
//parValue /= (m_size[index] + 1);
//overflow-aware implementation
const auto new_pos = implem::sum_mod(m_pos[index], parValue, m_size[index] + 1);
parValue = implem::sum_div(m_pos[index], parValue, m_size[index] + 1);
m_pos[index] = new_pos;
++index;
}
}
else if (parValue < 0) {
while (parValue) {
//const auto t = (-parValue) % (m_size[index] + 1);
const auto t = -(parValue % (m_size[index] + 1));
DK_ASSERT(t >= 0);
const CoordinateScalarType r = (t > m_pos[index] ? 1 : 0);
m_pos[index] = (m_size[index] + 1) * r + m_pos[index] - t;
parValue /= (m_size[index] + 1);
parValue -= r;
++index;
}
}
return *this;
}
template <uint32_t D>
bool TileCoords<D>::operator== (const TileCoords& parOther) const {
return m_pos == parOther.m_pos and m_size == parOther.m_size;
}
template <uint32_t D>
bool TileCoords<D>::operator!= (const TileCoords& parOther) const {
return not(*this == parOther);
}
template <uint32_t D>
const CoordinateScalarType& TileCoords<D>::operator[] (int parIndex) const {
DK_ASSERT(parIndex >= 0);
DK_ASSERT(static_cast<uint32_t>(parIndex) < D);
return m_pos[parIndex];
}
template <uint32_t D>
CoordinateScalarType& TileCoords<D>::operator[] (int parIndex) {
DK_ASSERT(parIndex >= 0);
DK_ASSERT(static_cast<uint32_t>(parIndex) < D);
return m_pos[parIndex];
}
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template <uint32_t D>
auto TileCoords<D>::position() const -> const coords& {
return m_pos;
}
template <uint32_t D>
auto TileCoords<D>::upper() const -> const coords& {
return m_size;
}
} //namespace dk