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/* SPDX-License-Identifier: GPL-2.0-or-later */
#include "BLI_span.hh"
#include "BLI_virtual_array.hh"
#include "BKE_spline.hh"
using blender::float3;
using blender::GVArray;
using blender::MutableSpan;
using blender::Span;
void PolySpline::copy_settings(Spline &UNUSED(dst)) const
{
/* Poly splines have no settings not covered by the base class. */
}
void PolySpline::copy_data(Spline &dst) const
{
PolySpline &poly = static_cast<PolySpline &>(dst);
poly.positions_ = positions_;
poly.radii_ = radii_;
poly.tilts_ = tilts_;
}
int PolySpline::size() const
{
const int size = positions_.size();
BLI_assert(size == radii_.size());
BLI_assert(size == tilts_.size());
return size;
}
void PolySpline::resize(const int size)
{
positions_.resize(size);
radii_.resize(size);
tilts_.resize(size);
this->mark_cache_invalid();
attributes.reallocate(size);
}
MutableSpan<float3> PolySpline::positions()
{
return positions_;
}
Span<float3> PolySpline::positions() const
{
return positions_;
}
MutableSpan<float> PolySpline::radii()
{
return radii_;
}
Span<float> PolySpline::radii() const
{
return radii_;
}
MutableSpan<float> PolySpline::tilts()
{
return tilts_;
}
Span<float> PolySpline::tilts() const
{
return tilts_;
}
void PolySpline::reverse_impl()
{
}
void PolySpline::mark_cache_invalid()
{
tangent_cache_dirty_ = true;
normal_cache_dirty_ = true;
length_cache_dirty_ = true;
}
int PolySpline::evaluated_points_size() const
{
return this->size();
}
void PolySpline::correct_end_tangents() const
{
}
Span<float3> PolySpline::evaluated_positions() const
{
return this->positions();
}
GVArray PolySpline::interpolate_to_evaluated(const GVArray &src) const
{
BLI_assert(src.size() == this->size());
return src;
}
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