/* SPDX-License-Identifier: GPL-2.0-or-later */ #include "BLI_length_parameterize.hh" #include "BLI_task.hh" namespace blender::length_parameterize { void sample_uniform(const Span lengths, const bool include_last_point, MutableSpan r_segment_indices, MutableSpan r_factors) { const int count = r_segment_indices.size(); BLI_assert(count > 0); BLI_assert(lengths.size() >= 1); BLI_assert(std::is_sorted(lengths.begin(), lengths.end())); if (count == 1) { r_segment_indices[0] = 0; r_factors[0] = 0.0f; return; } const float total_length = lengths.last(); const float step_length = total_length / (count - include_last_point); threading::parallel_for(IndexRange(count), 512, [&](const IndexRange range) { SampleSegmentHint hint; for (const int i : range) { /* Use minimum to avoid issues with floating point accuracy. */ const float sample_length = std::min(total_length, i * step_length); sample_at_length(lengths, sample_length, r_segment_indices[i], r_factors[i], &hint); } }); } void sample_at_lengths(const Span accumulated_segment_lengths, const Span sample_lengths, MutableSpan r_segment_indices, MutableSpan r_factors) { BLI_assert( std::is_sorted(accumulated_segment_lengths.begin(), accumulated_segment_lengths.end())); BLI_assert(std::is_sorted(sample_lengths.begin(), sample_lengths.end())); const int count = sample_lengths.size(); BLI_assert(count == r_segment_indices.size()); BLI_assert(count == r_factors.size()); threading::parallel_for(IndexRange(count), 512, [&](const IndexRange range) { SampleSegmentHint hint; for (const int i : range) { const float sample_length = sample_lengths[i]; sample_at_length( accumulated_segment_lengths, sample_length, r_segment_indices[i], r_factors[i], &hint); } }); } } // namespace blender::length_parameterize